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authorYe Li <ye.li@nxp.com>2018-04-15 19:48:53 -0700
committerYe Li <ye.li@nxp.com>2018-04-27 02:32:19 -0700
commitc87eef27ef179005bcb8d46f6121d6f0e9298ab8 (patch)
treec755718fa3523cae957d51718e9e1af4fc3859fe /arch/arm
parentde084efbc91de971f10c745bbc94f960cdb813a9 (diff)
MLK-14938-1 imx: Add SCFW API files
Using the latest SCFW-API based on commit from SCFW master branch " commit 433c7fb773e3a5853e2744ff1f958bb225cd338a Author: Chuck Cannon <chuck.cannon@nxp.com> Date: Tue Apr 17 16:09:56 2018 -0500 Only default start CPUs for EMUL, SIMU, and test builds. Signed-off-by: Chuck Cannon <chuck.cannon@nxp.com> " Signed-off-by: Ye Li <ye.li@nxp.com>
Diffstat (limited to 'arch/arm')
-rw-r--r--arch/arm/include/asm/arch-imx8/imx8qm_pads.h295
-rw-r--r--arch/arm/include/asm/arch-imx8/imx8qxp_pads.h200
-rwxr-xr-xarch/arm/include/asm/mach-imx/sci/ipc.h67
-rwxr-xr-xarch/arm/include/asm/mach-imx/sci/rpc.h131
-rwxr-xr-xarch/arm/include/asm/mach-imx/sci/svc/irq/api.h160
-rw-r--r--arch/arm/include/asm/mach-imx/sci/svc/misc/api.h523
-rwxr-xr-xarch/arm/include/asm/mach-imx/sci/svc/pad/api.h568
-rwxr-xr-xarch/arm/include/asm/mach-imx/sci/svc/pm/api.h683
-rwxr-xr-xarch/arm/include/asm/mach-imx/sci/svc/rm/api.h759
-rwxr-xr-xarch/arm/include/asm/mach-imx/sci/svc/timer/api.h306
-rwxr-xr-xarch/arm/include/asm/mach-imx/sci/types.h851
-rw-r--r--arch/arm/mach-imx/sci/svc/irq/rpc.h54
-rw-r--r--arch/arm/mach-imx/sci/svc/irq/rpc_clnt.c76
-rw-r--r--arch/arm/mach-imx/sci/svc/misc/rpc.h76
-rw-r--r--arch/arm/mach-imx/sci/svc/misc/rpc_clnt.c515
-rw-r--r--arch/arm/mach-imx/sci/svc/pad/rpc.h68
-rw-r--r--arch/arm/mach-imx/sci/svc/pad/rpc_clnt.c475
-rw-r--r--arch/arm/mach-imx/sci/svc/pm/rpc.h73
-rw-r--r--arch/arm/mach-imx/sci/svc/pm/rpc_clnt.c460
-rw-r--r--arch/arm/mach-imx/sci/svc/rm/rpc.h83
-rw-r--r--arch/arm/mach-imx/sci/svc/rm/rpc_clnt.c645
-rw-r--r--arch/arm/mach-imx/sci/svc/timer/rpc.h67
-rw-r--r--arch/arm/mach-imx/sci/svc/timer/rpc_clnt.c365
23 files changed, 7500 insertions, 0 deletions
diff --git a/arch/arm/include/asm/arch-imx8/imx8qm_pads.h b/arch/arm/include/asm/arch-imx8/imx8qm_pads.h
new file mode 100644
index 0000000000..5cd2b76759
--- /dev/null
+++ b/arch/arm/include/asm/arch-imx8/imx8qm_pads.h
@@ -0,0 +1,295 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file used to configure SoC pad list.
+ */
+
+#ifndef SC_PADS_H
+#define SC_PADS_H
+
+/* Includes */
+
+/* Defines */
+
+/*!
+ * @name Pad Definitions
+ */
+/*@{*/
+#define SC_P_SIM0_CLK 0 /*!< DMA.SIM0.CLK, LSIO.GPIO0.IO00 */
+#define SC_P_SIM0_RST 1 /*!< DMA.SIM0.RST, LSIO.GPIO0.IO01 */
+#define SC_P_SIM0_IO 2 /*!< DMA.SIM0.IO, LSIO.GPIO0.IO02 */
+#define SC_P_SIM0_PD 3 /*!< DMA.SIM0.PD, DMA.I2C3.SCL, LSIO.GPIO0.IO03 */
+#define SC_P_SIM0_POWER_EN 4 /*!< DMA.SIM0.POWER_EN, DMA.I2C3.SDA, LSIO.GPIO0.IO04 */
+#define SC_P_SIM0_GPIO0_00 5 /*!< DMA.SIM0.POWER_EN, LSIO.GPIO0.IO05 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_SIM 6 /*!< */
+#define SC_P_M40_I2C0_SCL 7 /*!< M40.I2C0.SCL, M40.UART0.RX, M40.GPIO0.IO02, LSIO.GPIO0.IO06 */
+#define SC_P_M40_I2C0_SDA 8 /*!< M40.I2C0.SDA, M40.UART0.TX, M40.GPIO0.IO03, LSIO.GPIO0.IO07 */
+#define SC_P_M40_GPIO0_00 9 /*!< M40.GPIO0.IO00, M40.TPM0.CH0, DMA.UART4.RX, LSIO.GPIO0.IO08 */
+#define SC_P_M40_GPIO0_01 10 /*!< M40.GPIO0.IO01, M40.TPM0.CH1, DMA.UART4.TX, LSIO.GPIO0.IO09 */
+#define SC_P_M41_I2C0_SCL 11 /*!< M41.I2C0.SCL, M41.UART0.RX, M41.GPIO0.IO02, LSIO.GPIO0.IO10 */
+#define SC_P_M41_I2C0_SDA 12 /*!< M41.I2C0.SDA, M41.UART0.TX, M41.GPIO0.IO03, LSIO.GPIO0.IO11 */
+#define SC_P_M41_GPIO0_00 13 /*!< M41.GPIO0.IO00, M41.TPM0.CH0, DMA.UART3.RX, LSIO.GPIO0.IO12 */
+#define SC_P_M41_GPIO0_01 14 /*!< M41.GPIO0.IO01, M41.TPM0.CH1, DMA.UART3.TX, LSIO.GPIO0.IO13 */
+#define SC_P_GPT0_CLK 15 /*!< LSIO.GPT0.CLK, DMA.I2C1.SCL, LSIO.KPP0.COL4, LSIO.GPIO0.IO14 */
+#define SC_P_GPT0_CAPTURE 16 /*!< LSIO.GPT0.CAPTURE, DMA.I2C1.SDA, LSIO.KPP0.COL5, LSIO.GPIO0.IO15 */
+#define SC_P_GPT0_COMPARE 17 /*!< LSIO.GPT0.COMPARE, LSIO.PWM3.OUT, LSIO.KPP0.COL6, LSIO.GPIO0.IO16 */
+#define SC_P_GPT1_CLK 18 /*!< LSIO.GPT1.CLK, DMA.I2C2.SCL, LSIO.KPP0.COL7, LSIO.GPIO0.IO17 */
+#define SC_P_GPT1_CAPTURE 19 /*!< LSIO.GPT1.CAPTURE, DMA.I2C2.SDA, LSIO.KPP0.ROW4, LSIO.GPIO0.IO18 */
+#define SC_P_GPT1_COMPARE 20 /*!< LSIO.GPT1.COMPARE, LSIO.PWM2.OUT, LSIO.KPP0.ROW5, LSIO.GPIO0.IO19 */
+#define SC_P_UART0_RX 21 /*!< DMA.UART0.RX, SCU.UART0.RX, LSIO.GPIO0.IO20 */
+#define SC_P_UART0_TX 22 /*!< DMA.UART0.TX, SCU.UART0.TX, LSIO.GPIO0.IO21 */
+#define SC_P_UART0_RTS_B 23 /*!< DMA.UART0.RTS_B, LSIO.PWM0.OUT, DMA.UART2.RX, LSIO.GPIO0.IO22 */
+#define SC_P_UART0_CTS_B 24 /*!< DMA.UART0.CTS_B, LSIO.PWM1.OUT, DMA.UART2.TX, LSIO.GPIO0.IO23 */
+#define SC_P_UART1_TX 25 /*!< DMA.UART1.TX, DMA.SPI3.SCK, LSIO.GPIO0.IO24 */
+#define SC_P_UART1_RX 26 /*!< DMA.UART1.RX, DMA.SPI3.SDO, LSIO.GPIO0.IO25 */
+#define SC_P_UART1_RTS_B 27 /*!< DMA.UART1.RTS_B, DMA.SPI3.SDI, DMA.UART1.CTS_B, LSIO.GPIO0.IO26 */
+#define SC_P_UART1_CTS_B 28 /*!< DMA.UART1.CTS_B, DMA.SPI3.CS0, DMA.UART1.RTS_B, LSIO.GPIO0.IO27 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_GPIOLH 29 /*!< */
+#define SC_P_SCU_PMIC_MEMC_ON 30 /*!< SCU.GPIO0.IOXX_PMIC_MEMC_ON */
+#define SC_P_SCU_WDOG_OUT 31 /*!< SCU.WDOG0.WDOG_OUT */
+#define SC_P_PMIC_I2C_SDA 32 /*!< SCU.PMIC_I2C.SDA */
+#define SC_P_PMIC_I2C_SCL 33 /*!< SCU.PMIC_I2C.SCL */
+#define SC_P_PMIC_EARLY_WARNING 34 /*!< SCU.PMIC_EARLY_WARNING */
+#define SC_P_PMIC_INT_B 35 /*!< SCU.DSC.PMIC_INT_B */
+#define SC_P_SCU_GPIO0_00 36 /*!< SCU.GPIO0.IO00, SCU.UART0.RX, LSIO.GPIO0.IO28 */
+#define SC_P_SCU_GPIO0_01 37 /*!< SCU.GPIO0.IO01, SCU.UART0.TX, LSIO.GPIO0.IO29 */
+#define SC_P_SCU_GPIO0_02 38 /*!< SCU.GPIO0.IO02, SCU.GPIO0.IOXX_PMIC_GPU0_ON, LSIO.GPIO0.IO30 */
+#define SC_P_SCU_GPIO0_03 39 /*!< SCU.GPIO0.IO03, SCU.GPIO0.IOXX_PMIC_GPU1_ON, LSIO.GPIO0.IO31 */
+#define SC_P_SCU_GPIO0_04 40 /*!< SCU.GPIO0.IO04, SCU.GPIO0.IOXX_PMIC_A72_ON, LSIO.GPIO1.IO00 */
+#define SC_P_SCU_GPIO0_05 41 /*!< SCU.GPIO0.IO05, SCU.GPIO0.IOXX_PMIC_A53_ON, LSIO.GPIO1.IO01 */
+#define SC_P_SCU_GPIO0_06 42 /*!< SCU.GPIO0.IO06, SCU.TPM0.CH0, LSIO.GPIO1.IO02 */
+#define SC_P_SCU_GPIO0_07 43 /*!< SCU.GPIO0.IO07, SCU.TPM0.CH1, SCU.DSC.RTC_CLOCK_OUTPUT_32K, LSIO.GPIO1.IO03 */
+#define SC_P_SCU_BOOT_MODE0 44 /*!< SCU.DSC.BOOT_MODE0 */
+#define SC_P_SCU_BOOT_MODE1 45 /*!< SCU.DSC.BOOT_MODE1 */
+#define SC_P_SCU_BOOT_MODE2 46 /*!< SCU.DSC.BOOT_MODE2 */
+#define SC_P_SCU_BOOT_MODE3 47 /*!< SCU.DSC.BOOT_MODE3 */
+#define SC_P_SCU_BOOT_MODE4 48 /*!< SCU.DSC.BOOT_MODE4, SCU.PMIC_I2C.SCL */
+#define SC_P_SCU_BOOT_MODE5 49 /*!< SCU.DSC.BOOT_MODE5, SCU.PMIC_I2C.SDA */
+#define SC_P_LVDS0_GPIO00 50 /*!< LVDS0.GPIO0.IO00, LVDS0.PWM0.OUT, LSIO.GPIO1.IO04 */
+#define SC_P_LVDS0_GPIO01 51 /*!< LVDS0.GPIO0.IO01, LSIO.GPIO1.IO05 */
+#define SC_P_LVDS0_I2C0_SCL 52 /*!< LVDS0.I2C0.SCL, LVDS0.GPIO0.IO02, LSIO.GPIO1.IO06 */
+#define SC_P_LVDS0_I2C0_SDA 53 /*!< LVDS0.I2C0.SDA, LVDS0.GPIO0.IO03, LSIO.GPIO1.IO07 */
+#define SC_P_LVDS0_I2C1_SCL 54 /*!< LVDS0.I2C1.SCL, DMA.UART2.TX, LSIO.GPIO1.IO08 */
+#define SC_P_LVDS0_I2C1_SDA 55 /*!< LVDS0.I2C1.SDA, DMA.UART2.RX, LSIO.GPIO1.IO09 */
+#define SC_P_LVDS1_GPIO00 56 /*!< LVDS1.GPIO0.IO00, LVDS1.PWM0.OUT, LSIO.GPIO1.IO10 */
+#define SC_P_LVDS1_GPIO01 57 /*!< LVDS1.GPIO0.IO01, LSIO.GPIO1.IO11 */
+#define SC_P_LVDS1_I2C0_SCL 58 /*!< LVDS1.I2C0.SCL, LVDS1.GPIO0.IO02, LSIO.GPIO1.IO12 */
+#define SC_P_LVDS1_I2C0_SDA 59 /*!< LVDS1.I2C0.SDA, LVDS1.GPIO0.IO03, LSIO.GPIO1.IO13 */
+#define SC_P_LVDS1_I2C1_SCL 60 /*!< LVDS1.I2C1.SCL, DMA.UART3.TX, LSIO.GPIO1.IO14 */
+#define SC_P_LVDS1_I2C1_SDA 61 /*!< LVDS1.I2C1.SDA, DMA.UART3.RX, LSIO.GPIO1.IO15 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_LVDSGPIO 62 /*!< */
+#define SC_P_MIPI_DSI0_I2C0_SCL 63 /*!< MIPI_DSI0.I2C0.SCL, LSIO.GPIO1.IO16 */
+#define SC_P_MIPI_DSI0_I2C0_SDA 64 /*!< MIPI_DSI0.I2C0.SDA, LSIO.GPIO1.IO17 */
+#define SC_P_MIPI_DSI0_GPIO0_00 65 /*!< MIPI_DSI0.GPIO0.IO00, MIPI_DSI0.PWM0.OUT, LSIO.GPIO1.IO18 */
+#define SC_P_MIPI_DSI0_GPIO0_01 66 /*!< MIPI_DSI0.GPIO0.IO01, LSIO.GPIO1.IO19 */
+#define SC_P_MIPI_DSI1_I2C0_SCL 67 /*!< MIPI_DSI1.I2C0.SCL, LSIO.GPIO1.IO20 */
+#define SC_P_MIPI_DSI1_I2C0_SDA 68 /*!< MIPI_DSI1.I2C0.SDA, LSIO.GPIO1.IO21 */
+#define SC_P_MIPI_DSI1_GPIO0_00 69 /*!< MIPI_DSI1.GPIO0.IO00, MIPI_DSI1.PWM0.OUT, LSIO.GPIO1.IO22 */
+#define SC_P_MIPI_DSI1_GPIO0_01 70 /*!< MIPI_DSI1.GPIO0.IO01, LSIO.GPIO1.IO23 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_MIPIDSIGPIO 71 /*!< */
+#define SC_P_MIPI_CSI0_MCLK_OUT 72 /*!< MIPI_CSI0.ACM.MCLK_OUT, LSIO.GPIO1.IO24 */
+#define SC_P_MIPI_CSI0_I2C0_SCL 73 /*!< MIPI_CSI0.I2C0.SCL, LSIO.GPIO1.IO25 */
+#define SC_P_MIPI_CSI0_I2C0_SDA 74 /*!< MIPI_CSI0.I2C0.SDA, LSIO.GPIO1.IO26 */
+#define SC_P_MIPI_CSI0_GPIO0_00 75 /*!< MIPI_CSI0.GPIO0.IO00, DMA.I2C0.SCL, MIPI_CSI1.I2C0.SCL, LSIO.GPIO1.IO27 */
+#define SC_P_MIPI_CSI0_GPIO0_01 76 /*!< MIPI_CSI0.GPIO0.IO01, DMA.I2C0.SDA, MIPI_CSI1.I2C0.SDA, LSIO.GPIO1.IO28 */
+#define SC_P_MIPI_CSI1_MCLK_OUT 77 /*!< MIPI_CSI1.ACM.MCLK_OUT, LSIO.GPIO1.IO29 */
+#define SC_P_MIPI_CSI1_GPIO0_00 78 /*!< MIPI_CSI1.GPIO0.IO00, DMA.UART4.RX, LSIO.GPIO1.IO30 */
+#define SC_P_MIPI_CSI1_GPIO0_01 79 /*!< MIPI_CSI1.GPIO0.IO01, DMA.UART4.TX, LSIO.GPIO1.IO31 */
+#define SC_P_MIPI_CSI1_I2C0_SCL 80 /*!< MIPI_CSI1.I2C0.SCL, LSIO.GPIO2.IO00 */
+#define SC_P_MIPI_CSI1_I2C0_SDA 81 /*!< MIPI_CSI1.I2C0.SDA, LSIO.GPIO2.IO01 */
+#define SC_P_HDMI_TX0_TS_SCL 82 /*!< HDMI_TX0.I2C0.SCL, DMA.I2C0.SCL, LSIO.GPIO2.IO02 */
+#define SC_P_HDMI_TX0_TS_SDA 83 /*!< HDMI_TX0.I2C0.SDA, DMA.I2C0.SDA, LSIO.GPIO2.IO03 */
+#define SC_P_COMP_CTL_GPIO_3V3_HDMIGPIO 84 /*!< */
+#define SC_P_ESAI1_FSR 85 /*!< AUD.ESAI1.FSR, LSIO.GPIO2.IO04 */
+#define SC_P_ESAI1_FST 86 /*!< AUD.ESAI1.FST, AUD.SPDIF0.EXT_CLK, LSIO.GPIO2.IO05 */
+#define SC_P_ESAI1_SCKR 87 /*!< AUD.ESAI1.SCKR, LSIO.GPIO2.IO06 */
+#define SC_P_ESAI1_SCKT 88 /*!< AUD.ESAI1.SCKT, AUD.SAI2.RXC, AUD.SPDIF0.EXT_CLK, LSIO.GPIO2.IO07 */
+#define SC_P_ESAI1_TX0 89 /*!< AUD.ESAI1.TX0, AUD.SAI2.RXD, AUD.SPDIF0.RX, LSIO.GPIO2.IO08 */
+#define SC_P_ESAI1_TX1 90 /*!< AUD.ESAI1.TX1, AUD.SAI2.RXFS, AUD.SPDIF0.TX, LSIO.GPIO2.IO09 */
+#define SC_P_ESAI1_TX2_RX3 91 /*!< AUD.ESAI1.TX2_RX3, AUD.SPDIF0.RX, LSIO.GPIO2.IO10 */
+#define SC_P_ESAI1_TX3_RX2 92 /*!< AUD.ESAI1.TX3_RX2, AUD.SPDIF0.TX, LSIO.GPIO2.IO11 */
+#define SC_P_ESAI1_TX4_RX1 93 /*!< AUD.ESAI1.TX4_RX1, LSIO.GPIO2.IO12 */
+#define SC_P_ESAI1_TX5_RX0 94 /*!< AUD.ESAI1.TX5_RX0, LSIO.GPIO2.IO13 */
+#define SC_P_SPDIF0_RX 95 /*!< AUD.SPDIF0.RX, AUD.MQS.R, AUD.ACM.MCLK_IN1, LSIO.GPIO2.IO14 */
+#define SC_P_SPDIF0_TX 96 /*!< AUD.SPDIF0.TX, AUD.MQS.L, AUD.ACM.MCLK_OUT1, LSIO.GPIO2.IO15 */
+#define SC_P_SPDIF0_EXT_CLK 97 /*!< AUD.SPDIF0.EXT_CLK, DMA.DMA0.REQ_IN0, LSIO.GPIO2.IO16 */
+#define SC_P_SPI3_SCK 98 /*!< DMA.SPI3.SCK, LSIO.GPIO2.IO17 */
+#define SC_P_SPI3_SDO 99 /*!< DMA.SPI3.SDO, DMA.FTM.CH0, LSIO.GPIO2.IO18 */
+#define SC_P_SPI3_SDI 100 /*!< DMA.SPI3.SDI, DMA.FTM.CH1, LSIO.GPIO2.IO19 */
+#define SC_P_SPI3_CS0 101 /*!< DMA.SPI3.CS0, DMA.FTM.CH2, LSIO.GPIO2.IO20 */
+#define SC_P_SPI3_CS1 102 /*!< DMA.SPI3.CS1, LSIO.GPIO2.IO21 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_GPIORHB 103 /*!< */
+#define SC_P_ESAI0_FSR 104 /*!< AUD.ESAI0.FSR, LSIO.GPIO2.IO22 */
+#define SC_P_ESAI0_FST 105 /*!< AUD.ESAI0.FST, LSIO.GPIO2.IO23 */
+#define SC_P_ESAI0_SCKR 106 /*!< AUD.ESAI0.SCKR, LSIO.GPIO2.IO24 */
+#define SC_P_ESAI0_SCKT 107 /*!< AUD.ESAI0.SCKT, LSIO.GPIO2.IO25 */
+#define SC_P_ESAI0_TX0 108 /*!< AUD.ESAI0.TX0, LSIO.GPIO2.IO26 */
+#define SC_P_ESAI0_TX1 109 /*!< AUD.ESAI0.TX1, LSIO.GPIO2.IO27 */
+#define SC_P_ESAI0_TX2_RX3 110 /*!< AUD.ESAI0.TX2_RX3, LSIO.GPIO2.IO28 */
+#define SC_P_ESAI0_TX3_RX2 111 /*!< AUD.ESAI0.TX3_RX2, LSIO.GPIO2.IO29 */
+#define SC_P_ESAI0_TX4_RX1 112 /*!< AUD.ESAI0.TX4_RX1, LSIO.GPIO2.IO30 */
+#define SC_P_ESAI0_TX5_RX0 113 /*!< AUD.ESAI0.TX5_RX0, LSIO.GPIO2.IO31 */
+#define SC_P_MCLK_IN0 114 /*!< AUD.ACM.MCLK_IN0, AUD.ESAI0.RX_HF_CLK, AUD.ESAI1.RX_HF_CLK, LSIO.GPIO3.IO00 */
+#define SC_P_MCLK_OUT0 115 /*!< AUD.ACM.MCLK_OUT0, AUD.ESAI0.TX_HF_CLK, AUD.ESAI1.TX_HF_CLK, LSIO.GPIO3.IO01 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_GPIORHC 116 /*!< */
+#define SC_P_SPI0_SCK 117 /*!< DMA.SPI0.SCK, AUD.SAI0.RXC, LSIO.GPIO3.IO02 */
+#define SC_P_SPI0_SDO 118 /*!< DMA.SPI0.SDO, AUD.SAI0.TXD, LSIO.GPIO3.IO03 */
+#define SC_P_SPI0_SDI 119 /*!< DMA.SPI0.SDI, AUD.SAI0.RXD, LSIO.GPIO3.IO04 */
+#define SC_P_SPI0_CS0 120 /*!< DMA.SPI0.CS0, AUD.SAI0.RXFS, LSIO.GPIO3.IO05 */
+#define SC_P_SPI0_CS1 121 /*!< DMA.SPI0.CS1, AUD.SAI0.TXC, LSIO.GPIO3.IO06 */
+#define SC_P_SPI2_SCK 122 /*!< DMA.SPI2.SCK, LSIO.GPIO3.IO07 */
+#define SC_P_SPI2_SDO 123 /*!< DMA.SPI2.SDO, LSIO.GPIO3.IO08 */
+#define SC_P_SPI2_SDI 124 /*!< DMA.SPI2.SDI, LSIO.GPIO3.IO09 */
+#define SC_P_SPI2_CS0 125 /*!< DMA.SPI2.CS0, LSIO.GPIO3.IO10 */
+#define SC_P_SPI2_CS1 126 /*!< DMA.SPI2.CS1, AUD.SAI0.TXFS, LSIO.GPIO3.IO11 */
+#define SC_P_SAI1_RXC 127 /*!< AUD.SAI1.RXC, AUD.SAI0.TXD, LSIO.GPIO3.IO12 */
+#define SC_P_SAI1_RXD 128 /*!< AUD.SAI1.RXD, AUD.SAI0.TXFS, LSIO.GPIO3.IO13 */
+#define SC_P_SAI1_RXFS 129 /*!< AUD.SAI1.RXFS, AUD.SAI0.RXD, LSIO.GPIO3.IO14 */
+#define SC_P_SAI1_TXC 130 /*!< AUD.SAI1.TXC, AUD.SAI0.TXC, LSIO.GPIO3.IO15 */
+#define SC_P_SAI1_TXD 131 /*!< AUD.SAI1.TXD, AUD.SAI1.RXC, LSIO.GPIO3.IO16 */
+#define SC_P_SAI1_TXFS 132 /*!< AUD.SAI1.TXFS, AUD.SAI1.RXFS, LSIO.GPIO3.IO17 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_GPIORHT 133 /*!< */
+#define SC_P_ADC_IN7 134 /*!< DMA.ADC1.IN3, DMA.SPI1.CS1, LSIO.KPP0.ROW3, LSIO.GPIO3.IO25 */
+#define SC_P_ADC_IN6 135 /*!< DMA.ADC1.IN2, DMA.SPI1.CS0, LSIO.KPP0.ROW2, LSIO.GPIO3.IO24 */
+#define SC_P_ADC_IN5 136 /*!< DMA.ADC1.IN1, DMA.SPI1.SDI, LSIO.KPP0.ROW1, LSIO.GPIO3.IO23 */
+#define SC_P_ADC_IN4 137 /*!< DMA.ADC1.IN0, DMA.SPI1.SDO, LSIO.KPP0.ROW0, LSIO.GPIO3.IO22 */
+#define SC_P_ADC_IN3 138 /*!< DMA.ADC0.IN3, DMA.SPI1.SCK, LSIO.KPP0.COL3, LSIO.GPIO3.IO21 */
+#define SC_P_ADC_IN2 139 /*!< DMA.ADC0.IN2, LSIO.KPP0.COL2, LSIO.GPIO3.IO20 */
+#define SC_P_ADC_IN1 140 /*!< DMA.ADC0.IN1, LSIO.KPP0.COL1, LSIO.GPIO3.IO19 */
+#define SC_P_ADC_IN0 141 /*!< DMA.ADC0.IN0, LSIO.KPP0.COL0, LSIO.GPIO3.IO18 */
+#define SC_P_MLB_SIG 142 /*!< CONN.MLB.SIG, AUD.SAI3.RXC, LSIO.GPIO3.IO26 */
+#define SC_P_MLB_CLK 143 /*!< CONN.MLB.CLK, AUD.SAI3.RXFS, LSIO.GPIO3.IO27 */
+#define SC_P_MLB_DATA 144 /*!< CONN.MLB.DATA, AUD.SAI3.RXD, LSIO.GPIO3.IO28 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_GPIOLHT 145 /*!< */
+#define SC_P_FLEXCAN0_RX 146 /*!< DMA.FLEXCAN0.RX, LSIO.GPIO3.IO29 */
+#define SC_P_FLEXCAN0_TX 147 /*!< DMA.FLEXCAN0.TX, LSIO.GPIO3.IO30 */
+#define SC_P_FLEXCAN1_RX 148 /*!< DMA.FLEXCAN1.RX, LSIO.GPIO3.IO31 */
+#define SC_P_FLEXCAN1_TX 149 /*!< DMA.FLEXCAN1.TX, LSIO.GPIO4.IO00 */
+#define SC_P_FLEXCAN2_RX 150 /*!< DMA.FLEXCAN2.RX, LSIO.GPIO4.IO01 */
+#define SC_P_FLEXCAN2_TX 151 /*!< DMA.FLEXCAN2.TX, LSIO.GPIO4.IO02 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_GPIOTHR 152 /*!< */
+#define SC_P_USB_SS3_TC0 153 /*!< DMA.I2C1.SCL, CONN.USB_OTG1.PWR, LSIO.GPIO4.IO03 */
+#define SC_P_USB_SS3_TC1 154 /*!< DMA.I2C1.SCL, CONN.USB_OTG2.PWR, LSIO.GPIO4.IO04 */
+#define SC_P_USB_SS3_TC2 155 /*!< DMA.I2C1.SDA, CONN.USB_OTG1.OC, LSIO.GPIO4.IO05 */
+#define SC_P_USB_SS3_TC3 156 /*!< DMA.I2C1.SDA, CONN.USB_OTG2.OC, LSIO.GPIO4.IO06 */
+#define SC_P_COMP_CTL_GPIO_3V3_USB3IO 157 /*!< */
+#define SC_P_USDHC1_RESET_B 158 /*!< CONN.USDHC1.RESET_B, LSIO.GPIO4.IO07 */
+#define SC_P_USDHC1_VSELECT 159 /*!< CONN.USDHC1.VSELECT, LSIO.GPIO4.IO08 */
+#define SC_P_USDHC2_RESET_B 160 /*!< CONN.USDHC2.RESET_B, LSIO.GPIO4.IO09 */
+#define SC_P_USDHC2_VSELECT 161 /*!< CONN.USDHC2.VSELECT, LSIO.GPIO4.IO10 */
+#define SC_P_USDHC2_WP 162 /*!< CONN.USDHC2.WP, LSIO.GPIO4.IO11 */
+#define SC_P_USDHC2_CD_B 163 /*!< CONN.USDHC2.CD_B, LSIO.GPIO4.IO12 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_VSELSEP 164 /*!< */
+#define SC_P_ENET0_MDIO 165 /*!< CONN.ENET0.MDIO, DMA.I2C4.SDA, LSIO.GPIO4.IO13 */
+#define SC_P_ENET0_MDC 166 /*!< CONN.ENET0.MDC, DMA.I2C4.SCL, LSIO.GPIO4.IO14 */
+#define SC_P_ENET0_REFCLK_125M_25M 167 /*!< CONN.ENET0.REFCLK_125M_25M, CONN.ENET0.PPS, LSIO.GPIO4.IO15 */
+#define SC_P_ENET1_REFCLK_125M_25M 168 /*!< CONN.ENET1.REFCLK_125M_25M, CONN.ENET1.PPS, LSIO.GPIO4.IO16 */
+#define SC_P_ENET1_MDIO 169 /*!< CONN.ENET1.MDIO, DMA.I2C4.SDA, LSIO.GPIO4.IO17 */
+#define SC_P_ENET1_MDC 170 /*!< CONN.ENET1.MDC, DMA.I2C4.SCL, LSIO.GPIO4.IO18 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_GPIOCT 171 /*!< */
+#define SC_P_QSPI1A_SS0_B 172 /*!< LSIO.QSPI1A.SS0_B, LSIO.GPIO4.IO19 */
+#define SC_P_QSPI1A_SS1_B 173 /*!< LSIO.QSPI1A.SS1_B, LSIO.QSPI1A.SCLK2, LSIO.GPIO4.IO20 */
+#define SC_P_QSPI1A_SCLK 174 /*!< LSIO.QSPI1A.SCLK, LSIO.GPIO4.IO21 */
+#define SC_P_QSPI1A_DQS 175 /*!< LSIO.QSPI1A.DQS, LSIO.GPIO4.IO22 */
+#define SC_P_QSPI1A_DATA3 176 /*!< LSIO.QSPI1A.DATA3, DMA.I2C1.SDA, CONN.USB_OTG1.OC, LSIO.GPIO4.IO23 */
+#define SC_P_QSPI1A_DATA2 177 /*!< LSIO.QSPI1A.DATA2, DMA.I2C1.SCL, CONN.USB_OTG2.PWR, LSIO.GPIO4.IO24 */
+#define SC_P_QSPI1A_DATA1 178 /*!< LSIO.QSPI1A.DATA1, DMA.I2C1.SDA, CONN.USB_OTG2.OC, LSIO.GPIO4.IO25 */
+#define SC_P_QSPI1A_DATA0 179 /*!< LSIO.QSPI1A.DATA0, LSIO.GPIO4.IO26 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_QSPI1 180 /*!< */
+#define SC_P_QSPI0A_DATA0 181 /*!< LSIO.QSPI0A.DATA0 */
+#define SC_P_QSPI0A_DATA1 182 /*!< LSIO.QSPI0A.DATA1 */
+#define SC_P_QSPI0A_DATA2 183 /*!< LSIO.QSPI0A.DATA2 */
+#define SC_P_QSPI0A_DATA3 184 /*!< LSIO.QSPI0A.DATA3 */
+#define SC_P_QSPI0A_DQS 185 /*!< LSIO.QSPI0A.DQS */
+#define SC_P_QSPI0A_SS0_B 186 /*!< LSIO.QSPI0A.SS0_B */
+#define SC_P_QSPI0A_SS1_B 187 /*!< LSIO.QSPI0A.SS1_B, LSIO.QSPI0A.SCLK2 */
+#define SC_P_QSPI0A_SCLK 188 /*!< LSIO.QSPI0A.SCLK */
+#define SC_P_QSPI0B_SCLK 189 /*!< LSIO.QSPI0B.SCLK */
+#define SC_P_QSPI0B_DATA0 190 /*!< LSIO.QSPI0B.DATA0 */
+#define SC_P_QSPI0B_DATA1 191 /*!< LSIO.QSPI0B.DATA1 */
+#define SC_P_QSPI0B_DATA2 192 /*!< LSIO.QSPI0B.DATA2 */
+#define SC_P_QSPI0B_DATA3 193 /*!< LSIO.QSPI0B.DATA3 */
+#define SC_P_QSPI0B_DQS 194 /*!< LSIO.QSPI0B.DQS */
+#define SC_P_QSPI0B_SS0_B 195 /*!< LSIO.QSPI0B.SS0_B */
+#define SC_P_QSPI0B_SS1_B 196 /*!< LSIO.QSPI0B.SS1_B, LSIO.QSPI0B.SCLK2 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_QSPI0 197 /*!< */
+#define SC_P_PCIE_CTRL0_CLKREQ_B 198 /*!< HSIO.PCIE0.CLKREQ_B, LSIO.GPIO4.IO27 */
+#define SC_P_PCIE_CTRL0_WAKE_B 199 /*!< HSIO.PCIE0.WAKE_B, LSIO.GPIO4.IO28 */
+#define SC_P_PCIE_CTRL0_PERST_B 200 /*!< HSIO.PCIE0.PERST_B, LSIO.GPIO4.IO29 */
+#define SC_P_PCIE_CTRL1_CLKREQ_B 201 /*!< HSIO.PCIE1.CLKREQ_B, DMA.I2C1.SDA, CONN.USB_OTG2.OC, LSIO.GPIO4.IO30 */
+#define SC_P_PCIE_CTRL1_WAKE_B 202 /*!< HSIO.PCIE1.WAKE_B, DMA.I2C1.SCL, CONN.USB_OTG2.PWR, LSIO.GPIO4.IO31 */
+#define SC_P_PCIE_CTRL1_PERST_B 203 /*!< HSIO.PCIE1.PERST_B, DMA.I2C1.SCL, CONN.USB_OTG1.PWR, LSIO.GPIO5.IO00 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_PCIESEP 204 /*!< */
+#define SC_P_USB_HSIC0_DATA 205 /*!< CONN.USB_HSIC0.DATA, DMA.I2C1.SDA, LSIO.GPIO5.IO01 */
+#define SC_P_USB_HSIC0_STROBE 206 /*!< CONN.USB_HSIC0.STROBE, DMA.I2C1.SCL, LSIO.GPIO5.IO02 */
+#define SC_P_CALIBRATION_0_HSIC 207 /*!< */
+#define SC_P_CALIBRATION_1_HSIC 208 /*!< */
+#define SC_P_EMMC0_CLK 209 /*!< CONN.EMMC0.CLK, CONN.NAND.READY_B */
+#define SC_P_EMMC0_CMD 210 /*!< CONN.EMMC0.CMD, CONN.NAND.DQS, AUD.MQS.R, LSIO.GPIO5.IO03 */
+#define SC_P_EMMC0_DATA0 211 /*!< CONN.EMMC0.DATA0, CONN.NAND.DATA00, LSIO.GPIO5.IO04 */
+#define SC_P_EMMC0_DATA1 212 /*!< CONN.EMMC0.DATA1, CONN.NAND.DATA01, LSIO.GPIO5.IO05 */
+#define SC_P_EMMC0_DATA2 213 /*!< CONN.EMMC0.DATA2, CONN.NAND.DATA02, LSIO.GPIO5.IO06 */
+#define SC_P_EMMC0_DATA3 214 /*!< CONN.EMMC0.DATA3, CONN.NAND.DATA03, LSIO.GPIO5.IO07 */
+#define SC_P_EMMC0_DATA4 215 /*!< CONN.EMMC0.DATA4, CONN.NAND.DATA04, LSIO.GPIO5.IO08 */
+#define SC_P_EMMC0_DATA5 216 /*!< CONN.EMMC0.DATA5, CONN.NAND.DATA05, LSIO.GPIO5.IO09 */
+#define SC_P_EMMC0_DATA6 217 /*!< CONN.EMMC0.DATA6, CONN.NAND.DATA06, LSIO.GPIO5.IO10 */
+#define SC_P_EMMC0_DATA7 218 /*!< CONN.EMMC0.DATA7, CONN.NAND.DATA07, LSIO.GPIO5.IO11 */
+#define SC_P_EMMC0_STROBE 219 /*!< CONN.EMMC0.STROBE, CONN.NAND.CLE, LSIO.GPIO5.IO12 */
+#define SC_P_EMMC0_RESET_B 220 /*!< CONN.EMMC0.RESET_B, CONN.NAND.WP_B, CONN.USDHC1.VSELECT, LSIO.GPIO5.IO13 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_SD1FIX 221 /*!< */
+#define SC_P_USDHC1_CLK 222 /*!< CONN.USDHC1.CLK, AUD.MQS.R */
+#define SC_P_USDHC1_CMD 223 /*!< CONN.USDHC1.CMD, AUD.MQS.L, LSIO.GPIO5.IO14 */
+#define SC_P_USDHC1_DATA0 224 /*!< CONN.USDHC1.DATA0, CONN.NAND.RE_N, LSIO.GPIO5.IO15 */
+#define SC_P_USDHC1_DATA1 225 /*!< CONN.USDHC1.DATA1, CONN.NAND.RE_P, LSIO.GPIO5.IO16 */
+#define SC_P_CTL_NAND_RE_P_N 226 /*!< */
+#define SC_P_USDHC1_DATA2 227 /*!< CONN.USDHC1.DATA2, CONN.NAND.DQS_N, LSIO.GPIO5.IO17 */
+#define SC_P_USDHC1_DATA3 228 /*!< CONN.USDHC1.DATA3, CONN.NAND.DQS_P, LSIO.GPIO5.IO18 */
+#define SC_P_CTL_NAND_DQS_P_N 229 /*!< */
+#define SC_P_USDHC1_DATA4 230 /*!< CONN.USDHC1.DATA4, CONN.NAND.CE0_B, AUD.MQS.R, LSIO.GPIO5.IO19 */
+#define SC_P_USDHC1_DATA5 231 /*!< CONN.USDHC1.DATA5, CONN.NAND.RE_B, AUD.MQS.L, LSIO.GPIO5.IO20 */
+#define SC_P_USDHC1_DATA6 232 /*!< CONN.USDHC1.DATA6, CONN.NAND.WE_B, CONN.USDHC1.WP, LSIO.GPIO5.IO21 */
+#define SC_P_USDHC1_DATA7 233 /*!< CONN.USDHC1.DATA7, CONN.NAND.ALE, CONN.USDHC1.CD_B, LSIO.GPIO5.IO22 */
+#define SC_P_USDHC1_STROBE 234 /*!< CONN.USDHC1.STROBE, CONN.NAND.CE1_B, CONN.USDHC1.RESET_B, LSIO.GPIO5.IO23 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_VSEL2 235 /*!< */
+#define SC_P_USDHC2_CLK 236 /*!< CONN.USDHC2.CLK, AUD.MQS.R, LSIO.GPIO5.IO24 */
+#define SC_P_USDHC2_CMD 237 /*!< CONN.USDHC2.CMD, AUD.MQS.L, LSIO.GPIO5.IO25 */
+#define SC_P_USDHC2_DATA0 238 /*!< CONN.USDHC2.DATA0, DMA.UART4.RX, LSIO.GPIO5.IO26 */
+#define SC_P_USDHC2_DATA1 239 /*!< CONN.USDHC2.DATA1, DMA.UART4.TX, LSIO.GPIO5.IO27 */
+#define SC_P_USDHC2_DATA2 240 /*!< CONN.USDHC2.DATA2, DMA.UART4.CTS_B, LSIO.GPIO5.IO28 */
+#define SC_P_USDHC2_DATA3 241 /*!< CONN.USDHC2.DATA3, DMA.UART4.RTS_B, LSIO.GPIO5.IO29 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_VSEL3 242 /*!< */
+#define SC_P_ENET0_RGMII_TXC 243 /*!< CONN.ENET0.RGMII_TXC, CONN.ENET0.RCLK50M_OUT, CONN.ENET0.RCLK50M_IN, LSIO.GPIO5.IO30 */
+#define SC_P_ENET0_RGMII_TX_CTL 244 /*!< CONN.ENET0.RGMII_TX_CTL, LSIO.GPIO5.IO31 */
+#define SC_P_ENET0_RGMII_TXD0 245 /*!< CONN.ENET0.RGMII_TXD0, LSIO.GPIO6.IO00 */
+#define SC_P_ENET0_RGMII_TXD1 246 /*!< CONN.ENET0.RGMII_TXD1, LSIO.GPIO6.IO01 */
+#define SC_P_ENET0_RGMII_TXD2 247 /*!< CONN.ENET0.RGMII_TXD2, DMA.UART3.TX, VPU.TSI_S1.VID, LSIO.GPIO6.IO02 */
+#define SC_P_ENET0_RGMII_TXD3 248 /*!< CONN.ENET0.RGMII_TXD3, DMA.UART3.RTS_B, VPU.TSI_S1.SYNC, LSIO.GPIO6.IO03 */
+#define SC_P_ENET0_RGMII_RXC 249 /*!< CONN.ENET0.RGMII_RXC, DMA.UART3.CTS_B, VPU.TSI_S1.DATA, LSIO.GPIO6.IO04 */
+#define SC_P_ENET0_RGMII_RX_CTL 250 /*!< CONN.ENET0.RGMII_RX_CTL, VPU.TSI_S0.VID, LSIO.GPIO6.IO05 */
+#define SC_P_ENET0_RGMII_RXD0 251 /*!< CONN.ENET0.RGMII_RXD0, VPU.TSI_S0.SYNC, LSIO.GPIO6.IO06 */
+#define SC_P_ENET0_RGMII_RXD1 252 /*!< CONN.ENET0.RGMII_RXD1, VPU.TSI_S0.DATA, LSIO.GPIO6.IO07 */
+#define SC_P_ENET0_RGMII_RXD2 253 /*!< CONN.ENET0.RGMII_RXD2, CONN.ENET0.RMII_RX_ER, VPU.TSI_S0.CLK, LSIO.GPIO6.IO08 */
+#define SC_P_ENET0_RGMII_RXD3 254 /*!< CONN.ENET0.RGMII_RXD3, DMA.UART3.RX, VPU.TSI_S1.CLK, LSIO.GPIO6.IO09 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_ENET_ENETB 255 /*!< */
+#define SC_P_ENET1_RGMII_TXC 256 /*!< CONN.ENET1.RGMII_TXC, CONN.ENET1.RCLK50M_OUT, CONN.ENET1.RCLK50M_IN, LSIO.GPIO6.IO10 */
+#define SC_P_ENET1_RGMII_TX_CTL 257 /*!< CONN.ENET1.RGMII_TX_CTL, LSIO.GPIO6.IO11 */
+#define SC_P_ENET1_RGMII_TXD0 258 /*!< CONN.ENET1.RGMII_TXD0, LSIO.GPIO6.IO12 */
+#define SC_P_ENET1_RGMII_TXD1 259 /*!< CONN.ENET1.RGMII_TXD1, LSIO.GPIO6.IO13 */
+#define SC_P_ENET1_RGMII_TXD2 260 /*!< CONN.ENET1.RGMII_TXD2, DMA.UART3.TX, VPU.TSI_S1.VID, LSIO.GPIO6.IO14 */
+#define SC_P_ENET1_RGMII_TXD3 261 /*!< CONN.ENET1.RGMII_TXD3, DMA.UART3.RTS_B, VPU.TSI_S1.SYNC, LSIO.GPIO6.IO15 */
+#define SC_P_ENET1_RGMII_RXC 262 /*!< CONN.ENET1.RGMII_RXC, DMA.UART3.CTS_B, VPU.TSI_S1.DATA, LSIO.GPIO6.IO16 */
+#define SC_P_ENET1_RGMII_RX_CTL 263 /*!< CONN.ENET1.RGMII_RX_CTL, VPU.TSI_S0.VID, LSIO.GPIO6.IO17 */
+#define SC_P_ENET1_RGMII_RXD0 264 /*!< CONN.ENET1.RGMII_RXD0, VPU.TSI_S0.SYNC, LSIO.GPIO6.IO18 */
+#define SC_P_ENET1_RGMII_RXD1 265 /*!< CONN.ENET1.RGMII_RXD1, VPU.TSI_S0.DATA, LSIO.GPIO6.IO19 */
+#define SC_P_ENET1_RGMII_RXD2 266 /*!< CONN.ENET1.RGMII_RXD2, CONN.ENET1.RMII_RX_ER, VPU.TSI_S0.CLK, LSIO.GPIO6.IO20 */
+#define SC_P_ENET1_RGMII_RXD3 267 /*!< CONN.ENET1.RGMII_RXD3, DMA.UART3.RX, VPU.TSI_S1.CLK, LSIO.GPIO6.IO21 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_ENET_ENETA 268 /*!< */
+/*@}*/
+
+#endif /* SC_PADS_H */
+
diff --git a/arch/arm/include/asm/arch-imx8/imx8qxp_pads.h b/arch/arm/include/asm/arch-imx8/imx8qxp_pads.h
new file mode 100644
index 0000000000..8db40c549a
--- /dev/null
+++ b/arch/arm/include/asm/arch-imx8/imx8qxp_pads.h
@@ -0,0 +1,200 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file used to configure SoC pad list.
+ */
+
+#ifndef SC_PADS_H
+#define SC_PADS_H
+
+/* Includes */
+
+/* Defines */
+
+/*!
+ * @name Pad Definitions
+ */
+/*@{*/
+#define SC_P_PCIE_CTRL0_PERST_B 0 /*!< HSIO.PCIE0.PERST_B, LSIO.GPIO4.IO00 */
+#define SC_P_PCIE_CTRL0_CLKREQ_B 1 /*!< HSIO.PCIE0.CLKREQ_B, LSIO.GPIO4.IO01 */
+#define SC_P_PCIE_CTRL0_WAKE_B 2 /*!< HSIO.PCIE0.WAKE_B, LSIO.GPIO4.IO02 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_PCIESEP 3 /*!< */
+#define SC_P_USB_SS3_TC0 4 /*!< ADMA.I2C1.SCL, CONN.USB_OTG1.PWR, CONN.USB_OTG2.PWR, LSIO.GPIO4.IO03 */
+#define SC_P_USB_SS3_TC1 5 /*!< ADMA.I2C1.SCL, CONN.USB_OTG2.PWR, LSIO.GPIO4.IO04 */
+#define SC_P_USB_SS3_TC2 6 /*!< ADMA.I2C1.SDA, CONN.USB_OTG1.OC, CONN.USB_OTG2.OC, LSIO.GPIO4.IO05 */
+#define SC_P_USB_SS3_TC3 7 /*!< ADMA.I2C1.SDA, CONN.USB_OTG2.OC, LSIO.GPIO4.IO06 */
+#define SC_P_COMP_CTL_GPIO_3V3_USB3IO 8 /*!< */
+#define SC_P_EMMC0_CLK 9 /*!< CONN.EMMC0.CLK, CONN.NAND.READY_B, LSIO.GPIO4.IO07 */
+#define SC_P_EMMC0_CMD 10 /*!< CONN.EMMC0.CMD, CONN.NAND.DQS, LSIO.GPIO4.IO08 */
+#define SC_P_EMMC0_DATA0 11 /*!< CONN.EMMC0.DATA0, CONN.NAND.DATA00, LSIO.GPIO4.IO09 */
+#define SC_P_EMMC0_DATA1 12 /*!< CONN.EMMC0.DATA1, CONN.NAND.DATA01, LSIO.GPIO4.IO10 */
+#define SC_P_EMMC0_DATA2 13 /*!< CONN.EMMC0.DATA2, CONN.NAND.DATA02, LSIO.GPIO4.IO11 */
+#define SC_P_EMMC0_DATA3 14 /*!< CONN.EMMC0.DATA3, CONN.NAND.DATA03, LSIO.GPIO4.IO12 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_SD1FIX0 15 /*!< */
+#define SC_P_EMMC0_DATA4 16 /*!< CONN.EMMC0.DATA4, CONN.NAND.DATA04, CONN.EMMC0.WP, LSIO.GPIO4.IO13 */
+#define SC_P_EMMC0_DATA5 17 /*!< CONN.EMMC0.DATA5, CONN.NAND.DATA05, CONN.EMMC0.VSELECT, LSIO.GPIO4.IO14 */
+#define SC_P_EMMC0_DATA6 18 /*!< CONN.EMMC0.DATA6, CONN.NAND.DATA06, CONN.MLB.CLK, LSIO.GPIO4.IO15 */
+#define SC_P_EMMC0_DATA7 19 /*!< CONN.EMMC0.DATA7, CONN.NAND.DATA07, CONN.MLB.SIG, LSIO.GPIO4.IO16 */
+#define SC_P_EMMC0_STROBE 20 /*!< CONN.EMMC0.STROBE, CONN.NAND.CLE, CONN.MLB.DATA, LSIO.GPIO4.IO17 */
+#define SC_P_EMMC0_RESET_B 21 /*!< CONN.EMMC0.RESET_B, CONN.NAND.WP_B, LSIO.GPIO4.IO18 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_SD1FIX1 22 /*!< */
+#define SC_P_USDHC1_RESET_B 23 /*!< CONN.USDHC1.RESET_B, CONN.NAND.RE_N, ADMA.SPI2.SCK, LSIO.GPIO4.IO19 */
+#define SC_P_USDHC1_VSELECT 24 /*!< CONN.USDHC1.VSELECT, CONN.NAND.RE_P, ADMA.SPI2.SDO, CONN.NAND.RE_B, LSIO.GPIO4.IO20 */
+#define SC_P_CTL_NAND_RE_P_N 25 /*!< */
+#define SC_P_USDHC1_WP 26 /*!< CONN.USDHC1.WP, CONN.NAND.DQS_N, ADMA.SPI2.SDI, LSIO.GPIO4.IO21 */
+#define SC_P_USDHC1_CD_B 27 /*!< CONN.USDHC1.CD_B, CONN.NAND.DQS_P, ADMA.SPI2.CS0, CONN.NAND.DQS, LSIO.GPIO4.IO22 */
+#define SC_P_CTL_NAND_DQS_P_N 28 /*!< */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_VSELSEP 29 /*!< */
+#define SC_P_USDHC1_CLK 30 /*!< CONN.USDHC1.CLK, ADMA.UART3.RX, LSIO.GPIO4.IO23 */
+#define SC_P_USDHC1_CMD 31 /*!< CONN.USDHC1.CMD, CONN.NAND.CE0_B, ADMA.MQS.R, LSIO.GPIO4.IO24 */
+#define SC_P_USDHC1_DATA0 32 /*!< CONN.USDHC1.DATA0, CONN.NAND.CE1_B, ADMA.MQS.L, LSIO.GPIO4.IO25 */
+#define SC_P_USDHC1_DATA1 33 /*!< CONN.USDHC1.DATA1, CONN.NAND.RE_B, ADMA.UART3.TX, LSIO.GPIO4.IO26 */
+#define SC_P_USDHC1_DATA2 34 /*!< CONN.USDHC1.DATA2, CONN.NAND.WE_B, ADMA.UART3.CTS_B, LSIO.GPIO4.IO27 */
+#define SC_P_USDHC1_DATA3 35 /*!< CONN.USDHC1.DATA3, CONN.NAND.ALE, ADMA.UART3.RTS_B, LSIO.GPIO4.IO28 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_VSEL3 36 /*!< */
+#define SC_P_ENET0_RGMII_TXC 37 /*!< CONN.ENET0.RGMII_TXC, CONN.ENET0.RCLK50M_OUT, CONN.ENET0.RCLK50M_IN, CONN.NAND.CE1_B, LSIO.GPIO4.IO29 */
+#define SC_P_ENET0_RGMII_TX_CTL 38 /*!< CONN.ENET0.RGMII_TX_CTL, CONN.USDHC1.RESET_B, LSIO.GPIO4.IO30 */
+#define SC_P_ENET0_RGMII_TXD0 39 /*!< CONN.ENET0.RGMII_TXD0, CONN.USDHC1.VSELECT, LSIO.GPIO4.IO31 */
+#define SC_P_ENET0_RGMII_TXD1 40 /*!< CONN.ENET0.RGMII_TXD1, CONN.USDHC1.WP, LSIO.GPIO5.IO00 */
+#define SC_P_ENET0_RGMII_TXD2 41 /*!< CONN.ENET0.RGMII_TXD2, CONN.MLB.CLK, CONN.NAND.CE0_B, CONN.USDHC1.CD_B, LSIO.GPIO5.IO01 */
+#define SC_P_ENET0_RGMII_TXD3 42 /*!< CONN.ENET0.RGMII_TXD3, CONN.MLB.SIG, CONN.NAND.RE_B, LSIO.GPIO5.IO02 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_ENET_ENETB0 43 /*!< */
+#define SC_P_ENET0_RGMII_RXC 44 /*!< CONN.ENET0.RGMII_RXC, CONN.MLB.DATA, CONN.NAND.WE_B, CONN.USDHC1.CLK, LSIO.GPIO5.IO03 */
+#define SC_P_ENET0_RGMII_RX_CTL 45 /*!< CONN.ENET0.RGMII_RX_CTL, CONN.USDHC1.CMD, LSIO.GPIO5.IO04 */
+#define SC_P_ENET0_RGMII_RXD0 46 /*!< CONN.ENET0.RGMII_RXD0, CONN.USDHC1.DATA0, LSIO.GPIO5.IO05 */
+#define SC_P_ENET0_RGMII_RXD1 47 /*!< CONN.ENET0.RGMII_RXD1, CONN.USDHC1.DATA1, LSIO.GPIO5.IO06 */
+#define SC_P_ENET0_RGMII_RXD2 48 /*!< CONN.ENET0.RGMII_RXD2, CONN.ENET0.RMII_RX_ER, CONN.USDHC1.DATA2, LSIO.GPIO5.IO07 */
+#define SC_P_ENET0_RGMII_RXD3 49 /*!< CONN.ENET0.RGMII_RXD3, CONN.NAND.ALE, CONN.USDHC1.DATA3, LSIO.GPIO5.IO08 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_ENET_ENETB1 50 /*!< */
+#define SC_P_ENET0_REFCLK_125M_25M 51 /*!< CONN.ENET0.REFCLK_125M_25M, CONN.ENET0.PPS, CONN.ENET1.PPS, LSIO.GPIO5.IO09 */
+#define SC_P_ENET0_MDIO 52 /*!< CONN.ENET0.MDIO, ADMA.I2C3.SDA, CONN.ENET1.MDIO, LSIO.GPIO5.IO10 */
+#define SC_P_ENET0_MDC 53 /*!< CONN.ENET0.MDC, ADMA.I2C3.SCL, CONN.ENET1.MDC, LSIO.GPIO5.IO11 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_GPIOCT 54 /*!< */
+#define SC_P_ESAI0_FSR 55 /*!< ADMA.ESAI0.FSR, CONN.ENET1.RCLK50M_OUT, ADMA.LCDIF.D00, CONN.ENET1.RGMII_TXC, CONN.ENET1.RCLK50M_IN */
+#define SC_P_ESAI0_FST 56 /*!< ADMA.ESAI0.FST, CONN.MLB.CLK, ADMA.LCDIF.D01, CONN.ENET1.RGMII_TXD2, LSIO.GPIO0.IO01 */
+#define SC_P_ESAI0_SCKR 57 /*!< ADMA.ESAI0.SCKR, ADMA.LCDIF.D02, CONN.ENET1.RGMII_TX_CTL, LSIO.GPIO0.IO02 */
+#define SC_P_ESAI0_SCKT 58 /*!< ADMA.ESAI0.SCKT, CONN.MLB.SIG, ADMA.LCDIF.D03, CONN.ENET1.RGMII_TXD3, LSIO.GPIO0.IO03 */
+#define SC_P_ESAI0_TX0 59 /*!< ADMA.ESAI0.TX0, CONN.MLB.DATA, ADMA.LCDIF.D04, CONN.ENET1.RGMII_RXC, LSIO.GPIO0.IO04 */
+#define SC_P_ESAI0_TX1 60 /*!< ADMA.ESAI0.TX1, ADMA.LCDIF.D05, CONN.ENET1.RGMII_RXD3, LSIO.GPIO0.IO05 */
+#define SC_P_ESAI0_TX2_RX3 61 /*!< ADMA.ESAI0.TX2_RX3, CONN.ENET1.RMII_RX_ER, ADMA.LCDIF.D06, CONN.ENET1.RGMII_RXD2, LSIO.GPIO0.IO06 */
+#define SC_P_ESAI0_TX3_RX2 62 /*!< ADMA.ESAI0.TX3_RX2, ADMA.LCDIF.D07, CONN.ENET1.RGMII_RXD1, LSIO.GPIO0.IO07 */
+#define SC_P_ESAI0_TX4_RX1 63 /*!< ADMA.ESAI0.TX4_RX1, ADMA.LCDIF.D08, CONN.ENET1.RGMII_TXD0, LSIO.GPIO0.IO08 */
+#define SC_P_ESAI0_TX5_RX0 64 /*!< ADMA.ESAI0.TX5_RX0, ADMA.LCDIF.D09, CONN.ENET1.RGMII_TXD1, LSIO.GPIO0.IO09 */
+#define SC_P_SPDIF0_RX 65 /*!< ADMA.SPDIF0.RX, ADMA.MQS.R, ADMA.LCDIF.D10, CONN.ENET1.RGMII_RXD0, LSIO.GPIO0.IO10 */
+#define SC_P_SPDIF0_TX 66 /*!< ADMA.SPDIF0.TX, ADMA.MQS.L, ADMA.LCDIF.D11, CONN.ENET1.RGMII_RX_CTL, LSIO.GPIO0.IO11 */
+#define SC_P_SPDIF0_EXT_CLK 67 /*!< ADMA.SPDIF0.EXT_CLK, ADMA.LCDIF.D12, CONN.ENET1.REFCLK_125M_25M, LSIO.GPIO0.IO12 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_GPIORHB 68 /*!< */
+#define SC_P_SPI3_SCK 69 /*!< ADMA.SPI3.SCK, ADMA.LCDIF.D13, LSIO.GPIO0.IO13 */
+#define SC_P_SPI3_SDO 70 /*!< ADMA.SPI3.SDO, ADMA.LCDIF.D14, LSIO.GPIO0.IO14 */
+#define SC_P_SPI3_SDI 71 /*!< ADMA.SPI3.SDI, ADMA.LCDIF.D15, LSIO.GPIO0.IO15 */
+#define SC_P_SPI3_CS0 72 /*!< ADMA.SPI3.CS0, ADMA.ACM.MCLK_OUT1, ADMA.LCDIF.HSYNC, LSIO.GPIO0.IO16 */
+#define SC_P_SPI3_CS1 73 /*!< ADMA.SPI3.CS1, ADMA.I2C3.SCL, ADMA.LCDIF.RESET, ADMA.SPI2.CS0, ADMA.LCDIF.D16 */
+#define SC_P_MCLK_IN1 74 /*!< ADMA.ACM.MCLK_IN1, ADMA.I2C3.SDA, ADMA.LCDIF.EN, ADMA.SPI2.SCK, ADMA.LCDIF.D17 */
+#define SC_P_MCLK_IN0 75 /*!< ADMA.ACM.MCLK_IN0, ADMA.ESAI0.RX_HF_CLK, ADMA.LCDIF.VSYNC, ADMA.SPI2.SDI, LSIO.GPIO0.IO19 */
+#define SC_P_MCLK_OUT0 76 /*!< ADMA.ACM.MCLK_OUT0, ADMA.ESAI0.TX_HF_CLK, ADMA.LCDIF.CLK, ADMA.SPI2.SDO, LSIO.GPIO0.IO20 */
+#define SC_P_UART1_TX 77 /*!< ADMA.UART1.TX, LSIO.PWM0.OUT, LSIO.GPT0.CAPTURE, LSIO.GPIO0.IO21 */
+#define SC_P_UART1_RX 78 /*!< ADMA.UART1.RX, LSIO.PWM1.OUT, LSIO.GPT0.COMPARE, LSIO.GPT1.CLK, LSIO.GPIO0.IO22 */
+#define SC_P_UART1_RTS_B 79 /*!< ADMA.UART1.RTS_B, LSIO.PWM2.OUT, ADMA.LCDIF.D16, LSIO.GPT1.CAPTURE, LSIO.GPT0.CLK */
+#define SC_P_UART1_CTS_B 80 /*!< ADMA.UART1.CTS_B, LSIO.PWM3.OUT, ADMA.LCDIF.D17, LSIO.GPT1.COMPARE, LSIO.GPIO0.IO24 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_GPIORHK 81 /*!< */
+#define SC_P_SAI0_TXD 82 /*!< ADMA.SAI0.TXD, ADMA.SAI1.RXC, ADMA.SPI1.SDO, ADMA.LCDIF.D18, LSIO.GPIO0.IO25 */
+#define SC_P_SAI0_TXC 83 /*!< ADMA.SAI0.TXC, ADMA.SAI1.TXD, ADMA.SPI1.SDI, ADMA.LCDIF.D19, LSIO.GPIO0.IO26 */
+#define SC_P_SAI0_RXD 84 /*!< ADMA.SAI0.RXD, ADMA.SAI1.RXFS, ADMA.SPI1.CS0, ADMA.LCDIF.D20, LSIO.GPIO0.IO27 */
+#define SC_P_SAI0_TXFS 85 /*!< ADMA.SAI0.TXFS, ADMA.SPI2.CS1, ADMA.SPI1.SCK, LSIO.GPIO0.IO28 */
+#define SC_P_SAI1_RXD 86 /*!< ADMA.SAI1.RXD, ADMA.SAI0.RXFS, ADMA.SPI1.CS1, ADMA.LCDIF.D21, LSIO.GPIO0.IO29 */
+#define SC_P_SAI1_RXC 87 /*!< ADMA.SAI1.RXC, ADMA.SAI1.TXC, ADMA.LCDIF.D22, LSIO.GPIO0.IO30 */
+#define SC_P_SAI1_RXFS 88 /*!< ADMA.SAI1.RXFS, ADMA.SAI1.TXFS, ADMA.LCDIF.D23, LSIO.GPIO0.IO31 */
+#define SC_P_SPI2_CS0 89 /*!< ADMA.SPI2.CS0, LSIO.GPIO1.IO00 */
+#define SC_P_SPI2_SDO 90 /*!< ADMA.SPI2.SDO, LSIO.GPIO1.IO01 */
+#define SC_P_SPI2_SDI 91 /*!< ADMA.SPI2.SDI, LSIO.GPIO1.IO02 */
+#define SC_P_SPI2_SCK 92 /*!< ADMA.SPI2.SCK, LSIO.GPIO1.IO03 */
+#define SC_P_SPI0_SCK 93 /*!< ADMA.SPI0.SCK, ADMA.SAI0.TXC, M40.I2C0.SCL, M40.GPIO0.IO00, LSIO.GPIO1.IO04 */
+#define SC_P_SPI0_SDI 94 /*!< ADMA.SPI0.SDI, ADMA.SAI0.TXD, M40.TPM0.CH0, M40.GPIO0.IO02, LSIO.GPIO1.IO05 */
+#define SC_P_SPI0_SDO 95 /*!< ADMA.SPI0.SDO, ADMA.SAI0.TXFS, M40.I2C0.SDA, M40.GPIO0.IO01, LSIO.GPIO1.IO06 */
+#define SC_P_SPI0_CS1 96 /*!< ADMA.SPI0.CS1, ADMA.SAI0.RXC, ADMA.SAI1.TXD, ADMA.LCD_PWM0.OUT, LSIO.GPIO1.IO07 */
+#define SC_P_SPI0_CS0 97 /*!< ADMA.SPI0.CS0, ADMA.SAI0.RXD, M40.TPM0.CH1, M40.GPIO0.IO03, LSIO.GPIO1.IO08 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_GPIORHT 98 /*!< */
+#define SC_P_ADC_IN1 99 /*!< ADMA.ADC.IN1, M40.I2C0.SDA, M40.GPIO0.IO01, LSIO.GPIO1.IO09 */
+#define SC_P_ADC_IN0 100 /*!< ADMA.ADC.IN0, M40.I2C0.SCL, M40.GPIO0.IO00, LSIO.GPIO1.IO10 */
+#define SC_P_ADC_IN3 101 /*!< ADMA.ADC.IN3, M40.UART0.TX, M40.GPIO0.IO03, ADMA.ACM.MCLK_OUT0, LSIO.GPIO1.IO11 */
+#define SC_P_ADC_IN2 102 /*!< ADMA.ADC.IN2, M40.UART0.RX, M40.GPIO0.IO02, ADMA.ACM.MCLK_IN0, LSIO.GPIO1.IO12 */
+#define SC_P_ADC_IN5 103 /*!< ADMA.ADC.IN5, M40.TPM0.CH1, M40.GPIO0.IO05, LSIO.GPIO1.IO13 */
+#define SC_P_ADC_IN4 104 /*!< ADMA.ADC.IN4, M40.TPM0.CH0, M40.GPIO0.IO04, LSIO.GPIO1.IO14 */
+#define SC_P_FLEXCAN0_RX 105 /*!< ADMA.FLEXCAN0.RX, ADMA.SAI2.RXC, ADMA.UART0.RTS_B, ADMA.SAI1.TXC, LSIO.GPIO1.IO15 */
+#define SC_P_FLEXCAN0_TX 106 /*!< ADMA.FLEXCAN0.TX, ADMA.SAI2.RXD, ADMA.UART0.CTS_B, ADMA.SAI1.TXFS, LSIO.GPIO1.IO16 */
+#define SC_P_FLEXCAN1_RX 107 /*!< ADMA.FLEXCAN1.RX, ADMA.SAI2.RXFS, ADMA.FTM.CH2, ADMA.SAI1.TXD, LSIO.GPIO1.IO17 */
+#define SC_P_FLEXCAN1_TX 108 /*!< ADMA.FLEXCAN1.TX, ADMA.SAI3.RXC, ADMA.DMA0.REQ_IN0, ADMA.SAI1.RXD, LSIO.GPIO1.IO18 */
+#define SC_P_FLEXCAN2_RX 109 /*!< ADMA.FLEXCAN2.RX, ADMA.SAI3.RXD, ADMA.UART3.RX, ADMA.SAI1.RXFS, LSIO.GPIO1.IO19 */
+#define SC_P_FLEXCAN2_TX 110 /*!< ADMA.FLEXCAN2.TX, ADMA.SAI3.RXFS, ADMA.UART3.TX, ADMA.SAI1.RXC, LSIO.GPIO1.IO20 */
+#define SC_P_UART0_RX 111 /*!< ADMA.UART0.RX, ADMA.MQS.R, ADMA.FLEXCAN0.RX, SCU.UART0.RX, LSIO.GPIO1.IO21 */
+#define SC_P_UART0_TX 112 /*!< ADMA.UART0.TX, ADMA.MQS.L, ADMA.FLEXCAN0.TX, SCU.UART0.TX, LSIO.GPIO1.IO22 */
+#define SC_P_UART2_TX 113 /*!< ADMA.UART2.TX, ADMA.FTM.CH1, ADMA.FLEXCAN1.TX, LSIO.GPIO1.IO23 */
+#define SC_P_UART2_RX 114 /*!< ADMA.UART2.RX, ADMA.FTM.CH0, ADMA.FLEXCAN1.RX, LSIO.GPIO1.IO24 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_GPIOLH 115 /*!< */
+#define SC_P_MIPI_DSI0_I2C0_SCL 116 /*!< MIPI_DSI0.I2C0.SCL, MIPI_DSI1.GPIO0.IO02, LSIO.GPIO1.IO25 */
+#define SC_P_MIPI_DSI0_I2C0_SDA 117 /*!< MIPI_DSI0.I2C0.SDA, MIPI_DSI1.GPIO0.IO03, LSIO.GPIO1.IO26 */
+#define SC_P_MIPI_DSI0_GPIO0_00 118 /*!< MIPI_DSI0.GPIO0.IO00, ADMA.I2C1.SCL, MIPI_DSI0.PWM0.OUT, LSIO.GPIO1.IO27 */
+#define SC_P_MIPI_DSI0_GPIO0_01 119 /*!< MIPI_DSI0.GPIO0.IO01, ADMA.I2C1.SDA, LSIO.GPIO1.IO28 */
+#define SC_P_MIPI_DSI1_I2C0_SCL 120 /*!< MIPI_DSI1.I2C0.SCL, MIPI_DSI0.GPIO0.IO02, LSIO.GPIO1.IO29 */
+#define SC_P_MIPI_DSI1_I2C0_SDA 121 /*!< MIPI_DSI1.I2C0.SDA, MIPI_DSI0.GPIO0.IO03, LSIO.GPIO1.IO30 */
+#define SC_P_MIPI_DSI1_GPIO0_00 122 /*!< MIPI_DSI1.GPIO0.IO00, ADMA.I2C2.SCL, MIPI_DSI1.PWM0.OUT, LSIO.GPIO1.IO31 */
+#define SC_P_MIPI_DSI1_GPIO0_01 123 /*!< MIPI_DSI1.GPIO0.IO01, ADMA.I2C2.SDA, LSIO.GPIO2.IO00 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_MIPIDSIGPIO 124 /*!< */
+#define SC_P_JTAG_TRST_B 125 /*!< SCU.JTAG.TRST_B, SCU.WDOG0.WDOG_OUT */
+#define SC_P_PMIC_I2C_SCL 126 /*!< SCU.PMIC_I2C.SCL, SCU.GPIO0.IOXX_PMIC_A35_ON, LSIO.GPIO2.IO01 */
+#define SC_P_PMIC_I2C_SDA 127 /*!< SCU.PMIC_I2C.SDA, SCU.GPIO0.IOXX_PMIC_GPU_ON, LSIO.GPIO2.IO02 */
+#define SC_P_PMIC_INT_B 128 /*!< SCU.DSC.PMIC_INT_B */
+#define SC_P_SCU_GPIO0_00 129 /*!< SCU.GPIO0.IO00, SCU.UART0.RX, M40.UART0.RX, ADMA.UART3.RX, LSIO.GPIO2.IO03 */
+#define SC_P_SCU_GPIO0_01 130 /*!< SCU.GPIO0.IO01, SCU.UART0.TX, M40.UART0.TX, ADMA.UART3.TX, SCU.WDOG0.WDOG_OUT */
+#define SC_P_SCU_PMIC_STANDBY 131 /*!< SCU.DSC.PMIC_STANDBY */
+#define SC_P_SCU_BOOT_MODE0 132 /*!< SCU.DSC.BOOT_MODE0 */
+#define SC_P_SCU_BOOT_MODE1 133 /*!< SCU.DSC.BOOT_MODE1 */
+#define SC_P_SCU_BOOT_MODE2 134 /*!< SCU.DSC.BOOT_MODE2, SCU.PMIC_I2C.SDA */
+#define SC_P_SCU_BOOT_MODE3 135 /*!< SCU.DSC.BOOT_MODE3, SCU.PMIC_I2C.SCL, SCU.DSC.RTC_CLOCK_OUTPUT_32K */
+#define SC_P_CSI_D00 136 /*!< CI_PI.D02, ADMA.SAI0.RXC */
+#define SC_P_CSI_D01 137 /*!< CI_PI.D03, ADMA.SAI0.RXD */
+#define SC_P_CSI_D02 138 /*!< CI_PI.D04, ADMA.SAI0.RXFS */
+#define SC_P_CSI_D03 139 /*!< CI_PI.D05, ADMA.SAI2.RXC */
+#define SC_P_CSI_D04 140 /*!< CI_PI.D06, ADMA.SAI2.RXD */
+#define SC_P_CSI_D05 141 /*!< CI_PI.D07, ADMA.SAI2.RXFS */
+#define SC_P_CSI_D06 142 /*!< CI_PI.D08, ADMA.SAI3.RXC */
+#define SC_P_CSI_D07 143 /*!< CI_PI.D09, ADMA.SAI3.RXD */
+#define SC_P_CSI_HSYNC 144 /*!< CI_PI.HSYNC, CI_PI.D00, ADMA.SAI3.RXFS */
+#define SC_P_CSI_VSYNC 145 /*!< CI_PI.VSYNC, CI_PI.D01 */
+#define SC_P_CSI_PCLK 146 /*!< CI_PI.PCLK, MIPI_CSI0.I2C0.SCL, ADMA.SPI1.SCK, LSIO.GPIO3.IO00 */
+#define SC_P_CSI_MCLK 147 /*!< CI_PI.MCLK, MIPI_CSI0.I2C0.SDA, ADMA.SPI1.SDO, LSIO.GPIO3.IO01 */
+#define SC_P_CSI_EN 148 /*!< CI_PI.EN, CI_PI.I2C.SCL, ADMA.I2C3.SCL, ADMA.SPI1.SDI, LSIO.GPIO3.IO02 */
+#define SC_P_CSI_RESET 149 /*!< CI_PI.RESET, CI_PI.I2C.SDA, ADMA.I2C3.SDA, ADMA.SPI1.CS0, LSIO.GPIO3.IO03 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_GPIORHD 150 /*!< */
+#define SC_P_MIPI_CSI0_MCLK_OUT 151 /*!< MIPI_CSI0.ACM.MCLK_OUT, LSIO.GPIO3.IO04 */
+#define SC_P_MIPI_CSI0_I2C0_SCL 152 /*!< MIPI_CSI0.I2C0.SCL, MIPI_CSI0.GPIO0.IO02, LSIO.GPIO3.IO05 */
+#define SC_P_MIPI_CSI0_I2C0_SDA 153 /*!< MIPI_CSI0.I2C0.SDA, MIPI_CSI0.GPIO0.IO03, LSIO.GPIO3.IO06 */
+#define SC_P_MIPI_CSI0_GPIO0_01 154 /*!< MIPI_CSI0.GPIO0.IO01, ADMA.I2C0.SDA, LSIO.GPIO3.IO07 */
+#define SC_P_MIPI_CSI0_GPIO0_00 155 /*!< MIPI_CSI0.GPIO0.IO00, ADMA.I2C0.SCL, LSIO.GPIO3.IO08 */
+#define SC_P_QSPI0A_DATA0 156 /*!< LSIO.QSPI0A.DATA0, LSIO.GPIO3.IO09 */
+#define SC_P_QSPI0A_DATA1 157 /*!< LSIO.QSPI0A.DATA1, LSIO.GPIO3.IO10 */
+#define SC_P_QSPI0A_DATA2 158 /*!< LSIO.QSPI0A.DATA2, LSIO.GPIO3.IO11 */
+#define SC_P_QSPI0A_DATA3 159 /*!< LSIO.QSPI0A.DATA3, LSIO.GPIO3.IO12 */
+#define SC_P_QSPI0A_DQS 160 /*!< LSIO.QSPI0A.DQS, LSIO.GPIO3.IO13 */
+#define SC_P_QSPI0A_SS0_B 161 /*!< LSIO.QSPI0A.SS0_B, LSIO.GPIO3.IO14 */
+#define SC_P_QSPI0A_SS1_B 162 /*!< LSIO.QSPI0A.SS1_B, LSIO.GPIO3.IO15 */
+#define SC_P_QSPI0A_SCLK 163 /*!< LSIO.QSPI0A.SCLK, LSIO.GPIO3.IO16 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_QSPI0A 164 /*!< */
+#define SC_P_QSPI0B_SCLK 165 /*!< LSIO.QSPI0B.SCLK, LSIO.QSPI1A.SCLK, LSIO.KPP0.COL0, LSIO.GPIO3.IO17 */
+#define SC_P_QSPI0B_DATA0 166 /*!< LSIO.QSPI0B.DATA0, LSIO.QSPI1A.DATA0, LSIO.KPP0.COL1, LSIO.GPIO3.IO18 */
+#define SC_P_QSPI0B_DATA1 167 /*!< LSIO.QSPI0B.DATA1, LSIO.QSPI1A.DATA1, LSIO.KPP0.COL2, LSIO.GPIO3.IO19 */
+#define SC_P_QSPI0B_DATA2 168 /*!< LSIO.QSPI0B.DATA2, LSIO.QSPI1A.DATA2, LSIO.KPP0.COL3, LSIO.GPIO3.IO20 */
+#define SC_P_QSPI0B_DATA3 169 /*!< LSIO.QSPI0B.DATA3, LSIO.QSPI1A.DATA3, LSIO.KPP0.ROW0, LSIO.GPIO3.IO21 */
+#define SC_P_QSPI0B_DQS 170 /*!< LSIO.QSPI0B.DQS, LSIO.QSPI1A.DQS, LSIO.KPP0.ROW1, LSIO.GPIO3.IO22 */
+#define SC_P_QSPI0B_SS0_B 171 /*!< LSIO.QSPI0B.SS0_B, LSIO.QSPI1A.SS0_B, LSIO.KPP0.ROW2, LSIO.GPIO3.IO23 */
+#define SC_P_QSPI0B_SS1_B 172 /*!< LSIO.QSPI0B.SS1_B, LSIO.QSPI1A.SS1_B, LSIO.KPP0.ROW3, LSIO.GPIO3.IO24 */
+#define SC_P_COMP_CTL_GPIO_1V8_3V3_QSPI0B 173 /*!< */
+/*@}*/
+
+#endif /* SC_PADS_H */
+
diff --git a/arch/arm/include/asm/mach-imx/sci/ipc.h b/arch/arm/include/asm/mach-imx/sci/ipc.h
new file mode 100755
index 0000000000..7f17c6818b
--- /dev/null
+++ b/arch/arm/include/asm/mach-imx/sci/ipc.h
@@ -0,0 +1,67 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file for the IPC implementation.
+ */
+
+#ifndef SC_IPC_H
+#define SC_IPC_H
+
+/* Includes */
+
+#include <asm/mach-imx/sci/types.h>
+
+/* Defines */
+
+/* Types */
+
+/* Functions */
+
+/*!
+ * This function opens an IPC channel.
+ *
+ * @param[out] ipc return pointer for ipc handle
+ * @param[in] id id of channel to open
+ *
+ * @return Returns an error code (SC_ERR_NONE = success, SC_ERR_IPC
+ * otherwise).
+ *
+ * The \a id parameter is implementation specific. Could be an MU
+ * address, pointer to a driver path, channel index, etc.
+ */
+sc_err_t sc_ipc_open(sc_ipc_t *ipc, sc_ipc_id_t id);
+
+/*!
+ * This function closes an IPC channel.
+ *
+ * @param[in] ipc id of channel to close
+ */
+void sc_ipc_close(sc_ipc_t ipc);
+
+/*!
+ * This function reads a message from an IPC channel.
+ *
+ * @param[in] ipc id of channel read from
+ * @param[out] data pointer to message buffer to read
+ *
+ * This function will block if no message is available to be read.
+ */
+void sc_ipc_read(sc_ipc_t ipc, void *data);
+
+/*!
+ * This function writes a message to an IPC channel.
+ *
+ * @param[in] ipc id of channel to write to
+ * @param[in] data pointer to message buffer to write
+ *
+ * This function will block if the outgoing buffer is full.
+ */
+void sc_ipc_write(sc_ipc_t ipc, void *data);
+
+#endif /* SC_IPC_H */
+
diff --git a/arch/arm/include/asm/mach-imx/sci/rpc.h b/arch/arm/include/asm/mach-imx/sci/rpc.h
new file mode 100755
index 0000000000..a88d5c4d9b
--- /dev/null
+++ b/arch/arm/include/asm/mach-imx/sci/rpc.h
@@ -0,0 +1,131 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file for the RPC implementation.
+ */
+
+#ifndef SC_RPC_H
+#define SC_RPC_H
+
+/* Includes */
+
+#include <asm/mach-imx/sci/types.h>
+#include <asm/mach-imx/sci/ipc.h>
+
+/* Defines */
+
+#define SC_RPC_VERSION 1U
+
+#define SC_RPC_MAX_MSG 8U
+
+#define RPC_VER(MSG) ((MSG)->version)
+#define RPC_SIZE(MSG) ((MSG)->size)
+#define RPC_SVC(MSG) ((MSG)->svc)
+#define RPC_FUNC(MSG) ((MSG)->func)
+#define RPC_R8(MSG) ((MSG)->func)
+#define RPC_I32(MSG, IDX) ((MSG)->DATA.i32[(IDX) / 4U])
+#define RPC_I16(MSG, IDX) ((MSG)->DATA.i16[(IDX) / 2U])
+#define RPC_I8(MSG, IDX) ((MSG)->DATA.i8[(IDX)])
+#define RPC_U32(MSG, IDX) ((MSG)->DATA.u32[(IDX) / 4U])
+#define RPC_U16(MSG, IDX) ((MSG)->DATA.u16[(IDX) / 2U])
+#define RPC_U8(MSG, IDX) ((MSG)->DATA.u8[(IDX)])
+
+#define SC_RPC_SVC_UNKNOWN 0U
+#define SC_RPC_SVC_RETURN 1U
+#define SC_RPC_SVC_PM 2U
+#define SC_RPC_SVC_RM 3U
+#define SC_RPC_SVC_TIMER 5U
+#define SC_RPC_SVC_PAD 6U
+#define SC_RPC_SVC_MISC 7U
+#define SC_RPC_SVC_IRQ 8U
+#define SC_RPC_SVC_ABORT 9U
+
+#define SC_RPC_ASYNC_STATE_RD_START 0U
+#define SC_RPC_ASYNC_STATE_RD_ACTIVE 1U
+#define SC_RPC_ASYNC_STATE_RD_DONE 2U
+#define SC_RPC_ASYNC_STATE_WR_START 3U
+#define SC_RPC_ASYNC_STATE_WR_ACTIVE 4U
+#define SC_RPC_ASYNC_STATE_WR_DONE 5U
+
+#define SC_RPC_MU_GIR_SVC 0x1U
+#define SC_RPC_MU_GIR_DBG 0x8U
+
+/* Types */
+
+typedef uint8_t sc_rpc_svc_t;
+
+typedef struct sc_rpc_msg_s
+{
+ uint8_t version;
+ uint8_t size;
+ uint8_t svc;
+ uint8_t func;
+ union
+ {
+ int32_t i32[(SC_RPC_MAX_MSG - 1U)];
+ int16_t i16[(SC_RPC_MAX_MSG - 1U) * 2U];
+ int8_t i8[(SC_RPC_MAX_MSG - 1U) * 4U];
+ uint32_t u32[(SC_RPC_MAX_MSG - 1U)];
+ uint16_t u16[(SC_RPC_MAX_MSG - 1U) * 2U];
+ uint8_t u8[(SC_RPC_MAX_MSG - 1U) * 4U];
+ } DATA;
+} sc_rpc_msg_t;
+
+typedef uint8_t sc_rpc_async_state_t;
+
+typedef struct sc_rpc_async_msg_s
+{
+ sc_rpc_async_state_t state;
+ uint8_t wordIdx;
+ sc_rpc_msg_t msg;
+ uint32_t timeStamp;
+} sc_rpc_async_msg_t;
+
+/* Functions */
+
+/*!
+ * This is an internal function to send an RPC message over an IPC
+ * channel. It is called by client-side SCFW API function shims.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in,out] msg handle to a message
+ * @param[in] no_resp response flag
+ *
+ * If \a no_resp is SC_FALSE then this function waits for a response
+ * and returns the result in \a msg.
+ */
+void sc_call_rpc(sc_ipc_t ipc, sc_rpc_msg_t *msg, sc_bool_t no_resp);
+
+/*!
+ * This is an internal function to dispath an RPC call that has
+ * arrived via IPC over an MU. It is called by server-side SCFW.
+ *
+ * @param[in] mu MU message arrived on
+ * @param[in,out] msg handle to a message
+ *
+ * The function result is returned in \a msg.
+ */
+void sc_rpc_dispatch(sc_rsrc_t mu, sc_rpc_msg_t *msg);
+
+/*!
+ * This function translates an RPC message and forwards on to the
+ * normal RPC API. It is used only by hypervisors.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in,out] msg handle to a message
+ *
+ * This function decodes a message, calls macros to translate the
+ * resources, pads, addresses, partitions, memory regions, etc. and
+ * then forwards on to the hypervisors SCFW API.Return results are
+ * translated back abd placed back into the message to be returned
+ * to the original API.
+ */
+void sc_rpc_xlate(sc_ipc_t ipc, sc_rpc_msg_t *msg);
+
+#endif /* SC_RPC_H */
+
diff --git a/arch/arm/include/asm/mach-imx/sci/svc/irq/api.h b/arch/arm/include/asm/mach-imx/sci/svc/irq/api.h
new file mode 100755
index 0000000000..4b07b27133
--- /dev/null
+++ b/arch/arm/include/asm/mach-imx/sci/svc/irq/api.h
@@ -0,0 +1,160 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file containing the public API for the System Controller (SC)
+ * Interrupt (IRQ) function.
+ *
+ * @addtogroup IRQ_SVC (SVC) Interrupt Service
+ *
+ * Module for the Interrupt (IRQ) service.
+ *
+ * @{
+ */
+
+#ifndef SC_IRQ_API_H
+#define SC_IRQ_API_H
+
+/* Includes */
+
+#include <asm/mach-imx/sci/types.h>
+
+/* Defines */
+
+#define SC_IRQ_NUM_GROUP 4 /*!< Number of groups */
+
+/*!
+ * @name Defines for sc_irq_group_t
+ */
+/*@{*/
+#define SC_IRQ_GROUP_TEMP 0U /*!< Temp interrupts */
+#define SC_IRQ_GROUP_WDOG 1U /*!< Watchdog interrupts */
+#define SC_IRQ_GROUP_RTC 2U /*!< RTC interrupts */
+#define SC_IRQ_GROUP_WAKE 3U /*!< Wakeup interrupts */
+/*@}*/
+
+/*!
+ * @name Defines for sc_irq_temp_t
+ */
+/*@{*/
+#define SC_IRQ_TEMP_HIGH (1U << 0) /*!< Temp alarm interrupt */
+#define SC_IRQ_TEMP_CPU0_HIGH (1U << 1) /*!< CPU0 temp alarm interrupt */
+#define SC_IRQ_TEMP_CPU1_HIGH (1U << 2) /*!< CPU1 temp alarm interrupt */
+#define SC_IRQ_TEMP_GPU0_HIGH (1U << 3) /*!< GPU0 temp alarm interrupt */
+#define SC_IRQ_TEMP_GPU1_HIGH (1U << 4) /*!< GPU1 temp alarm interrupt */
+#define SC_IRQ_TEMP_DRC0_HIGH (1U << 5) /*!< DRC0 temp alarm interrupt */
+#define SC_IRQ_TEMP_DRC1_HIGH (1U << 6) /*!< DRC1 temp alarm interrupt */
+#define SC_IRQ_TEMP_VPU_HIGH (1U << 7) /*!< DRC1 temp alarm interrupt */
+#define SC_IRQ_TEMP_PMIC0_HIGH (1U << 8) /*!< PMIC0 temp alarm interrupt */
+#define SC_IRQ_TEMP_PMIC1_HIGH (1U << 9) /*!< PMIC1 temp alarm interrupt */
+#define SC_IRQ_TEMP_LOW (1U << 10) /*!< Temp alarm interrupt */
+#define SC_IRQ_TEMP_CPU0_LOW (1U << 11) /*!< CPU0 temp alarm interrupt */
+#define SC_IRQ_TEMP_CPU1_LOW (1U << 12) /*!< CPU1 temp alarm interrupt */
+#define SC_IRQ_TEMP_GPU0_LOW (1U << 13) /*!< GPU0 temp alarm interrupt */
+#define SC_IRQ_TEMP_GPU1_LOW (1U << 14) /*!< GPU1 temp alarm interrupt */
+#define SC_IRQ_TEMP_DRC0_LOW (1U << 15) /*!< DRC0 temp alarm interrupt */
+#define SC_IRQ_TEMP_DRC1_LOW (1U << 16) /*!< DRC1 temp alarm interrupt */
+#define SC_IRQ_TEMP_VPU_LOW (1U << 17) /*!< DRC1 temp alarm interrupt */
+#define SC_IRQ_TEMP_PMIC0_LOW (1U << 18) /*!< PMIC0 temp alarm interrupt */
+#define SC_IRQ_TEMP_PMIC1_LOW (1U << 19) /*!< PMIC1 temp alarm interrupt */
+#define SC_IRQ_TEMP_PMIC2_HIGH (1U << 20) /*!< PMIC2 temp alarm interrupt */
+#define SC_IRQ_TEMP_PMIC2_LOW (1U << 21) /*!< PMIC2 temp alarm interrupt */
+/*@}*/
+
+/*!
+ * @name Defines for sc_irq_wdog_t
+ */
+/*@{*/
+#define SC_IRQ_WDOG (1U << 0) /*!< Watchdog interrupt */
+/*@}*/
+
+/*!
+ * @name Defines for sc_irq_rtc_t
+ */
+/*@{*/
+#define SC_IRQ_RTC (1U << 0) /*!< RTC interrupt */
+/*@}*/
+
+/*!
+ * @name Defines for sc_irq_wake_t
+ */
+/*@{*/
+#define SC_IRQ_BUTTON (1U << 0) /*!< Button interrupt */
+#define SC_IRQ_PAD (1U << 1) /*!< Pad wakeup */
+/*@}*/
+
+/* Types */
+
+/*!
+ * This type is used to declare an interrupt group.
+ */
+typedef uint8_t sc_irq_group_t;
+
+/*!
+ * This type is used to declare a bit mask of temp interrupts.
+ */
+typedef uint8_t sc_irq_temp_t;
+
+/*!
+ * This type is used to declare a bit mask of watchdog interrupts.
+ */
+typedef uint8_t sc_irq_wdog_t;
+
+/*!
+ * This type is used to declare a bit mask of RTC interrupts.
+ */
+typedef uint8_t sc_irq_rtc_t;
+
+/*!
+ * This type is used to declare a bit mask of wakeup interrupts.
+ */
+typedef uint8_t sc_irq_wake_t;
+
+/* Functions */
+
+/*!
+ * This function enables/disables interrupts. If pending interrupts
+ * are unmasked, an interrupt will be triggered.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource MU channel
+ * @param[in] group group the interrupts are in
+ * @param[in] mask mask of interrupts to affect
+ * @param[in] enable state to change interrupts to
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if group invalid
+ */
+sc_err_t sc_irq_enable(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_irq_group_t group, uint32_t mask, sc_bool_t enable);
+
+/*!
+ * This function returns the current interrupt status (regardless if
+ * masked). Automatically clears pending interrupts.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource MU channel
+ * @param[in] group groups the interrupts are in
+ * @param[in] status status of interrupts
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if group invalid
+ *
+ * The returned \a status may show interrupts pending that are
+ * currently masked.
+ */
+sc_err_t sc_irq_status(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_irq_group_t group, uint32_t *status);
+
+#endif /* SC_IRQ_API_H */
+
+/**@}*/
+
diff --git a/arch/arm/include/asm/mach-imx/sci/svc/misc/api.h b/arch/arm/include/asm/mach-imx/sci/svc/misc/api.h
new file mode 100644
index 0000000000..6b876bb128
--- /dev/null
+++ b/arch/arm/include/asm/mach-imx/sci/svc/misc/api.h
@@ -0,0 +1,523 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file containing the public API for the System Controller (SC)
+ * Miscellaneous (MISC) function.
+ *
+ * @addtogroup MISC_SVC (SVC) Miscellaneous Service
+ *
+ * Module for the Miscellaneous (MISC) service.
+ *
+ * @{
+ */
+
+#ifndef SC_MISC_API_H
+#define SC_MISC_API_H
+
+/* Includes */
+
+#include <asm/mach-imx/sci/types.h>
+#include <asm/mach-imx/sci/svc/rm/api.h>
+
+/* Defines */
+
+/*!
+ * @name Defines for type widths
+ */
+/*@{*/
+#define SC_MISC_DMA_GRP_W 5 /*!< Width of sc_misc_dma_group_t */
+/*@}*/
+
+/*! Max DMA channel priority group */
+#define SC_MISC_DMA_GRP_MAX 31U
+
+/*!
+ * @name Defines for sc_misc_boot_status_t
+ */
+/*@{*/
+#define SC_MISC_BOOT_STATUS_SUCCESS 0U /*!< Success */
+#define SC_MISC_BOOT_STATUS_SECURITY 1U /*!< Security violation */
+/*@}*/
+
+/*!
+ * @name Defines for sc_misc_seco_auth_cmd_t
+ */
+/*@{*/
+#define SC_MISC_SECO_AUTH_SECO_FW 0U /*!< SECO Firmware */
+#define SC_MISC_SECO_AUTH_HDMI_TX_FW 1U /*!< HDMI TX Firmware */
+#define SC_MISC_SECO_AUTH_HDMI_RX_FW 2U /*!< HDMI RX Firmware */
+/*@}*/
+
+/*!
+ * @name Defines for sc_misc_temp_t
+ */
+/*@{*/
+#define SC_MISC_TEMP 0U /*!< Temp sensor */
+#define SC_MISC_TEMP_HIGH 1U /*!< Temp high alarm */
+#define SC_MISC_TEMP_LOW 2U /*!< Temp low alarm */
+/*@}*/
+
+/*!
+ * @name Defines for sc_misc_seco_auth_cmd_t
+ */
+/*@{*/
+#define SC_MISC_AUTH_CONTAINER 0U /*!< Authenticate container */
+#define SC_MISC_VERIFY_IMAGE 1U /*!< Verify image */
+#define SC_MISC_REL_CONTAINER 2U /*!< Release container */
+/*@}*/
+
+/* Types */
+
+/*!
+ * This type is used to store a DMA channel priority group.
+ */
+typedef uint8_t sc_misc_dma_group_t;
+
+/*!
+ * This type is used report boot status.
+ */
+typedef uint8_t sc_misc_boot_status_t;
+
+/*!
+ * This type is used to issue SECO authenticate commands.
+ */
+typedef uint8_t sc_misc_seco_auth_cmd_t;
+
+/*!
+ * This type is used report boot status.
+ */
+typedef uint8_t sc_misc_temp_t;
+
+/* Functions */
+
+/*!
+ * @name Control Functions
+ * @{
+ */
+
+/*!
+ * This function sets a miscellaneous control value.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource resource the control is associated with
+ * @param[in] ctrl control to change
+ * @param[in] val value to apply to the control
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the resource owner or parent
+ * of the owner
+ *
+ * Refer to the [Control List](@ref CONTROLS) for valid control values.
+ */
+sc_err_t sc_misc_set_control(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_ctrl_t ctrl, uint32_t val);
+
+/*!
+ * This function gets a miscellaneous control value.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource resource the control is associated with
+ * @param[in] ctrl control to get
+ * @param[out] val pointer to return the control value
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the resource owner or parent
+ * of the owner
+ *
+ * Refer to the [Control List](@ref CONTROLS) for valid control values.
+ */
+sc_err_t sc_misc_get_control(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_ctrl_t ctrl, uint32_t *val);
+
+/* @} */
+
+/*!
+ * @name DMA Functions
+ * @{
+ */
+
+/*!
+ * This function configures the max DMA channel priority group for a
+ * partition.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt handle of partition to assign \a max
+ * @param[in] max max priority group (0-31)
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the parent
+ * of the affected partition
+ *
+ * Valid \a max range is 0-31 with 0 being the lowest and 31 the highest.
+ * Default is the max priority group for the parent partition of \a pt.
+ */
+sc_err_t sc_misc_set_max_dma_group(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_misc_dma_group_t max);
+
+/*!
+ * This function configures the priority group for a DMA channel.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource DMA channel resource
+ * @param[in] group priority group (0-31)
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the owner or parent
+ * of the owner of the DMA channel
+ *
+ * Valid \a group range is 0-31 with 0 being the lowest and 31 the highest.
+ * The max value of \a group is limited by the partition max set using
+ * sc_misc_set_max_dma_group().
+ */
+sc_err_t sc_misc_set_dma_group(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_misc_dma_group_t group);
+
+/* @} */
+
+/*!
+ * @name Security Functions
+ * @{
+ */
+
+/*!
+ * This function loads a SECO image.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] addr_src address of image source
+ * @param[in] addr_dst address of image destination
+ * @param[in] len lenth of image to load
+ * @param[in] fw SC_TRUE = firmware load
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors codes:
+ * - SC_ERR_PARM if word fuse index param out of range or invalid
+ * - SC_ERR_UNAVAILABLE if SECO not available
+ *
+ * This is used to load images via the SECO. Examples include SECO
+ * Firmware and IVT/CSF data used for authentication. These are usually
+ * loaded into SECO TCM. \a addr_src is in secure memory.
+ *
+ * See the Security Reference Manual (SRM) for more info.
+ */
+sc_err_t sc_misc_seco_image_load(sc_ipc_t ipc, sc_faddr_t addr_src,
+ sc_faddr_t addr_dst, uint32_t len, sc_bool_t fw);
+
+/*!
+ * This function is used to authenticate a SECO image or command.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] cmd authenticate command
+ * @param[in] addr address of/or metadata
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors codes:
+ * - SC_ERR_PARM if word fuse index param out of range or invalid
+ * - SC_ERR_UNAVAILABLE if SECO not available
+ *
+ * This is used to authenticate a SECO image or issue a security
+ * command. \a addr often points to an container. It is also
+ * just data (or even unused) for some commands.
+ *
+ * See the Security Reference Manual (SRM) for more info.
+ */
+sc_err_t sc_misc_seco_authenticate(sc_ipc_t ipc,
+ sc_misc_seco_auth_cmd_t cmd, sc_faddr_t addr);
+
+/*!
+ * This function securely writes a group of fuse words.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] addr address of message block
+ *
+ * @return Returns and error code (SC_ERR_NONE = success).
+ *
+ * Return errors codes:
+ * - SC_ERR_UNAVAILABLE if SECO not available
+ *
+ * Note \a addr must be a pointer into secure RAM. The contents at
+ * this location are a signed fuse command message block.
+ *
+ * See the Security Reference Manual (SRM) for more info.
+ */
+sc_err_t sc_misc_seco_fuse_write(sc_ipc_t ipc, sc_faddr_t addr);
+
+/*!
+ * This function securely enables debug.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] addr address of message block
+ *
+ * @return Returns and error code (SC_ERR_NONE = success).
+ *
+ * Return errors codes:
+ * - SC_ERR_UNAVAILABLE if SECO not available
+ *
+ * Note \a addr must be a pointer into secure RAM. The contents at
+ * this location are a signed fuse command message block.
+ *
+ * See the Security Reference Manual (SRM) for more info.
+ */
+sc_err_t sc_misc_seco_enable_debug(sc_ipc_t ipc, sc_faddr_t addr);
+
+/*!
+ * This function updates the lifecycle of the device.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] lifecycle new lifecycle
+ *
+ * @return Returns and error code (SC_ERR_NONE = success).
+ *
+ * Return errors codes:
+ * - SC_ERR_UNAVAILABLE if SECO not available
+ *
+ * See the Security Reference Manual (SRM) for more info.
+ */
+sc_err_t sc_misc_seco_forward_lifecycle(sc_ipc_t ipc, uint32_t lifecycle);
+
+/*!
+ * This function securely reverses the lifecycle.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] addr address of message block
+ *
+ * @return Returns and error code (SC_ERR_NONE = success).
+ *
+ * Return errors codes:
+ * - SC_ERR_UNAVAILABLE if SECO not available
+ *
+ * Note \a addr must be a pointer into secure RAM. The contents at
+ * this location are a signed fuse command message block.
+ *
+ * See the Security Reference Manual (SRM) for more info.
+ */
+sc_err_t sc_misc_seco_return_lifecycle(sc_ipc_t ipc, sc_faddr_t addr);
+
+/*!
+ * This function is used to return the SECO FW build info.
+ *
+ * @param[in] ipc IPC handle
+ * @param[out] version pointer to return build number
+ * @param[out] commit pointer to return commit ID (git SHA-1)
+ */
+void sc_misc_seco_build_info(sc_ipc_t ipc, uint32_t *version,
+ uint32_t *commit);
+
+/* @} */
+
+/*!
+ * @name Debug Functions
+ * @{
+ */
+
+/*!
+ * This function is used output a debug character from the SCU UART.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] ch character to output
+ */
+void sc_misc_debug_out(sc_ipc_t ipc, uint8_t ch);
+
+/*!
+ * This function starts/stops emulation waveform capture.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] enable flag to enable/disable capture
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_UNAVAILABLE if not running on emulation
+ */
+sc_err_t sc_misc_waveform_capture(sc_ipc_t ipc, sc_bool_t enable);
+
+/*!
+ * This function is used to return the SCFW build info.
+ *
+ * @param[in] ipc IPC handle
+ * @param[out] build pointer to return build number
+ * @param[out] commit pointer to return commit ID (git SHA-1)
+ */
+void sc_misc_build_info(sc_ipc_t ipc, uint32_t *build,
+ uint32_t *commit);
+
+/*!
+ * This function is used to return the device's unique ID.
+ *
+ * @param[in] ipc IPC handle
+ * @param[out] id_l pointer to return lower 32-bit of ID [31:0]
+ * @param[out] id_h pointer to return upper 32-bits of ID [63:32]
+ */
+void sc_misc_unique_id(sc_ipc_t ipc, uint32_t *id_l,
+ uint32_t *id_h);
+
+/* @} */
+
+/*!
+ * @name Other Functions
+ * @{
+ */
+
+/*!
+ * This function configures the ARI match value for PCIe/SATA resources.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource match resource
+ * @param[in] resource_mst PCIe/SATA master to match
+ * @param[in] ari ARI to match
+ * @param[in] enable enable match or not
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the owner or parent
+ * of the owner of the resource and translation
+ *
+ * For PCIe, the ARI is the 16-bit value that includes the bus number,
+ * device number, and function number. For SATA, this value includes the
+ * FISType and PM_Port.
+ */
+sc_err_t sc_misc_set_ari(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_rsrc_t resource_mst, uint16_t ari, sc_bool_t enable);
+
+/*!
+ * This function reports boot status.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] status boot status
+ *
+ * This is used by SW partitions to report status of boot. This is
+ * normally used to report a boot failure.
+ */
+void sc_misc_boot_status(sc_ipc_t ipc, sc_misc_boot_status_t status);
+
+/*!
+ * This function tells the SCFW that a CPU is done booting.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] cpu CPU that is done booting
+ *
+ * This is called by early booting CPUs to report they are done with
+ * initialization. After starting early CPUs, the SCFW halts the
+ * booting process until they are done. During this time, early
+ * CPUs can call the SCFW with lower latency as the SCFW is idle.
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the CPU owner
+ */
+sc_err_t sc_misc_boot_done(sc_ipc_t ipc, sc_rsrc_t cpu);
+
+/*!
+ * This function reads a given fuse word index.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] word fuse word index
+ * @param[out] val fuse read value
+ *
+ * @return Returns and error code (SC_ERR_NONE = success).
+ *
+ * Return errors codes:
+ * - SC_ERR_PARM if word fuse index param out of range or invalid
+ * - SC_ERR_NOACCESS if read operation failed
+ * - SC_ERR_LOCKED if read operation is locked
+ */
+sc_err_t sc_misc_otp_fuse_read(sc_ipc_t ipc, uint32_t word, uint32_t *val);
+
+/*!
+ * This function writes a given fuse word index.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] word fuse word index
+ * @param[in] val fuse write value
+ *
+ * @return Returns and error code (SC_ERR_NONE = success).
+ *
+ * Return errors codes:
+ * - SC_ERR_PARM if word fuse index param out of range or invalid
+ * - SC_ERR_NOACCESS if write operation failed
+ * - SC_ERR_LOCKED if write operation is locked
+ */
+sc_err_t sc_misc_otp_fuse_write(sc_ipc_t ipc, uint32_t word, uint32_t val);
+
+/*!
+ * This function sets a temp sensor alarm.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource resource with sensor
+ * @param[in] temp alarm to set
+ * @param[in] celsius whole part of temp to set
+ * @param[in] tenths fractional part of temp to set
+ *
+ * @return Returns and error code (SC_ERR_NONE = success).
+ *
+ * This function will enable the alarm interrupt if the temp requested is
+ * not the min/max temp. This enable automatically clears when the alarm
+ * occurs and this function has to be called again to re-enable.
+ *
+ * Return errors codes:
+ * - SC_ERR_PARM if parameters invalid
+ */
+sc_err_t sc_misc_set_temp(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_misc_temp_t temp, int16_t celsius, int8_t tenths);
+
+/*!
+ * This function gets a temp sensor value.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource resource with sensor
+ * @param[in] temp value to get (sensor or alarm)
+ * @param[out] celsius whole part of temp to get
+ * @param[out] tenths fractional part of temp to get
+ *
+ * @return Returns and error code (SC_ERR_NONE = success).
+ *
+ * Return errors codes:
+ * - SC_ERR_PARM if parameters invalid
+ */
+sc_err_t sc_misc_get_temp(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_misc_temp_t temp, int16_t *celsius, int8_t *tenths);
+
+/*!
+ * This function returns the boot device.
+ *
+ * @param[in] ipc IPC handle
+ * @param[out] dev pointer to return boot device
+ */
+void sc_misc_get_boot_dev(sc_ipc_t ipc, sc_rsrc_t *dev);
+
+/*!
+ * This function returns the current status of the ON/OFF button.
+ *
+ * @param[in] ipc IPC handle
+ * @param[out] status pointer to return button status
+ */
+void sc_misc_get_button_status(sc_ipc_t ipc, sc_bool_t *status);
+
+/* @} */
+
+#endif /* SC_MISC_API_H */
+
+/**@}*/
+
diff --git a/arch/arm/include/asm/mach-imx/sci/svc/pad/api.h b/arch/arm/include/asm/mach-imx/sci/svc/pad/api.h
new file mode 100755
index 0000000000..cf29958091
--- /dev/null
+++ b/arch/arm/include/asm/mach-imx/sci/svc/pad/api.h
@@ -0,0 +1,568 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file containing the public API for the System Controller (SC)
+ * Pad Control (PAD) function.
+ *
+ * @addtogroup PAD_SVC (SVC) Pad Service
+ *
+ * Module for the Pad Control (PAD) service.
+ *
+ * @details
+ *
+ * Pad configuration is managed by SC firmware. The pad configuration
+ * features supported by the SC firmware include:
+ *
+ * - Configuring the mux, input/output connection, and low-power isolation
+ mode.
+ * - Configuring the technology-specific pad setting such as drive strength,
+ * pullup/pulldown, etc.
+ * - Configuring compensation for pad groups with dual voltage capability.
+ *
+ * Pad functions fall into one of three categories. Generic functions are
+ * common to all SoCs and all process technologies. SoC functions are raw
+ * low-level functions. Technology-specific functions are specific to the
+ * process technology.
+ *
+ * The list of pads is SoC specific. Refer to the SoC [Pad List](@ref PADS)
+ * for valid pad values. Note that all pads exist on a die but may or
+ * may not be brought out by the specific package. Mapping of pads to
+ * package pins/balls is documented in the associated Data Sheet. Some pads
+ * may not be brought out because the part (die+package) is defeatured and
+ * some pads may connect to the substrate in the package.
+ *
+ * Some pads (SC_P_COMP_*) that can be specified are not individual pads
+ * but are in fact pad groups. These groups have additional configuration
+ * that can be done using the sc_pad_set_gp_28fdsoi_comp() function. More
+ * info on these can be found in the associated Reference Manual.
+ *
+ * Pads are managed as a resource by the Resource Manager (RM). They have
+ * assigned owners and only the owners can configure the pads. Some of the
+ * pads are reserved for use by the SCFW itself and this can be overriden
+ * with the implementation of board_config_sc(). Additionally, pads may
+ * be assigned to various other partitions via the implementation of
+ * board_system_config().
+ *
+ * Note muxing two input pads to the same IP functional signal will
+ * result in undefined behavior.
+ * @{
+ */
+
+#ifndef SC_PAD_API_H
+#define SC_PAD_API_H
+
+/* Includes */
+
+#include <asm/mach-imx/sci/types.h>
+#include <asm/mach-imx/sci/svc/rm/api.h>
+
+/* Defines */
+
+/*!
+ * @name Defines for type widths
+ */
+/*@{*/
+#define SC_PAD_MUX_W 3 /*!< Width of mux parameter */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pad_config_t
+ */
+/*@{*/
+#define SC_PAD_CONFIG_NORMAL 0U /*!< Normal */
+#define SC_PAD_CONFIG_OD 1U /*!< Open Drain */
+#define SC_PAD_CONFIG_OD_IN 2U /*!< Open Drain and input */
+#define SC_PAD_CONFIG_OUT_IN 3U /*!< Output and input */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pad_iso_t
+ */
+/*@{*/
+#define SC_PAD_ISO_OFF 0U /*!< ISO latch is transparent */
+#define SC_PAD_ISO_EARLY 1U /*!< Follow EARLY_ISO */
+#define SC_PAD_ISO_LATE 2U /*!< Follow LATE_ISO */
+#define SC_PAD_ISO_ON 3U /*!< ISO latched data is held */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pad_28fdsoi_dse_t
+ */
+/*@{*/
+#define SC_PAD_28FDSOI_DSE_18V_1MA 0U /*!< Drive strength of 1mA for 1.8v */
+#define SC_PAD_28FDSOI_DSE_18V_2MA 1U /*!< Drive strength of 2mA for 1.8v */
+#define SC_PAD_28FDSOI_DSE_18V_4MA 2U /*!< Drive strength of 4mA for 1.8v */
+#define SC_PAD_28FDSOI_DSE_18V_6MA 3U /*!< Drive strength of 6mA for 1.8v */
+#define SC_PAD_28FDSOI_DSE_18V_8MA 4U /*!< Drive strength of 8mA for 1.8v */
+#define SC_PAD_28FDSOI_DSE_18V_10MA 5U /*!< Drive strength of 10mA for 1.8v */
+#define SC_PAD_28FDSOI_DSE_18V_12MA 6U /*!< Drive strength of 12mA for 1.8v */
+#define SC_PAD_28FDSOI_DSE_18V_HS 7U /*!< High-speed drive strength for 1.8v */
+#define SC_PAD_28FDSOI_DSE_33V_2MA 0U /*!< Drive strength of 2mA for 3.3v */
+#define SC_PAD_28FDSOI_DSE_33V_4MA 1U /*!< Drive strength of 4mA for 3.3v */
+#define SC_PAD_28FDSOI_DSE_33V_8MA 2U /*!< Drive strength of 8mA for 3.3v */
+#define SC_PAD_28FDSOI_DSE_33V_12MA 3U /*!< Drive strength of 12mA for 3.3v */
+#define SC_PAD_28FDSOI_DSE_DV_HIGH 0U /*!< High drive strength for dual volt */
+#define SC_PAD_28FDSOI_DSE_DV_LOW 1U /*!< Low drive strength for dual volt */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pad_28fdsoi_ps_t
+ */
+/*@{*/
+#define SC_PAD_28FDSOI_PS_KEEPER 0U /*!< Bus-keeper (only valid for 1.8v) */
+#define SC_PAD_28FDSOI_PS_PU 1U /*!< Pull-up */
+#define SC_PAD_28FDSOI_PS_PD 2U /*!< Pull-down */
+#define SC_PAD_28FDSOI_PS_NONE 3U /*!< No pull (disabled) */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pad_28fdsoi_pus_t
+ */
+/*@{*/
+#define SC_PAD_28FDSOI_PUS_30K_PD 0U /*!< 30K pull-down */
+#define SC_PAD_28FDSOI_PUS_100K_PU 1U /*!< 100K pull-up */
+#define SC_PAD_28FDSOI_PUS_3K_PU 2U /*!< 3K pull-up */
+#define SC_PAD_28FDSOI_PUS_30K_PU 3U /*!< 30K pull-up */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pad_wakeup_t
+ */
+/*@{*/
+#define SC_PAD_WAKEUP_OFF 0U /*!< Off */
+#define SC_PAD_WAKEUP_CLEAR 1U /*!< Clears pending flag */
+#define SC_PAD_WAKEUP_LOW_LVL 4U /*!< Low level */
+#define SC_PAD_WAKEUP_FALL_EDGE 5U /*!< Falling edge */
+#define SC_PAD_WAKEUP_RISE_EDGE 6U /*!< Rising edge */
+#define SC_PAD_WAKEUP_HIGH_LVL 7U /*!< High-level */
+/*@}*/
+
+/* Types */
+
+/*!
+ * This type is used to declare a pad config. It determines how the
+ * output data is driven, pull-up is controlled, and input signal is
+ * connected. Normal and OD are typical and only connect the input
+ * when the output is not driven. The IN options are less common and
+ * force an input connection even when driving the output.
+ */
+typedef uint8_t sc_pad_config_t;
+
+/*!
+ * This type is used to declare a pad low-power isolation config.
+ * ISO_LATE is the most common setting. ISO_EARLY is only used when
+ * an output pad is directly determined by another input pad. The
+ * other two are only used when SW wants to directly contol isolation.
+ */
+typedef uint8_t sc_pad_iso_t;
+
+/*!
+ * This type is used to declare a drive strength. Note it is specific
+ * to 28FDSOI. Also note that valid values depend on the pad type.
+ */
+typedef uint8_t sc_pad_28fdsoi_dse_t;
+
+/*!
+ * This type is used to declare a pull select. Note it is specific
+ * to 28FDSOI.
+ */
+typedef uint8_t sc_pad_28fdsoi_ps_t;
+
+/*!
+ * This type is used to declare a pull-up select. Note it is specific
+ * to 28FDSOI HSIC pads.
+ */
+typedef uint8_t sc_pad_28fdsoi_pus_t;
+
+/*!
+ * This type is used to declare a wakeup mode of a pad.
+ */
+typedef uint8_t sc_pad_wakeup_t;
+
+/* Functions */
+
+/*!
+ * @name Generic Functions
+ * @{
+ */
+
+/*!
+ * This function configures the mux settings for a pad. This includes
+ * the signal mux, pad config, and low-power isolation mode.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to configure
+ * @param[in] mux mux setting
+ * @param[in] config pad config
+ * @param[in] iso low-power isolation mode
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner
+ *
+ * Note muxing two input pads to the same IP functional signal will
+ * result in undefined behavior.
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_set_mux(sc_ipc_t ipc, sc_pad_t pad,
+ uint8_t mux, sc_pad_config_t config, sc_pad_iso_t iso);
+
+/*!
+ * This function gets the mux settings for a pad. This includes
+ * the signal mux, pad config, and low-power isolation mode.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to query
+ * @param[out] mux pointer to return mux setting
+ * @param[out] config pointer to return pad config
+ * @param[out] iso pointer to return low-power isolation mode
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_get_mux(sc_ipc_t ipc, sc_pad_t pad,
+ uint8_t *mux, sc_pad_config_t *config, sc_pad_iso_t *iso);
+
+/*!
+ * This function configures the general purpose pad control. This
+ * is technology dependent and includes things like drive strength,
+ * slew rate, pull up/down, etc. Refer to the SoC Reference Manual
+ * for bit field details.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to configure
+ * @param[in] ctrl control value to set
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_set_gp(sc_ipc_t ipc, sc_pad_t pad, uint32_t ctrl);
+
+/*!
+ * This function gets the general purpose pad control. This
+ * is technology dependent and includes things like drive strength,
+ * slew rate, pull up/down, etc. Refer to the SoC Reference Manual
+ * for bit field details.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to query
+ * @param[out] ctrl pointer to return control value
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_get_gp(sc_ipc_t ipc, sc_pad_t pad, uint32_t *ctrl);
+
+/*!
+ * This function configures the wakeup mode of the pad.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to configure
+ * @param[in] wakeup wakeup to set
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_set_wakeup(sc_ipc_t ipc, sc_pad_t pad,
+ sc_pad_wakeup_t wakeup);
+
+/*!
+ * This function gets the wakeup mode of a pad.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to query
+ * @param[out] wakeup pointer to return wakeup
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_get_wakeup(sc_ipc_t ipc, sc_pad_t pad,
+ sc_pad_wakeup_t *wakeup);
+
+/*!
+ * This function configures a pad.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to configure
+ * @param[in] mux mux setting
+ * @param[in] config pad config
+ * @param[in] iso low-power isolation mode
+ * @param[in] ctrl control value
+ * @param[in] wakeup wakeup to set
+ *
+ * @see sc_pad_set_mux().
+ * @see sc_pad_set_gp().
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Note muxing two input pads to the same IP functional signal will
+ * result in undefined behavior.
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_set_all(sc_ipc_t ipc, sc_pad_t pad, uint8_t mux,
+ sc_pad_config_t config, sc_pad_iso_t iso, uint32_t ctrl,
+ sc_pad_wakeup_t wakeup);
+
+/*!
+ * This function gets a pad's config.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to query
+ * @param[out] mux pointer to return mux setting
+ * @param[out] config pointer to return pad config
+ * @param[out] iso pointer to return low-power isolation mode
+ * @param[out] ctrl pointer to return control value
+ * @param[out] wakeup pointer to return wakeup to set
+ *
+ * @see sc_pad_set_mux().
+ * @see sc_pad_set_gp().
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_get_all(sc_ipc_t ipc, sc_pad_t pad, uint8_t *mux,
+ sc_pad_config_t *config, sc_pad_iso_t *iso, uint32_t *ctrl,
+ sc_pad_wakeup_t *wakeup);
+
+/* @} */
+
+/*!
+ * @name SoC Specific Functions
+ * @{
+ */
+
+/*!
+ * This function configures the settings for a pad. This setting is SoC
+ * specific.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to configure
+ * @param[in] val value to set
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_set(sc_ipc_t ipc, sc_pad_t pad, uint32_t val);
+
+/*!
+ * This function gets the settings for a pad. This setting is SoC
+ * specific.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to query
+ * @param[out] val pointer to return setting
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_get(sc_ipc_t ipc, sc_pad_t pad, uint32_t *val);
+
+/* @} */
+
+/*!
+ * @name Technology Specific Functions
+ * @{
+ */
+
+/*!
+ * This function configures the pad control specific to 28FDSOI.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to configure
+ * @param[in] dse drive strength
+ * @param[in] ps pull select
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner,
+ * - SC_ERR_UNAVAILABLE if process not applicable
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_set_gp_28fdsoi(sc_ipc_t ipc, sc_pad_t pad,
+ sc_pad_28fdsoi_dse_t dse, sc_pad_28fdsoi_ps_t ps);
+
+/*!
+ * This function gets the pad control specific to 28FDSOI.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to query
+ * @param[out] dse pointer to return drive strength
+ * @param[out] ps pointer to return pull select
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner,
+ * - SC_ERR_UNAVAILABLE if process not applicable
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_get_gp_28fdsoi(sc_ipc_t ipc, sc_pad_t pad,
+ sc_pad_28fdsoi_dse_t *dse, sc_pad_28fdsoi_ps_t *ps);
+
+/*!
+ * This function configures the pad control specific to 28FDSOI.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to configure
+ * @param[in] dse drive strength
+ * @param[in] hys hysteresis
+ * @param[in] pus pull-up select
+ * @param[in] pke pull keeper enable
+ * @param[in] pue pull-up enable
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner,
+ * - SC_ERR_UNAVAILABLE if process not applicable
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_set_gp_28fdsoi_hsic(sc_ipc_t ipc, sc_pad_t pad,
+ sc_pad_28fdsoi_dse_t dse, sc_bool_t hys, sc_pad_28fdsoi_pus_t pus,
+ sc_bool_t pke, sc_bool_t pue);
+
+/*!
+ * This function gets the pad control specific to 28FDSOI.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to query
+ * @param[out] dse pointer to return drive strength
+ * @param[out] hys pointer to return hysteresis
+ * @param[out] pus pointer to return pull-up select
+ * @param[out] pke pointer to return pull keeper enable
+ * @param[out] pue pointer to return pull-up enable
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner,
+ * - SC_ERR_UNAVAILABLE if process not applicable
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_get_gp_28fdsoi_hsic(sc_ipc_t ipc, sc_pad_t pad,
+ sc_pad_28fdsoi_dse_t *dse, sc_bool_t *hys, sc_pad_28fdsoi_pus_t *pus,
+ sc_bool_t *pke, sc_bool_t *pue);
+
+/*!
+ * This function configures the compensation control specific to 28FDSOI.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to configure
+ * @param[in] compen compensation/freeze mode
+ * @param[in] fastfrz fast freeze
+ * @param[in] rasrcp compensation code for PMOS
+ * @param[in] rasrcn compensation code for NMOS
+ * @param[in] nasrc_sel NASRC read select
+ * @param[in] psw_ovr 2.5v override
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner,
+ * - SC_ERR_UNAVAILABLE if process not applicable
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ *
+ * Note \a psw_ovr is only applicable to pads supporting 2.5 volt
+ * operation (e.g. some Ethernet pads).
+ */
+sc_err_t sc_pad_set_gp_28fdsoi_comp(sc_ipc_t ipc, sc_pad_t pad,
+ uint8_t compen, sc_bool_t fastfrz, uint8_t rasrcp, uint8_t rasrcn,
+ sc_bool_t nasrc_sel, sc_bool_t psw_ovr);
+
+/*!
+ * This function gets the compensation control specific to 28FDSOI.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to query
+ * @param[out] compen pointer to return compensation/freeze mode
+ * @param[out] fastfrz pointer to return fast freeze
+ * @param[out] rasrcp pointer to return compensation code for PMOS
+ * @param[out] rasrcn pointer to return compensation code for NMOS
+ * @param[out] nasrc_sel pointer to return NASRC read select
+ * @param[out] compok pointer to return compensation status
+ * @param[out] nasrc pointer to return NASRCP/NASRCN
+ * @param[out] psw_ovr pointer to return the 2.5v override
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner,
+ * - SC_ERR_UNAVAILABLE if process not applicable
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+sc_err_t sc_pad_get_gp_28fdsoi_comp(sc_ipc_t ipc, sc_pad_t pad,
+ uint8_t *compen, sc_bool_t *fastfrz, uint8_t *rasrcp, uint8_t *rasrcn,
+ sc_bool_t *nasrc_sel, sc_bool_t *compok, uint8_t *nasrc, sc_bool_t *psw_ovr);
+
+/* @} */
+
+#endif /* SC_PAD_API_H */
+
+/**@}*/
+
diff --git a/arch/arm/include/asm/mach-imx/sci/svc/pm/api.h b/arch/arm/include/asm/mach-imx/sci/svc/pm/api.h
new file mode 100755
index 0000000000..3d8cb57f50
--- /dev/null
+++ b/arch/arm/include/asm/mach-imx/sci/svc/pm/api.h
@@ -0,0 +1,683 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file containing the public API for the System Controller (SC)
+ * Power Management (PM) function. This includes functions for power state
+ * control, clock control, reset control, and wake-up event control.
+ *
+ * @addtogroup PM_SVC (SVC) Power Management Service
+ *
+ * Module for the Power Management (PM) service.
+ *
+ * @{
+ */
+
+#ifndef SC_PM_API_H
+#define SC_PM_API_H
+
+/* Includes */
+
+#include <asm/mach-imx/sci/types.h>
+#include <asm/mach-imx/sci/svc/rm/api.h>
+
+/* Defines */
+
+/*!
+ * @name Defines for type widths
+ */
+/*@{*/
+#define SC_PM_POWER_MODE_W 2 /*!< Width of sc_pm_power_mode_t */
+#define SC_PM_CLOCK_MODE_W 3 /*!< Width of sc_pm_clock_mode_t */
+#define SC_PM_RESET_TYPE_W 2 /*!< Width of sc_pm_reset_type_t */
+#define SC_PM_RESET_REASON_W 3 /*!< Width of sc_pm_reset_reason_t */
+/*@}*/
+
+/*!
+ * @name Defines for clock indexes (sc_pm_clk_t)
+ */
+/*@{*/
+/*@}*/
+
+/*!
+ * @name Defines for ALL parameters
+ */
+/*@{*/
+#define SC_PM_CLK_ALL UINT8_MAX /*!< All clocks */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pm_power_mode_t
+ */
+/*@{*/
+#define SC_PM_PW_MODE_OFF 0U /*!< Power off */
+#define SC_PM_PW_MODE_STBY 1U /*!< Power in standby */
+#define SC_PM_PW_MODE_LP 2U /*!< Power in low-power */
+#define SC_PM_PW_MODE_ON 3U /*!< Power on */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pm_clk_t
+ */
+/*@{*/
+#define SC_PM_CLK_SLV_BUS 0U /*!< Slave bus clock */
+#define SC_PM_CLK_MST_BUS 1U /*!< Master bus clock */
+#define SC_PM_CLK_PER 2U /*!< Peripheral clock */
+#define SC_PM_CLK_PHY 3U /*!< Phy clock */
+#define SC_PM_CLK_MISC 4U /*!< Misc clock */
+#define SC_PM_CLK_MISC0 0U /*!< Misc 0 clock */
+#define SC_PM_CLK_MISC1 1U /*!< Misc 1 clock */
+#define SC_PM_CLK_MISC2 2U /*!< Misc 2 clock */
+#define SC_PM_CLK_MISC3 3U /*!< Misc 3 clock */
+#define SC_PM_CLK_MISC4 4U /*!< Misc 4 clock */
+#define SC_PM_CLK_CPU 2U /*!< CPU clock */
+#define SC_PM_CLK_PLL 4U /*!< PLL */
+#define SC_PM_CLK_BYPASS 4U /*!< Bypass clock */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pm_clk_mode_t
+ */
+/*@{*/
+#define SC_PM_CLK_MODE_ROM_INIT 0U /*!< Clock is initialized by ROM. */
+#define SC_PM_CLK_MODE_OFF 1U /*!< Clock is disabled */
+#define SC_PM_CLK_MODE_ON 2U /*!< Clock is enabled. */
+#define SC_PM_CLK_MODE_AUTOGATE_SW 3U /*!< Clock is in SW autogate mode */
+#define SC_PM_CLK_MODE_AUTOGATE_HW 4U /*!< Clock is in HW autogate mode */
+#define SC_PM_CLK_MODE_AUTOGATE_SW_HW 5U /*!< Clock is in SW-HW autogate mode */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pm_clk_parent_t
+ */
+/*@{*/
+#define SC_PM_PARENT_XTAL 0U /*!< Parent is XTAL. */
+#define SC_PM_PARENT_PLL0 1U /*!< Parent is PLL0 */
+#define SC_PM_PARENT_PLL1 2U /*!< Parent is PLL1 or PLL0/2 */
+#define SC_PM_PARENT_PLL2 3U /*!< Parent in PLL2 or PLL0/4 */
+#define SC_PM_PARENT_BYPS 4U /*!< Parent is a bypass clock. */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pm_reset_type_t
+ */
+/*@{*/
+#define SC_PM_RESET_TYPE_COLD 0U /*!< Cold reset */
+#define SC_PM_RESET_TYPE_WARM 1U /*!< Warm reset */
+#define SC_PM_RESET_TYPE_BOARD 2U /*!< Board reset */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pm_reset_cause_t
+ */
+/*@{*/
+#define SC_PM_RESET_CAUSE_TEMP 0U /*!< Reset due to temp panic alarm */
+#define SC_PM_RESET_CAUSE_FAULT 1U /*!< Reset due to fault exception */
+#define SC_PM_RESET_CAUSE_IRQ 2U /*!< Reset due to SCU reset IRQ */
+#define SC_PM_RESET_CAUSE_WDOG 3U /*!< Reset due to SW WDOG */
+#define SC_PM_RESET_CAUSE_API 4U /*!< Reset due to pm_reset() or monitor */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pm_reset_reason_t
+ */
+/*@{*/
+#define SC_PM_RESET_REASON_POR 0U /*!< Power on reset */
+#define SC_PM_RESET_REASON_WARM 1U /*!< Warm reset */
+#define SC_PM_RESET_REASON_SW 2U /*!< Software reset */
+#define SC_PM_RESET_REASON_WDOG 3U /*!< Watchdog reset */
+#define SC_PM_RESET_REASON_LOCKUP 4U /*!< Lockup reset */
+#define SC_PM_RESET_REASON_TAMPER 5U /*!< Tamper reset */
+#define SC_PM_RESET_REASON_TEMP 6U /*!< Temp reset */
+#define SC_PM_RESET_REASON_LOW_VOLT 7U /*!< Low voltage reset */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pm_sys_if_t
+ */
+/*@{*/
+#define SC_PM_SYS_IF_INTERCONNECT 0U /*!< System interconnect */
+#define SC_PM_SYS_IF_MU 1U /*!< AP -> SCU message units */
+#define SC_PM_SYS_IF_OCMEM 2U /*!< On-chip memory (ROM/OCRAM) */
+#define SC_PM_SYS_IF_DDR 3U /*!< DDR memory */
+/*@}*/
+
+/*!
+ * @name Defines for sc_pm_wake_src_t
+ */
+/*@{*/
+#define SC_PM_WAKE_SRC_NONE 0U /*!< No wake source, used for self-kill */
+#define SC_PM_WAKE_SRC_SCU 1U /*!< Wakeup from SCU to resume CPU (IRQSTEER & GIC powered down) */
+#define SC_PM_WAKE_SRC_IRQSTEER 2U /*!< Wakeup from IRQSTEER to resume CPU (GIC powered down) */
+#define SC_PM_WAKE_SRC_IRQSTEER_GIC 3U /*!< Wakeup from IRQSTEER+GIC to wake CPU (GIC clock gated) */
+#define SC_PM_WAKE_SRC_GIC 4U /*!< Wakeup from GIC to wake CPU */
+/*@}*/
+
+/* Types */
+
+/*!
+ * This type is used to declare a power mode. Note resources only use
+ * SC_PM_PW_MODE_OFF and SC_PM_PW_MODE_ON. The other modes are used only
+ * as system power modes.
+ */
+typedef uint8_t sc_pm_power_mode_t;
+
+/*!
+ * This type is used to declare a clock.
+ */
+typedef uint8_t sc_pm_clk_t;
+
+/*!
+ * This type is used to declare a clock mode.
+ */
+typedef uint8_t sc_pm_clk_mode_t;
+
+/*!
+ * This type is used to declare the clock parent.
+ */
+typedef uint8_t sc_pm_clk_parent_t;
+
+/*!
+ * This type is used to declare clock rates.
+ */
+typedef uint32_t sc_pm_clock_rate_t;
+
+/*!
+ * This type is used to declare a desired reset type.
+ */
+typedef uint8_t sc_pm_reset_type_t;
+
+/*!
+ * This type is used to declare a desired reset type.
+ */
+typedef uint8_t sc_pm_reset_cause;
+
+/*!
+ * This type is used to declare a reason for a reset.
+ */
+typedef uint8_t sc_pm_reset_reason_t;
+
+/*!
+ * This type is used to specify a system-level interface to be power managed.
+ */
+typedef uint8_t sc_pm_sys_if_t;
+
+/*!
+ * This type is used to specify a wake source for CPU resources.
+ */
+typedef uint8_t sc_pm_wake_src_t;
+
+/* Functions */
+
+/*!
+ * @name Power Functions
+ * @{
+ */
+
+/*!
+ * This function sets the system power mode. Only the owner of the
+ * SC_R_SYSTEM resource can do this.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] mode power mode to apply
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid mode,
+ * - SC_ERR_NOACCESS if caller not the owner of SC_R_SYSTEM
+ *
+ * @see sc_pm_set_sys_power_mode().
+ */
+sc_err_t sc_pm_set_sys_power_mode(sc_ipc_t ipc, sc_pm_power_mode_t mode);
+
+/*!
+ * This function sets the power mode of a partition.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt handle of partition
+ * @param[in] mode power mode to apply
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid partition or mode,
+ * - SC_ERR_NOACCESS if caller's partition is not the owner or
+ * parent of \a pt
+ *
+ * The power mode of the partitions is a max power any resource will
+ * be set to. Calling this will result in all resources owned
+ * by \a pt to have their power changed to the lower of \a mode or the
+ * individual resource mode set using sc_pm_set_resource_power_mode().
+ */
+sc_err_t sc_pm_set_partition_power_mode(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_pm_power_mode_t mode);
+
+/*!
+ * This function gets the power mode of a partition.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt handle of partition
+ * @param[out] mode pointer to return power mode
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid partition
+ */
+sc_err_t sc_pm_get_sys_power_mode(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_pm_power_mode_t *mode);
+
+/*!
+ * This function sets the power mode of a resource.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource ID of the resource
+ * @param[in] mode power mode to apply
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid resource or mode,
+ * - SC_ERR_NOACCESS if caller's partition is not the resource owner
+ * or parent of the owner
+ *
+ * This function will record the individual resource power mode
+ * and change it if the requested mode is lower than or equal to the
+ * partition power mode set with sc_pm_set_partition_power_mode().
+ * In other words, the power mode of the resource will be the minimum
+ * of the resource power mode and the partition power mode.
+ *
+ * Note some resources are still not accessible even when powered up if bus
+ * transactions go through a fabric not powered up. Examples of this are
+ * resources in display and capture subsystems which require the display
+ * controller or the imaging subsytem to be powered up first.
+ *
+ * Not that resources are grouped into power domains by the underlying
+ * hardware. If any resource in the domain is on, the entire power domain
+ * will be on. Other power domains required to access the resource will
+ * also be turned on. Clocks required to access the peripheral will be
+ * turned on. Refer to the SoC RM for more info on power domains and access
+ * infrastructure (bus fabrics, clock domains, etc.).
+ */
+sc_err_t sc_pm_set_resource_power_mode(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_power_mode_t mode);
+
+/*!
+ * This function gets the power mode of a resource.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource ID of the resource
+ * @param[out] mode pointer to return power mode
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Note only SC_PM_PW_MODE_OFF and SC_PM_PW_MODE_ON are valid. The value
+ * returned does not reflect the power mode of the partition..
+ */
+sc_err_t sc_pm_get_resource_power_mode(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_power_mode_t *mode);
+
+/*!
+ * This function requests the low power mode some of the resources
+ * can enter based on their state. This API is only valid for the
+ * following resources : SC_R_A53, SC_R_A53_0, SC_R_A53_1, SC_A53_2,
+ * SC_A53_3, SC_R_A72, SC_R_A72_0, SC_R_A72_1, SC_R_CC1, SC_R_A35,
+ * SC_R_A35_0, SC_R_A35_1, SC_R_A35_2, SC_R_A35_3.
+ * For all other resources it will return SC_ERR_PARAM.
+ * This function will set the low power mode the cores, cluster
+ * and cluster associated resources will enter when all the cores
+ * in a given cluster execute WFI
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource ID of the resource
+ * @param[in] mode power mode to apply
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ */
+sc_err_t sc_pm_req_low_power_mode(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_power_mode_t mode);
+
+/*!
+ * This function requests low-power mode entry for CPU/cluster
+ * resources. This API is only valid for the following resources:
+ * SC_R_A53, SC_R_A53_x, SC_R_A72, SC_R_A72_x, SC_R_A35, SC_R_A35_x,
+ * SC_R_CCI. For all other resources it will return SC_ERR_PARAM.
+ * For individual core resources, the specified power mode
+ * and wake source will be applied after the core has entered
+ * WFI. For cluster resources, the specified power mode is
+ * applied after all cores in the cluster have entered low-power mode.
+ * For multicluster resources, the specified power mode is applied
+ * after all clusters have reached low-power mode.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource ID of the resource
+ * @param[in] mode power mode to apply
+ * @param[in] wake_src wake source for low-power exit
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ */
+sc_err_t sc_pm_req_cpu_low_power_mode(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_power_mode_t mode, sc_pm_wake_src_t wake_src);
+
+/*!
+ * This function is used to set the resume address of a CPU.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource ID of the CPU resource
+ * @param[in] address 64-bit resume address
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid resource or address,
+ * - SC_ERR_NOACCESS if caller's partition is not the parent of the
+ * resource (CPU) owner
+ */
+sc_err_t sc_pm_set_cpu_resume_addr(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_faddr_t address);
+
+/*!
+ * This function is used to set parameters for CPU resume from
+ * low-power mode.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource ID of the CPU resource
+ * @param[in] isPrimary set SC_TRUE if primary wake CPU
+ * @param[in] address 64-bit resume address
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid resource or address,
+ * - SC_ERR_NOACCESS if caller's partition is not the parent of the
+ * resource (CPU) owner
+ */
+sc_err_t sc_pm_set_cpu_resume(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_bool_t isPrimary, sc_faddr_t address);
+
+/*!
+ * This function requests the power mode configuration for system-level
+ * interfaces including messaging units, interconnect, and memories. This API
+ * is only valid for the following resources : SC_R_A53, SC_R_A72, and
+ * SC_R_M4_x_PID_y. For all other resources, it will return SC_ERR_PARAM.
+ * The requested power mode will be captured and applied to system-level
+ * resources as system conditions allow.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource ID of the resource
+ * @param[in] sys_if system-level interface to be configured
+ * @param[in] hpm high-power mode for the system interface
+ * @param[in] lpm low-power mode for the system interface
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ */
+sc_err_t sc_pm_req_sys_if_power_mode(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_sys_if_t sys_if, sc_pm_power_mode_t hpm, sc_pm_power_mode_t lpm);
+
+/* @} */
+
+/*!
+ * @name Clock/PLL Functions
+ * @{
+ */
+
+/*!
+ * This function sets the rate of a resource's clock/PLL.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource ID of the resource
+ * @param[in] clk clock/PLL to affect
+ * @param[in,out] rate pointer to rate to set,
+ * return actual rate
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid resource or clock/PLL,
+ * - SC_ERR_NOACCESS if caller's partition is not the resource owner
+ * or parent of the owner,
+ * - SC_ERR_UNAVAILABLE if clock/PLL not applicable to this resource,
+ * - SC_ERR_LOCKED if rate locked (usually because shared clock/PLL)
+ *
+ * Refer to the [Clock List](@ref CLOCKS) for valid clock/PLL values.
+ */
+sc_err_t sc_pm_set_clock_rate(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_clk_t clk, sc_pm_clock_rate_t *rate);
+
+/*!
+ * This function gets the rate of a resource's clock/PLL.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource ID of the resource
+ * @param[in] clk clock/PLL to affect
+ * @param[out] rate pointer to return rate
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid resource or clock/PLL,
+ * - SC_ERR_NOACCESS if caller's partition is not the resource owner
+ * or parent of the owner,
+ * - SC_ERR_UNAVAILABLE if clock/PLL not applicable to this resource
+ *
+ * Refer to the [Clock List](@ref CLOCKS) for valid clock/PLL values.
+ */
+sc_err_t sc_pm_get_clock_rate(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_clk_t clk, sc_pm_clock_rate_t *rate);
+
+/*!
+ * This function enables/disables a resource's clock.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource ID of the resource
+ * @param[in] clk clock to affect
+ * @param[in] enable enable if SC_TRUE; otherwise disabled
+ * @param[in] autog HW auto clock gating
+ *
+ * If \a resource is SC_R_ALL then all resources owned will be affected.
+ * No error will be returned.
+ *
+ * If \a clk is SC_PM_CLK_ALL, then an error will be returned if any
+ * of the available clocks returns an error.
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid resource or clock,
+ * - SC_ERR_NOACCESS if caller's partition is not the resource owner
+ * or parent of the owner,
+ * - SC_ERR_UNAVAILABLE if clock not applicable to this resource
+ *
+ * Refer to the [Clock List](@ref CLOCKS) for valid clock values.
+ */
+sc_err_t sc_pm_clock_enable(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_clk_t clk, sc_bool_t enable, sc_bool_t autog);
+
+/*!
+ * This function sets the parent of a resource's clock.
+ * This function should only be called when the clock is disabled.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource ID of the resource
+ * @param[in] clk clock to affect
+ * @param[in] parent New parent of the clock.
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid resource or clock,
+ * - SC_ERR_NOACCESS if caller's partition is not the resource owner
+ * or parent of the owner,
+ * - SC_ERR_UNAVAILABLE if clock not applicable to this resource
+ * - SC_ERR_BUSY if clock is currently enabled.
+ * - SC_ERR_NOPOWER if resource not powered
+ *
+ * Refer to the [Clock List](@ref CLOCKS) for valid clock values.
+ */
+sc_err_t sc_pm_set_clock_parent(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_clk_t clk, sc_pm_clk_parent_t parent);
+
+/*!
+ * This function gets the parent of a resource's clock.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource ID of the resource
+ * @param[in] clk clock to affect
+ * @param[out] parent pointer to return parent of clock.
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid resource or clock,
+ * - SC_ERR_NOACCESS if caller's partition is not the resource owner
+ * or parent of the owner,
+ * - SC_ERR_UNAVAILABLE if clock not applicable to this resource
+ *
+ * Refer to the [Clock List](@ref CLOCKS) for valid clock values.
+ */
+sc_err_t sc_pm_get_clock_parent(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_clk_t clk, sc_pm_clk_parent_t *parent);
+
+/* @} */
+
+/*!
+ * @name Reset Functions
+ * @{
+ */
+
+/*!
+ * This function is used to reset the system. Only the owner of the
+ * SC_R_SYSTEM resource can do this.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] type reset type
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid type,
+ * - SC_ERR_NOACCESS if caller not the owner of SC_R_SYSTEM
+ *
+ * If this function returns, then the reset did not occur due to an
+ * invalid parameter.
+ */
+sc_err_t sc_pm_reset(sc_ipc_t ipc, sc_pm_reset_type_t type);
+
+/*!
+ * This function gets a caller's reset reason.
+ *
+ * @param[in] ipc IPC handle
+ * @param[out] reason pointer to return reset reason
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ */
+sc_err_t sc_pm_reset_reason(sc_ipc_t ipc, sc_pm_reset_reason_t *reason);
+
+/*!
+ * This function is used to boot a partition.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt handle of partition to boot
+ * @param[in] resource_cpu ID of the CPU resource to start
+ * @param[in] boot_addr 64-bit boot address
+ * @param[in] resource_mu ID of the MU that must be powered
+ * @param[in] resource_dev ID of the boot device that must be powered
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid partition, resource, or addr,
+ * - SC_ERR_NOACCESS if caller's partition is not the parent of the
+ * partition to boot
+ */
+sc_err_t sc_pm_boot(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_rsrc_t resource_cpu, sc_faddr_t boot_addr,
+ sc_rsrc_t resource_mu, sc_rsrc_t resource_dev);
+
+/*!
+ * This function is used to reboot the caller's partition.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] type reset type
+ *
+ * If \a type is SC_PM_RESET_TYPE_COLD, then most peripherals owned by
+ * the calling partition will be reset if possible. SC state (partitions,
+ * power, clocks, etc.) is reset. The boot SW of the booting CPU must be
+ * able to handle peripherals that that are not reset.
+ *
+ * If \a type is SC_PM_RESET_TYPE_WARM, then only the boot CPU is reset.
+ * SC state (partitions, power, clocks, etc.) are NOT reset. The boot SW
+ * of the booting CPU must be able to handle peripherals and SC state that
+ * that are not reset.
+ *
+ * If \a type is SC_PM_RESET_TYPE_BOARD, then return with no action.
+ *
+ * If this function returns, then the reset did not occur due to an
+ * invalid parameter.
+ */
+void sc_pm_reboot(sc_ipc_t ipc, sc_pm_reset_type_t type);
+
+/*!
+ * This function is used to reboot a partition.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt handle of partition to reboot
+ * @param[in] type reset type
+ *
+ * If \a type is SC_PM_RESET_TYPE_COLD, then most peripherals owned by
+ * the calling partition will be reset if possible. SC state (partitions,
+ * power, clocks, etc.) is reset. The boot SW of the booting CPU must be
+ * able to handle peripherals that that are not reset.
+ *
+ * If \a type is SC_PM_RESET_TYPE_WARM, then only the boot CPU is reset.
+ * SC state (partitions, power, clocks, etc.) are NOT reset. The boot SW
+ * of the booting CPU must be able to handle peripherals and SC state that
+ * that are not reset.
+ *
+ * If \a type is SC_PM_RESET_TYPE_BOARD, then return with no action.
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid partition or type
+ * - SC_ERR_NOACCESS if caller's partition is not the parent of \a pt,
+ *
+ * Most peripherals owned by the partition will be reset if
+ * possible. SC state (partitions, power, clocks, etc.) is reset. The
+ * boot SW of the booting CPU must be able to handle peripherals that
+ * that are not reset.
+ */
+sc_err_t sc_pm_reboot_partition(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_pm_reset_type_t type);
+
+/*!
+ * This function is used to start/stop a CPU.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource ID of the CPU resource
+ * @param[in] enable start if SC_TRUE; otherwise stop
+ * @param[in] address 64-bit boot address
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid resource or address,
+ * - SC_ERR_NOACCESS if caller's partition is not the parent of the
+ * resource (CPU) owner
+ */
+sc_err_t sc_pm_cpu_start(sc_ipc_t ipc, sc_rsrc_t resource, sc_bool_t enable,
+ sc_faddr_t address);
+
+/* @} */
+
+#endif /* SC_PM_API_H */
+
+/**@}*/
+
diff --git a/arch/arm/include/asm/mach-imx/sci/svc/rm/api.h b/arch/arm/include/asm/mach-imx/sci/svc/rm/api.h
new file mode 100755
index 0000000000..f916c04e6f
--- /dev/null
+++ b/arch/arm/include/asm/mach-imx/sci/svc/rm/api.h
@@ -0,0 +1,759 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file containing the public API for the System Controller (SC)
+ * Resource Management (RM) function. This includes functions for
+ * partitioning resources, pads, and memory regions.
+ *
+ * @addtogroup RM_SVC (SVC) Resource Management Service
+ *
+ * Module for the Resource Management (RM) service.
+ *
+ * @includedoc rm/details.dox
+ *
+ * @{
+ */
+
+#ifndef SC_RM_API_H
+#define SC_RM_API_H
+
+/* Includes */
+
+#include <asm/mach-imx/sci/types.h>
+
+/* Defines */
+
+/*!
+ * @name Defines for type widths
+ */
+/*@{*/
+#define SC_RM_PARTITION_W 5 /*!< Width of sc_rm_pt_t */
+#define SC_RM_MEMREG_W 6 /*!< Width of sc_rm_mr_t */
+#define SC_RM_DID_W 4 /*!< Width of sc_rm_did_t */
+#define SC_RM_SID_W 6 /*!< Width of sc_rm_sid_t */
+#define SC_RM_SPA_W 2 /*!< Width of sc_rm_spa_t */
+#define SC_RM_PERM_W 3 /*!< Width of sc_rm_perm_t */
+/*@}*/
+
+/*!
+ * @name Defines for ALL parameters
+ */
+/*@{*/
+#define SC_RM_PT_ALL ((sc_rm_pt_t) UINT8_MAX) /*!< All partitions */
+#define SC_RM_MR_ALL ((sc_rm_mr_t) UINT8_MAX) /*!< All memory regions */
+/*@}*/
+
+/*!
+ * @name Defines for sc_rm_spa_t
+ */
+/*@{*/
+#define SC_RM_SPA_PASSTHRU 0U /*!< Pass through (attribute driven by master) */
+#define SC_RM_SPA_PASSSID 1U /*!< Pass through and output on SID */
+#define SC_RM_SPA_ASSERT 2U /*!< Assert (force to be secure/privileged) */
+#define SC_RM_SPA_NEGATE 3U /*!< Negate (force to be non-secure/user) */
+/*@}*/
+
+/*!
+ * @name Defines for sc_rm_perm_t
+ */
+/*@{*/
+#define SC_RM_PERM_NONE 0U /*!< No access */
+#define SC_RM_PERM_SEC_R 1U /*!< Secure RO */
+#define SC_RM_PERM_SECPRIV_RW 2U /*!< Secure privilege R/W */
+#define SC_RM_PERM_SEC_RW 3U /*!< Secure R/W */
+#define SC_RM_PERM_NSPRIV_R 4U /*!< Secure R/W, non-secure privilege RO */
+#define SC_RM_PERM_NS_R 5U /*!< Secure R/W, non-secure RO */
+#define SC_RM_PERM_NSPRIV_RW 6U /*!< Secure R/W, non-secure privilege R/W */
+#define SC_RM_PERM_FULL 7U /*!< Full access */
+/*@}*/
+
+/* Types */
+
+/*!
+ * This type is used to declare a resource partition.
+ */
+typedef uint8_t sc_rm_pt_t;
+
+/*!
+ * This type is used to declare a memory region.
+ */
+typedef uint8_t sc_rm_mr_t;
+
+/*!
+ * This type is used to declare a resource domain ID used by the
+ * isolation HW.
+ */
+typedef uint8_t sc_rm_did_t;
+
+/*!
+ * This type is used to declare an SMMU StreamID.
+ */
+typedef uint16_t sc_rm_sid_t;
+
+/*!
+ * This type is a used to declare master transaction attributes.
+ */
+typedef uint8_t sc_rm_spa_t;
+
+/*!
+ * This type is used to declare a resource/memory region access permission.
+ * Refer to the XRDC2 Block Guide for more information.
+ */
+typedef uint8_t sc_rm_perm_t;
+
+/* Functions */
+
+/*!
+ * @name Partition Functions
+ * @{
+ */
+
+/*!
+ * This function requests that the SC create a new resource partition.
+ *
+ * @param[in] ipc IPC handle
+ * @param[out] pt return handle for partition; used for subsequent function
+ * calls associated with this partition
+ * @param[in] secure boolean indicating if this partition should be secure; only
+ * valid if caller is secure
+ * @param[in] isolated boolean indicating if this partition should be HW isolated
+ * via XRDC; set SC_TRUE if new DID is desired
+ * @param[in] restricted boolean indicating if this partition should be restricted; set
+ * SC_TRUE if masters in this partition cannot create new partitions
+ * @param[in] grant boolean indicating if this partition should always grant
+ * access and control to the parent
+ * @param[in] coherent boolean indicating if this partition is coherent;
+ * set SC_TRUE if only this partition will contain both AP clusters
+ * and they will be coherent via the CCI
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_NOACCESS if caller's partition is restricted,
+ * - SC_ERR_PARM if caller's partition is not secure but a new secure partition is requested,
+ * - SC_ERR_LOCKED if caller's partition is locked,
+ * - SC_ERR_UNAVAILABLE if partition table is full (no more allocation space)
+ *
+ * Marking as non-secure prevents subsequent functions from configuring masters in this
+ * partition to assert the secure signal. If restricted then the new partition is limited
+ * in what functions it can call, especially those associated with managing partitions.
+ *
+ * The grant option is usually used to isolate a bus master's traffic to specific
+ * memory without isolating the peripheral interface of the master or the API
+ * controls of that master.
+ */
+sc_err_t sc_rm_partition_alloc(sc_ipc_t ipc, sc_rm_pt_t *pt, sc_bool_t secure,
+ sc_bool_t isolated, sc_bool_t restricted, sc_bool_t grant, sc_bool_t coherent);
+
+/*!
+ * This function makes a partition confidential.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt handle of partition that is granting
+ * @param[in] retro retroactive
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if \a pt out of range,
+ * - SC_ERR_NOACCESS if caller's not allowed to change \a pt
+ * - SC_ERR_LOCKED if partition \a pt is locked
+ *
+ * Call to make a partition confidential. Confidential means only this
+ * partition should be able to grant access permissions to this partition.
+ *
+ * If retroactive, then all resources owned by other partitions will have
+ * access rights for this partition removed, even if locked.
+ */
+sc_err_t sc_rm_set_confidential(sc_ipc_t ipc, sc_rm_pt_t pt, sc_bool_t retro);
+
+/*!
+ * This function frees a partition and assigns all resources to the caller.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt handle of partition to free
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_NOACCESS if caller's partition is restricted,
+ * - SC_PARM if \a pt out of range or invalid,
+ * - SC_ERR_NOACCESS if \a pt is the SC partition,
+ * - SC_ERR_NOACCESS if caller's partition is not the parent of \a pt,
+ * - SC_ERR_LOCKED if \a pt or caller's partition is locked
+ *
+ * All resources, memory regions, and pads are assigned to the caller/parent.
+ * The partition watchdog is disabled (even if locked). DID is freed.
+ */
+sc_err_t sc_rm_partition_free(sc_ipc_t ipc, sc_rm_pt_t pt);
+
+/*!
+ * This function returns the DID of a partition.
+ *
+ * @param[in] ipc IPC handle
+ *
+ * @return Returns the domain ID (DID) of the caller's partition.
+ *
+ * The DID is a SoC-specific internal ID used by the HW resource
+ * protection mechanism. It is only required by clients when using the
+ * SEMA42 module as the DID is sometimes connected to the master ID.
+ */
+sc_rm_did_t sc_rm_get_did(sc_ipc_t ipc);
+
+/*!
+ * This function forces a partition to use a specific static DID.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt handle of partition to assign \a did
+ * @param[in] did static DID to assign
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_NOACCESS if caller's partition is restricted,
+ * - SC_PARM if \a pt or \a did out of range,
+ * - SC_ERR_NOACCESS if caller's partition is not the parent of \a pt,
+ * - SC_ERR_LOCKED if \a pt is locked
+ *
+ * Assumes no assigned resources or memory regions yet! The number of static
+ * DID is fixed by the SC at boot.
+ */
+sc_err_t sc_rm_partition_static(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_rm_did_t did);
+
+/*!
+ * This function locks a partition.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt handle of partition to lock
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if \a pt out of range,
+ * - SC_ERR_NOACCESS if caller's partition is not the parent of \a pt
+ *
+ * If a partition is locked it cannot be freed, have resources/pads assigned
+ * to/from it, memory regions created/assigned, DID changed, or parent changed.
+ */
+sc_err_t sc_rm_partition_lock(sc_ipc_t ipc, sc_rm_pt_t pt);
+
+/*!
+ * This function gets the partition handle of the caller.
+ *
+ * @param[in] ipc IPC handle
+ * @param[out] pt return handle for caller's partition
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ */
+sc_err_t sc_rm_get_partition(sc_ipc_t ipc, sc_rm_pt_t *pt);
+
+/*!
+ * This function sets a new parent for a partition.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt handle of partition for which parent is to be
+ * changed
+ * @param[in] pt_parent handle of partition to set as parent
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_NOACCESS if caller's partition is restricted,
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the parent of \a pt,
+ * - SC_ERR_LOCKED if either partition is locked
+ */
+sc_err_t sc_rm_set_parent(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_rm_pt_t pt_parent);
+
+/*!
+ * This function moves all movable resources/pads owned by a source partition
+ * to a destination partition. It can be used to more quickly set up a new
+ * partition if a majority of the caller's resources are to be moved to a
+ * new partition.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt_src handle of partition from which resources should
+ * be moved from
+ * @param[in] pt_dst handle of partition to which resources should be
+ * moved to
+ * @param[in] move_rsrc boolean to indicate if resources should be moved
+ * @param[in] move_pads boolean to indicate if pads should be moved
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * By default, all resources are movable. This can be changed using the
+ * sc_rm_set_resource_movable() function. Note all masters defaulted to SMMU
+ * bypass.
+ *
+ * Return errors:
+ * - SC_ERR_NOACCESS if caller's partition is restricted,
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not \a pt_src or the
+ * parent of \a pt_src,
+ * - SC_ERR_LOCKED if either partition is locked
+ */
+sc_err_t sc_rm_move_all(sc_ipc_t ipc, sc_rm_pt_t pt_src, sc_rm_pt_t pt_dst,
+ sc_bool_t move_rsrc, sc_bool_t move_pads);
+
+/* @} */
+
+/*!
+ * @name Resource Functions
+ * @{
+ */
+
+/*!
+ * This function assigns ownership of a resource to a partition.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt handle of partition to which resource should be
+ * assigned
+ * @param[in] resource resource to assign
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * This action resets the resource's master and peripheral attributes.
+ * Privilege attribute will be PASSTHRU, security attribute will be
+ * ASSERT if the partition si secure and NEGATE if it is not, and
+ * masters will defaulted to SMMU bypass. Access permissions will reset
+ * to SEC_RW for the owning partition only for secure partitions, FULL for
+ * non-secure. DEfault is no access by other partitions.
+ *
+ * Return errors:
+ * - SC_ERR_NOACCESS if caller's partition is restricted,
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the resource owner or parent
+ * of the owner,
+ * - SC_ERR_LOCKED if the owning partition or \a pt is locked
+ */
+sc_err_t sc_rm_assign_resource(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_rsrc_t resource);
+
+/*!
+ * This function flags resources as movable or not.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource_fst first resource for which flag should be set
+ * @param[in] resource_lst last resource for which flag should be set
+ * @param[in] movable movable flag (SC_TRUE is movable)
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if resources are out of range,
+ * - SC_ERR_NOACCESS if caller's partition is not a parent of a resource owner,
+ * - SC_ERR_LOCKED if the owning partition is locked
+ *
+ * This function is used to determine the set of resources that will be
+ * moved using the sc_rm_move_all() function. All resources are movable
+ * by default so this function is normally used to prevent a set of
+ * resources from moving.
+ */
+sc_err_t sc_rm_set_resource_movable(sc_ipc_t ipc, sc_rsrc_t resource_fst,
+ sc_rsrc_t resource_lst, sc_bool_t movable);
+
+/*!
+ * This function flags all of a subsystem's resources as movable
+ * or not.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource resource to use to identify subsystem
+ * @param[in] movable movable flag (SC_TRUE is movable)
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if a function argument is out of range
+ *
+ * Note \a resource is used to find the associated subsystem. Only
+ * resources owned by the caller are set.
+ */
+sc_err_t sc_rm_set_subsys_rsrc_movable(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_bool_t movable);
+
+/*!
+ * This function sets attributes for a resource which is a bus master (i.e.
+ * capable of DMA).
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource master resource for which attributes should apply
+ * @param[in] sa security attribute
+ * @param[in] pa privilege attribute
+ * @param[in] smmu_bypass SMMU bypass mode
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_NOACCESS if caller's partition is restricted,
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not a parent of the resource owner,
+ * - SC_ERR_LOCKED if the owning partition is locked
+ *
+ * This function configures how the HW isolation will see bus transactions
+ * from the specified master. Note the security attribute will only be
+ * changed if the caller's partition is secure.
+ */
+sc_err_t sc_rm_set_master_attributes(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_rm_spa_t sa, sc_rm_spa_t pa, sc_bool_t smmu_bypass);
+
+/*!
+ * This function sets the StreamID for a resource which is a bus master (i.e.
+ * capable of DMA).
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource master resource for which attributes should apply
+ * @param[in] sid StreamID
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_NOACCESS if caller's partition is restricted,
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the resource owner or parent
+ * of the owner,
+ * - SC_ERR_LOCKED if the owning partition is locked
+ *
+ * This function configures the SID attribute associated with all bus transactions
+ * from this master. Note 0 is not a valid SID as it is reserved to indicate
+ * bypass.
+ */
+sc_err_t sc_rm_set_master_sid(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_rm_sid_t sid);
+
+/*!
+ * This function sets access permissions for a peripheral resource.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource peripheral resource for which permissions should apply
+ * @param[in] pt handle of partition \a perm should by applied for
+ * @param[in] perm permissions to apply to \a resource for \a pt
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the resource owner or parent
+ * of the owner,
+ * - SC_ERR_LOCKED if the owning partition is locked
+ * - SC_ERR_LOCKED if the \a pt is confidential and the caller isn't \a pt
+ *
+ * This function configures how the HW isolation will restrict access to a
+ * peripheral based on the attributes of a transaction from bus master.
+ */
+sc_err_t sc_rm_set_peripheral_permissions(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_rm_pt_t pt, sc_rm_perm_t perm);
+
+/*!
+ * This function gets ownership status of a resource.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource resource to check
+ *
+ * @return Returns a boolean (SC_TRUE if caller's partition owns the resource).
+ *
+ * If \a resource is out of range then SC_FALSE is returned.
+ */
+sc_bool_t sc_rm_is_resource_owned(sc_ipc_t ipc, sc_rsrc_t resource);
+
+/*!
+ * This function is used to test if a resource is a bus master.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource resource to check
+ *
+ * @return Returns a boolean (SC_TRUE if the resource is a bus master).
+ *
+ * If \a resource is out of range then SC_FALSE is returned.
+ */
+sc_bool_t sc_rm_is_resource_master(sc_ipc_t ipc, sc_rsrc_t resource);
+
+/*!
+ * This function is used to test if a resource is a peripheral.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource resource to check
+ *
+ * @return Returns a boolean (SC_TRUE if the resource is a peripheral).
+ *
+ * If \a resource is out of range then SC_FALSE is returned.
+ */
+sc_bool_t sc_rm_is_resource_peripheral(sc_ipc_t ipc, sc_rsrc_t resource);
+
+/*!
+ * This function is used to obtain info about a resource.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] resource resource to inquire about
+ * @param[out] sid pointer to return StreamID
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if \a resource is out of range
+ */
+sc_err_t sc_rm_get_resource_info(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_rm_sid_t *sid);
+
+/* @} */
+
+/*!
+ * @name Memory Region Functions
+ * @{
+ */
+
+/*!
+ * This function requests that the SC create a new memory region.
+ *
+ * @param[in] ipc IPC handle
+ * @param[out] mr return handle for region; used for
+ * subsequent function calls
+ * associated with this region
+ * @param[in] addr_start start address of region (physical)
+ * @param[in] addr_end end address of region (physical)
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if the new memory region is misaligned,
+ * - SC_ERR_LOCKED if caller's partition is locked,
+ * - SC_ERR_PARM if the new memory region spans multiple existing regions,
+ * - SC_ERR_NOACCESS if caller's partition does not own the memory containing
+ * the new region,
+ * - SC_ERR_UNAVAILABLE if memory region table is full (no more allocation
+ * space)
+ *
+ * The area covered by the memory region must currently be owned by the caller.
+ * By default, the new region will have access permission set to allow the
+ * caller to access.
+ */
+sc_err_t sc_rm_memreg_alloc(sc_ipc_t ipc, sc_rm_mr_t *mr,
+ sc_faddr_t addr_start, sc_faddr_t addr_end);
+
+/*!
+ * This function requests that the SC split a memory region.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] mr handle of memory region to split
+ * @param[out] mr_ret return handle for new region; used for
+ * subsequent function calls
+ * associated with this region
+ * @param[in] addr_start start address of region (physical)
+ * @param[in] addr_end end address of region (physical)
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if the new memory region is not start/end part of mr,
+ * - SC_ERR_LOCKED if caller's partition is locked,
+ * - SC_ERR_PARM if the new memory region spans multiple existing regions,
+ * - SC_ERR_NOACCESS if caller's partition does not own the memory containing
+ * the new region,
+ * - SC_ERR_UNAVAILABLE if memory region table is full (no more allocation
+ * space)
+ *
+ * Note the new region must start or end on the split region.
+ */
+sc_err_t sc_rm_memreg_split(sc_ipc_t ipc, sc_rm_mr_t mr,
+ sc_rm_mr_t *mr_ret, sc_faddr_t addr_start, sc_faddr_t addr_end);
+
+/*!
+ * This function frees a memory region.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] mr handle of memory region to free
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if \a mr out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not a parent of \a mr,
+ * - SC_ERR_LOCKED if the owning partition of \a mr is locked
+ */
+sc_err_t sc_rm_memreg_free(sc_ipc_t ipc, sc_rm_mr_t mr);
+
+/*!
+ * Internal SC function to find a memory region.
+ *
+ * @see sc_rm_find_memreg().
+ */
+/*!
+ * This function finds a memory region.
+ *
+ * @param[in] ipc IPC handle
+ * @param[out] mr return handle for region; used for
+ * subsequent function calls
+ * associated with this region
+ * @param[in] addr_start start address of region to search for
+ * @param[in] addr_end end address of region to search for
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_NOTFOUND if region not found,
+ *
+ * Searches only for regions owned by the caller. Finds first
+ * region containing the range specified.
+ */
+sc_err_t sc_rm_find_memreg(sc_ipc_t ipc, sc_rm_mr_t *mr,
+ sc_faddr_t addr_start, sc_faddr_t addr_end);
+
+/*!
+ * This function assigns ownership of a memory region.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt handle of partition to which memory region
+ * should be assigned
+ * @param[in] mr handle of memory region to assign
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the \a mr owner or parent
+ * of the owner,
+ * - SC_ERR_LOCKED if the owning partition or \a pt is locked
+ */
+sc_err_t sc_rm_assign_memreg(sc_ipc_t ipc, sc_rm_pt_t pt, sc_rm_mr_t mr);
+
+/*!
+ * This function sets access permissions for a memory region.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] mr handle of memory region for which permissions
+ * should apply
+ * @param[in] pt handle of partition \a perm should by
+ * applied for
+ * @param[in] perm permissions to apply to \a mr for \a pt
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the region owner or parent
+ * of the owner,
+ * - SC_ERR_LOCKED if the owning partition is locked
+ * - SC_ERR_LOCKED if the \a pt is confidential and the caller isn't \a pt
+ *
+ * This function configures how the HW isolation will restrict access to a
+ * memory region based on the attributes of a transaction from bus master.
+ */
+sc_err_t sc_rm_set_memreg_permissions(sc_ipc_t ipc, sc_rm_mr_t mr,
+ sc_rm_pt_t pt, sc_rm_perm_t perm);
+
+/*!
+ * This function gets ownership status of a memory region.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] mr handle of memory region to check
+ *
+ * @return Returns a boolean (SC_TRUE if caller's partition owns the
+ * memory region).
+ *
+ * If \a mr is out of range then SC_FALSE is returned.
+ */
+sc_bool_t sc_rm_is_memreg_owned(sc_ipc_t ipc, sc_rm_mr_t mr);
+
+/*!
+ * This function is used to obtain info about a memory region.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] mr handle of memory region to inquire about
+ * @param[out] addr_start pointer to return start address
+ * @param[out] addr_end pointer to return end address
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if \a mr is out of range
+ */
+sc_err_t sc_rm_get_memreg_info(sc_ipc_t ipc, sc_rm_mr_t mr,
+ sc_faddr_t *addr_start, sc_faddr_t *addr_end);
+
+/* @} */
+
+/*!
+ * @name Pad Functions
+ * @{
+ */
+
+/*!
+ * This function assigns ownership of a pad to a partition.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt handle of partition to which pad should
+ * be assigned
+ * @param[in] pad pad to assign
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_NOACCESS if caller's partition is restricted,
+ * - SC_PARM if arguments out of range or invalid,
+ * - SC_ERR_NOACCESS if caller's partition is not the pad owner or parent
+ * of the owner,
+ * - SC_ERR_LOCKED if the owning partition or \a pt is locked
+ */
+sc_err_t sc_rm_assign_pad(sc_ipc_t ipc, sc_rm_pt_t pt, sc_pad_t pad);
+
+/*!
+ * This function flags pads as movable or not.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad_fst first pad for which flag should be set
+ * @param[in] pad_lst last pad for which flag should be set
+ * @param[in] movable movable flag (SC_TRUE is movable)
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_PARM if pads are out of range,
+ * - SC_ERR_NOACCESS if caller's partition is not a parent of a pad owner,
+ * - SC_ERR_LOCKED if the owning partition is locked
+ *
+ * This function is used to determine the set of pads that will be
+ * moved using the sc_rm_move_all() function. All pads are movable
+ * by default so this function is normally used to prevent a set of
+ * pads from moving.
+ */
+sc_err_t sc_rm_set_pad_movable(sc_ipc_t ipc, sc_pad_t pad_fst,
+ sc_pad_t pad_lst, sc_bool_t movable);
+
+/*!
+ * This function gets ownership status of a pad.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pad pad to check
+ *
+ * @return Returns a boolean (SC_TRUE if caller's partition owns the pad).
+ *
+ * If \a pad is out of range then SC_FALSE is returned.
+ */
+sc_bool_t sc_rm_is_pad_owned(sc_ipc_t ipc, sc_pad_t pad);
+
+/* @} */
+
+/*!
+ * @name Debug Functions
+ * @{
+ */
+
+/*!
+ * This function dumps the RM state for debug.
+ *
+ * @param[in] ipc IPC handle
+ */
+void sc_rm_dump(sc_ipc_t ipc);
+
+/* @} */
+
+#endif /* SC_RM_API_H */
+
+/**@}*/
+
diff --git a/arch/arm/include/asm/mach-imx/sci/svc/timer/api.h b/arch/arm/include/asm/mach-imx/sci/svc/timer/api.h
new file mode 100755
index 0000000000..2af17dd120
--- /dev/null
+++ b/arch/arm/include/asm/mach-imx/sci/svc/timer/api.h
@@ -0,0 +1,306 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file containing the public API for the System Controller (SC)
+ * Timer function.
+ *
+ * @addtogroup TIMER_SVC (SVC) Timer Service
+ *
+ * Module for the Timer service. This includes support for the watchdog, RTC,
+ * and system counter. Note every resource partition has a watchdog it can
+ * use.
+ *
+ * @{
+ */
+
+#ifndef SC_TIMER_API_H
+#define SC_TIMER_API_H
+
+/* Includes */
+
+#include <asm/mach-imx/sci/types.h>
+#include <asm/mach-imx/sci/svc/rm/api.h>
+
+/* Defines */
+
+/*!
+ * @name Defines for type widths
+ */
+/*@{*/
+#define SC_TIMER_ACTION_W 3 /*!< Width of sc_timer_wdog_action_t */
+/*@}*/
+
+/*!
+ * @name Defines for sc_timer_wdog_action_t
+ */
+/*@{*/
+#define SC_TIMER_WDOG_ACTION_PARTITION 0U /*!< Reset partition */
+#define SC_TIMER_WDOG_ACTION_WARM 1U /*!< Warm reset system */
+#define SC_TIMER_WDOG_ACTION_COLD 2U /*!< Cold reset system */
+#define SC_TIMER_WDOG_ACTION_BOARD 3U /*!< Reset board */
+#define SC_TIMER_WDOG_ACTION_IRQ 4U /*!< Only generate IRQs */
+/*@}*/
+
+/* Types */
+
+/*!
+ * This type is used to configure the watchdog action.
+ */
+typedef uint8_t sc_timer_wdog_action_t;
+
+/*!
+ * This type is used to declare a watchdog time value in milliseconds.
+ */
+typedef uint32_t sc_timer_wdog_time_t;
+
+/* Functions */
+
+/*!
+ * @name Wathdog Functions
+ * @{
+ */
+
+/*!
+ * This function sets the watchdog timeout in milliseconds. If not
+ * set then the timeout defaults to the max. Once locked this value
+ * cannot be changed.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] timeout timeout period for the watchdog
+ *
+ * @return Returns an error code (SC_ERR_NONE = success, SC_ERR_LOCKED
+ * = locked).
+ */
+sc_err_t sc_timer_set_wdog_timeout(sc_ipc_t ipc,
+ sc_timer_wdog_time_t timeout);
+
+/*!
+ * This function sets the watchdog pre-timeout in milliseconds. If not
+ * set then the pre-timeout defaults to the max. Once locked this value
+ * cannot be changed.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pre_timeout pre-timeout period for the watchdog
+ *
+ * When the pre-timout expires an IRQ will be generated. Note this timeout
+ * clears when the IRQ is triggered. An IRQ is generated for the failing
+ * partition and all of its child partitions.
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ */
+sc_err_t sc_timer_set_wdog_pre_timeout(sc_ipc_t ipc,
+ sc_timer_wdog_time_t pre_timeout);
+
+/*!
+ * This function starts the watchdog.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] lock boolean indicating the lock status
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * If \a lock is set then the watchdog cannot be stopped or the timeout
+ * period changed.
+ */
+sc_err_t sc_timer_start_wdog(sc_ipc_t ipc, sc_bool_t lock);
+
+/*!
+ * This function stops the watchdog if it is not locked.
+ *
+ * @param[in] ipc IPC handle
+ *
+ * @return Returns an error code (SC_ERR_NONE = success, SC_ERR_LOCKED
+ * = locked).
+ */
+sc_err_t sc_timer_stop_wdog(sc_ipc_t ipc);
+
+/*!
+ * This function pings (services, kicks) the watchdog resetting the time
+ * before expiration back to the timeout.
+ *
+ * @param[in] ipc IPC handle
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ */
+sc_err_t sc_timer_ping_wdog(sc_ipc_t ipc);
+
+/*!
+ * This function gets the status of the watchdog. All arguments are
+ * in milliseconds.
+ *
+ * @param[in] ipc IPC handle
+ * @param[out] timeout pointer to return the timeout
+ * @param[out] max_timeout pointer to return the max timeout
+ * @param[out] remaining_time pointer to return the time remaining
+ * until trigger
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ */
+sc_err_t sc_timer_get_wdog_status(sc_ipc_t ipc,
+ sc_timer_wdog_time_t *timeout, sc_timer_wdog_time_t *max_timeout,
+ sc_timer_wdog_time_t *remaining_time);
+
+/*!
+ * This function gets the status of the watchdog of a partition. All
+ * arguments are in milliseconds.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt partition to query
+ * @param[out] enb pointer to return enable status
+ * @param[out] timeout pointer to return the timeout
+ * @param[out] remaining_time pointer to return the time remaining
+ * until trigger
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ */
+sc_err_t sc_timer_pt_get_wdog_status(sc_ipc_t ipc, sc_rm_pt_t pt, sc_bool_t *enb,
+ sc_timer_wdog_time_t *timeout, sc_timer_wdog_time_t *remaining_time);
+
+/*!
+ * This function configures the action to be taken when a watchdog
+ * expires.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] pt partition to affect
+ * @param[in] action action to take
+ *
+ * Default action is inherited from the parent.
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid parameters,
+ * - SC_ERR_NOACCESS if caller's partition is not the SYSTEM owner,
+ * - SC_ERR_LOCKED if the watchdog is locked
+ */
+sc_err_t sc_timer_set_wdog_action(sc_ipc_t ipc,
+ sc_rm_pt_t pt, sc_timer_wdog_action_t action);
+
+/* @} */
+
+/*!
+ * @name Real-Time Clock (RTC) Functions
+ * @{
+ */
+
+/*!
+ * This function sets the RTC time. Only the owner of the SC_R_SYSTEM
+ * resource can set the time.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] year year (min 1970)
+ * @param[in] mon month (1-12)
+ * @param[in] day day of the month (1-31)
+ * @param[in] hour hour (0-23)
+ * @param[in] min minute (0-59)
+ * @param[in] sec second (0-59)
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid time/date parameters,
+ * - SC_ERR_NOACCESS if caller's partition is not the SYSTEM owner
+ */
+sc_err_t sc_timer_set_rtc_time(sc_ipc_t ipc, uint16_t year, uint8_t mon,
+ uint8_t day, uint8_t hour, uint8_t min, uint8_t sec);
+
+/*!
+ * This function gets the RTC time.
+ *
+ * @param[in] ipc IPC handle
+ * @param[out] year pointer to return year (min 1970)
+ * @param[out] mon pointer to return month (1-12)
+ * @param[out] day pointer to return day of the month (1-31)
+ * @param[out] hour pointer to return hour (0-23)
+ * @param[out] min pointer to return minute (0-59)
+ * @param[out] sec pointer to return second (0-59)
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ */
+sc_err_t sc_timer_get_rtc_time(sc_ipc_t ipc, uint16_t *year, uint8_t *mon,
+ uint8_t *day, uint8_t *hour, uint8_t *min, uint8_t *sec);
+
+/*!
+ * This function gets the RTC time in seconds since 1/1/1970.
+ *
+ * @param[in] ipc IPC handle
+ * @param[out] sec pointer to return second
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ */
+sc_err_t sc_timer_get_rtc_sec1970(sc_ipc_t ipc, uint32_t *sec);
+
+/*!
+ * This function sets the RTC alarm.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] year year (min 1970)
+ * @param[in] mon month (1-12)
+ * @param[in] day day of the month (1-31)
+ * @param[in] hour hour (0-23)
+ * @param[in] min minute (0-59)
+ * @param[in] sec second (0-59)
+ *
+ * Note this alarm setting clears when the alarm is triggered.
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid time/date parameters
+ */
+sc_err_t sc_timer_set_rtc_alarm(sc_ipc_t ipc, uint16_t year, uint8_t mon,
+ uint8_t day, uint8_t hour, uint8_t min, uint8_t sec);
+
+/*!
+ * This function sets the RTC alarm.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] sec period in seconds
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid time/date parameters
+ */
+sc_err_t sc_timer_set_rtc_periodic_alarm(sc_ipc_t ipc, uint32_t sec);
+
+/*!
+ * This function sets the RTC alarm.
+ *
+ * @param[in] ipc IPC handle
+ *
+ * Note this alarm setting clears when the alarm is triggered.
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ *
+ * Return errors:
+ * - SC_ERR_PARM if invalid time/date parameters
+ */
+sc_err_t sc_timer_cancel_rtc_alarm(sc_ipc_t ipc);
+
+/*!
+ * This function sets the RTC calibration value. Only the owner of the SC_R_SYSTEM
+ * resource can set the calibration.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] count calbration count (-16 to 15)
+ *
+ * The calibration value is a 5-bit value including the sign bit, which is
+ * implemented in 2's complement. It is added or subtracted from the RTC on
+ * a perdiodic basis, once per 32768 cycles of the RTC clock.
+ *
+ * @return Returns an error code (SC_ERR_NONE = success).
+ */
+sc_err_t sc_timer_set_rtc_calb(sc_ipc_t ipc, int8_t count);
+
+/* @} */
+
+#endif /* SC_TIMER_API_H */
+
+/**@}*/
+
diff --git a/arch/arm/include/asm/mach-imx/sci/types.h b/arch/arm/include/asm/mach-imx/sci/types.h
new file mode 100755
index 0000000000..a25f4fa860
--- /dev/null
+++ b/arch/arm/include/asm/mach-imx/sci/types.h
@@ -0,0 +1,851 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file containing types used across multiple service APIs.
+ */
+
+#ifndef SC_TYPES_H
+#define SC_TYPES_H
+
+/* Includes */
+
+#include <asm/mach-imx/sci/scfw.h>
+
+/* Defines */
+
+/*!
+ * @name Defines for common frequencies
+ */
+/*@{*/
+#define SC_32KHZ 32768U /*!< 32KHz */
+#define SC_10MHZ 10000000U /*!< 10MHz */
+#define SC_20MHZ 20000000U /*!< 20MHz */
+#define SC_25MHZ 25000000U /*!< 25MHz */
+#define SC_27MHZ 27000000U /*!< 27MHz */
+#define SC_40MHZ 40000000U /*!< 40MHz */
+#define SC_45MHZ 45000000U /*!< 45MHz */
+#define SC_50MHZ 50000000U /*!< 50MHz */
+#define SC_60MHZ 60000000U /*!< 60MHz */
+#define SC_66MHZ 66666666U /*!< 66MHz */
+#define SC_74MHZ 74250000U /*!< 74.25MHz */
+#define SC_80MHZ 80000000U /*!< 80MHz */
+#define SC_83MHZ 83333333U /*!< 83MHz */
+#define SC_84MHZ 84375000U /*!< 84.37MHz */
+#define SC_100MHZ 100000000U /*!< 100MHz */
+#define SC_125MHZ 125000000U /*!< 125MHz */
+#define SC_133MHZ 133333333U /*!< 133MHz */
+#define SC_135MHZ 135000000U /*!< 135MHz */
+#define SC_150MHZ 150000000U /*!< 150MHz */
+#define SC_160MHZ 160000000U /*!< 160MHz */
+#define SC_166MHZ 166666666U /*!< 166MHz */
+#define SC_175MHZ 175000000U /*!< 175MHz */
+#define SC_180MHZ 180000000U /*!< 180MHz */
+#define SC_200MHZ 200000000U /*!< 200MHz */
+#define SC_250MHZ 250000000U /*!< 250MHz */
+#define SC_266MHZ 266666666U /*!< 266MHz */
+#define SC_300MHZ 300000000U /*!< 300MHz */
+#define SC_312MHZ 312500000U /*!< 312.5MHZ */
+#define SC_320MHZ 320000000U /*!< 320MHz */
+#define SC_325MHZ 325000000U /*!< 325MHz */
+#define SC_333MHZ 333333333U /*!< 333MHz */
+#define SC_350MHZ 350000000U /*!< 350MHz */
+#define SC_372MHZ 372000000U /*!< 372MHz */
+#define SC_375MHZ 375000000U /*!< 375MHz */
+#define SC_400MHZ 400000000U /*!< 400MHz */
+#define SC_500MHZ 500000000U /*!< 500MHz */
+#define SC_594MHZ 594000000U /*!< 594MHz */
+#define SC_625MHZ 625000000U /*!< 625MHz */
+#define SC_640MHZ 640000000U /*!< 640MHz */
+#define SC_650MHZ 650000000U /*!< 650MHz */
+#define SC_667MHZ 666666667U /*!< 667MHz */
+#define SC_675MHZ 675000000U /*!< 675MHz */
+#define SC_700MHZ 700000000U /*!< 700MHz */
+#define SC_720MHZ 720000000U /*!< 720MHz */
+#define SC_750MHZ 750000000U /*!< 750MHz */
+#define SC_800MHZ 800000000U /*!< 800MHz */
+#define SC_850MHZ 850000000U /*!< 850MHz */
+#define SC_900MHZ 900000000U /*!< 900MHz */
+#define SC_1000MHZ 1000000000U /*!< 1GHz */
+#define SC_1056MHZ 1056000000U /*!< 1.056GHz */
+#define SC_1188MHZ 1188000000U /*!< 1.188GHz */
+#define SC_1260MHZ 1260000000U /*!< 1.26GHz */
+#define SC_1280MHZ 1280000000U /*!< 1.28GHz */
+#define SC_1300MHZ 1300000000U /*!< 1.3GHz */
+#define SC_1400MHZ 1400000000U /*!< 1.4GHz */
+#define SC_1500MHZ 1500000000U /*!< 1.5GHz */
+#define SC_1600MHZ 1600000000U /*!< 1.6GHz */
+#define SC_1800MHZ 1800000000U /*!< 1.8GHz */
+#define SC_2000MHZ 2000000000U /*!< 2.0GHz */
+#define SC_2112MHZ 2112000000U /*!< 2.12GHz */
+/*@}*/
+
+/*!
+ * @name Defines for 24M related frequencies
+ */
+/*@{*/
+#define SC_8MHZ 8000000U /*!< 8MHz */
+#define SC_12MHZ 12000000U /*!< 12MHz */
+#define SC_19MHZ 19800000U /*!< 19.8MHz */
+#define SC_24MHZ 24000000U /*!< 24MHz */
+#define SC_48MHZ 48000000U /*!< 48MHz */
+#define SC_120MHZ 120000000U /*!< 120MHz */
+#define SC_132MHZ 132000000U /*!< 132MHz */
+#define SC_144MHZ 144000000U /*!< 144MHz */
+#define SC_192MHZ 192000000U /*!< 192MHz */
+#define SC_211MHZ 211200000U /*!< 211.2MHz */
+#define SC_240MHZ 240000000U /*!< 240MHz */
+#define SC_264MHZ 264000000U /*!< 264MHz */
+#define SC_352MHZ 352000000U /*!< 352MHz */
+#define SC_360MHZ 360000000U /*!< 360MHz */
+#define SC_384MHZ 384000000U /*!< 384MHz */
+#define SC_396MHZ 396000000U /*!< 396MHz */
+#define SC_432MHZ 432000000U /*!< 432MHz */
+#define SC_480MHZ 480000000U /*!< 480MHz */
+#define SC_600MHZ 600000000U /*!< 600MHz */
+#define SC_744MHZ 744000000U /*!< 744MHz */
+#define SC_792MHZ 792000000U /*!< 792MHz */
+#define SC_864MHZ 864000000U /*!< 864MHz */
+#define SC_960MHZ 960000000U /*!< 960MHz */
+#define SC_1056MHZ 1056000000U /*!< 1056MHz */
+#define SC_1200MHZ 1200000000U /*!< 1.2GHz */
+#define SC_1464MHZ 1464000000U /*!< 1.464GHz */
+#define SC_2400MHZ 2400000000U /*!< 2.4GHz */
+/*@}*/
+
+/*!
+ * @name Defines for A/V related frequencies
+ */
+/*@{*/
+#define SC_62MHZ 62937500U /*!< 62.9375MHz */
+#define SC_755MHZ 755250000U /*!< 755.25MHz */
+/*@}*/
+
+/*!
+ * @name Defines for type widths
+ */
+/*@{*/
+#define SC_FADDR_W 36U /*!< Width of sc_faddr_t */
+#define SC_BOOL_W 1U /*!< Width of sc_bool_t */
+#define SC_ERR_W 4U /*!< Width of sc_err_t */
+#define SC_RSRC_W 10U /*!< Width of sc_rsrc_t */
+#define SC_CTRL_W 6U /*!< Width of sc_ctrl_t */
+/*@}*/
+
+/*!
+ * @name Defines for sc_bool_t
+ */
+/*@{*/
+#define SC_FALSE ((sc_bool_t) 0U) /*!< True */
+#define SC_TRUE ((sc_bool_t) 1U) /*!< False */
+/*@}*/
+
+/*!
+ * @name Defines for sc_err_t.
+ */
+/*@{*/
+#define SC_ERR_NONE 0U /*!< Success */
+#define SC_ERR_VERSION 1U /*!< Incompatible API version */
+#define SC_ERR_CONFIG 2U /*!< Configuration error */
+#define SC_ERR_PARM 3U /*!< Bad parameter */
+#define SC_ERR_NOACCESS 4U /*!< Permission error (no access) */
+#define SC_ERR_LOCKED 5U /*!< Permission error (locked) */
+#define SC_ERR_UNAVAILABLE 6U /*!< Unavailable (out of resources) */
+#define SC_ERR_NOTFOUND 7U /*!< Not found */
+#define SC_ERR_NOPOWER 8U /*!< No power */
+#define SC_ERR_IPC 9U /*!< Generic IPC error */
+#define SC_ERR_BUSY 10U /*!< Resource is currently busy/active */
+#define SC_ERR_FAIL 11U /*!< General I/O failure */
+#define SC_ERR_LAST 12U
+/*@}*/
+
+/*!
+ * @name Defines for sc_rsrc_t.
+ */
+/*@{*/
+#define SC_R_A53 0U
+#define SC_R_A53_0 1U
+#define SC_R_A53_1 2U
+#define SC_R_A53_2 3U
+#define SC_R_A53_3 4U
+#define SC_R_A72 5U
+#define SC_R_A72_0 6U
+#define SC_R_A72_1 7U
+#define SC_R_A72_2 8U
+#define SC_R_A72_3 9U
+#define SC_R_CCI 10U
+#define SC_R_DB 11U
+#define SC_R_DRC_0 12U
+#define SC_R_DRC_1 13U
+#define SC_R_GIC_SMMU 14U
+#define SC_R_IRQSTR_M4_0 15U
+#define SC_R_IRQSTR_M4_1 16U
+#define SC_R_SMMU 17U
+#define SC_R_GIC 18U
+#define SC_R_DC_0_BLIT0 19U
+#define SC_R_DC_0_BLIT1 20U
+#define SC_R_DC_0_BLIT2 21U
+#define SC_R_DC_0_BLIT_OUT 22U
+#define SC_R_DC_0_CAPTURE0 23U
+#define SC_R_DC_0_CAPTURE1 24U
+#define SC_R_DC_0_WARP 25U
+#define SC_R_DC_0_INTEGRAL0 26U
+#define SC_R_DC_0_INTEGRAL1 27U
+#define SC_R_DC_0_VIDEO0 28U
+#define SC_R_DC_0_VIDEO1 29U
+#define SC_R_DC_0_FRAC0 30U
+#define SC_R_DC_0_FRAC1 31U
+#define SC_R_DC_0 32U
+#define SC_R_GPU_2_PID0 33U
+#define SC_R_DC_0_PLL_0 34U
+#define SC_R_DC_0_PLL_1 35U
+#define SC_R_DC_1_BLIT0 36U
+#define SC_R_DC_1_BLIT1 37U
+#define SC_R_DC_1_BLIT2 38U
+#define SC_R_DC_1_BLIT_OUT 39U
+#define SC_R_DC_1_CAPTURE0 40U
+#define SC_R_DC_1_CAPTURE1 41U
+#define SC_R_DC_1_WARP 42U
+#define SC_R_DC_1_INTEGRAL0 43U
+#define SC_R_DC_1_INTEGRAL1 44U
+#define SC_R_DC_1_VIDEO0 45U
+#define SC_R_DC_1_VIDEO1 46U
+#define SC_R_DC_1_FRAC0 47U
+#define SC_R_DC_1_FRAC1 48U
+#define SC_R_DC_1 49U
+#define SC_R_GPU_3_PID0 50U
+#define SC_R_DC_1_PLL_0 51U
+#define SC_R_DC_1_PLL_1 52U
+#define SC_R_SPI_0 53U
+#define SC_R_SPI_1 54U
+#define SC_R_SPI_2 55U
+#define SC_R_SPI_3 56U
+#define SC_R_UART_0 57U
+#define SC_R_UART_1 58U
+#define SC_R_UART_2 59U
+#define SC_R_UART_3 60U
+#define SC_R_UART_4 61U
+#define SC_R_EMVSIM_0 62U
+#define SC_R_EMVSIM_1 63U
+#define SC_R_DMA_0_CH0 64U
+#define SC_R_DMA_0_CH1 65U
+#define SC_R_DMA_0_CH2 66U
+#define SC_R_DMA_0_CH3 67U
+#define SC_R_DMA_0_CH4 68U
+#define SC_R_DMA_0_CH5 69U
+#define SC_R_DMA_0_CH6 70U
+#define SC_R_DMA_0_CH7 71U
+#define SC_R_DMA_0_CH8 72U
+#define SC_R_DMA_0_CH9 73U
+#define SC_R_DMA_0_CH10 74U
+#define SC_R_DMA_0_CH11 75U
+#define SC_R_DMA_0_CH12 76U
+#define SC_R_DMA_0_CH13 77U
+#define SC_R_DMA_0_CH14 78U
+#define SC_R_DMA_0_CH15 79U
+#define SC_R_DMA_0_CH16 80U
+#define SC_R_DMA_0_CH17 81U
+#define SC_R_DMA_0_CH18 82U
+#define SC_R_DMA_0_CH19 83U
+#define SC_R_DMA_0_CH20 84U
+#define SC_R_DMA_0_CH21 85U
+#define SC_R_DMA_0_CH22 86U
+#define SC_R_DMA_0_CH23 87U
+#define SC_R_DMA_0_CH24 88U
+#define SC_R_DMA_0_CH25 89U
+#define SC_R_DMA_0_CH26 90U
+#define SC_R_DMA_0_CH27 91U
+#define SC_R_DMA_0_CH28 92U
+#define SC_R_DMA_0_CH29 93U
+#define SC_R_DMA_0_CH30 94U
+#define SC_R_DMA_0_CH31 95U
+#define SC_R_I2C_0 96U
+#define SC_R_I2C_1 97U
+#define SC_R_I2C_2 98U
+#define SC_R_I2C_3 99U
+#define SC_R_I2C_4 100U
+#define SC_R_ADC_0 101U
+#define SC_R_ADC_1 102U
+#define SC_R_FTM_0 103U
+#define SC_R_FTM_1 104U
+#define SC_R_CAN_0 105U
+#define SC_R_CAN_1 106U
+#define SC_R_CAN_2 107U
+#define SC_R_DMA_1_CH0 108U
+#define SC_R_DMA_1_CH1 109U
+#define SC_R_DMA_1_CH2 110U
+#define SC_R_DMA_1_CH3 111U
+#define SC_R_DMA_1_CH4 112U
+#define SC_R_DMA_1_CH5 113U
+#define SC_R_DMA_1_CH6 114U
+#define SC_R_DMA_1_CH7 115U
+#define SC_R_DMA_1_CH8 116U
+#define SC_R_DMA_1_CH9 117U
+#define SC_R_DMA_1_CH10 118U
+#define SC_R_DMA_1_CH11 119U
+#define SC_R_DMA_1_CH12 120U
+#define SC_R_DMA_1_CH13 121U
+#define SC_R_DMA_1_CH14 122U
+#define SC_R_DMA_1_CH15 123U
+#define SC_R_DMA_1_CH16 124U
+#define SC_R_DMA_1_CH17 125U
+#define SC_R_DMA_1_CH18 126U
+#define SC_R_DMA_1_CH19 127U
+#define SC_R_DMA_1_CH20 128U
+#define SC_R_DMA_1_CH21 129U
+#define SC_R_DMA_1_CH22 130U
+#define SC_R_DMA_1_CH23 131U
+#define SC_R_DMA_1_CH24 132U
+#define SC_R_DMA_1_CH25 133U
+#define SC_R_DMA_1_CH26 134U
+#define SC_R_DMA_1_CH27 135U
+#define SC_R_DMA_1_CH28 136U
+#define SC_R_DMA_1_CH29 137U
+#define SC_R_DMA_1_CH30 138U
+#define SC_R_DMA_1_CH31 139U
+#define SC_R_UNUSED1 140U
+#define SC_R_UNUSED2 141U
+#define SC_R_UNUSED3 142U
+#define SC_R_UNUSED4 143U
+#define SC_R_GPU_0_PID0 144U
+#define SC_R_GPU_0_PID1 145U
+#define SC_R_GPU_0_PID2 146U
+#define SC_R_GPU_0_PID3 147U
+#define SC_R_GPU_1_PID0 148U
+#define SC_R_GPU_1_PID1 149U
+#define SC_R_GPU_1_PID2 150U
+#define SC_R_GPU_1_PID3 151U
+#define SC_R_PCIE_A 152U
+#define SC_R_SERDES_0 153U
+#define SC_R_MATCH_0 154U
+#define SC_R_MATCH_1 155U
+#define SC_R_MATCH_2 156U
+#define SC_R_MATCH_3 157U
+#define SC_R_MATCH_4 158U
+#define SC_R_MATCH_5 159U
+#define SC_R_MATCH_6 160U
+#define SC_R_MATCH_7 161U
+#define SC_R_MATCH_8 162U
+#define SC_R_MATCH_9 163U
+#define SC_R_MATCH_10 164U
+#define SC_R_MATCH_11 165U
+#define SC_R_MATCH_12 166U
+#define SC_R_MATCH_13 167U
+#define SC_R_MATCH_14 168U
+#define SC_R_PCIE_B 169U
+#define SC_R_SATA_0 170U
+#define SC_R_SERDES_1 171U
+#define SC_R_HSIO_GPIO 172U
+#define SC_R_MATCH_15 173U
+#define SC_R_MATCH_16 174U
+#define SC_R_MATCH_17 175U
+#define SC_R_MATCH_18 176U
+#define SC_R_MATCH_19 177U
+#define SC_R_MATCH_20 178U
+#define SC_R_MATCH_21 179U
+#define SC_R_MATCH_22 180U
+#define SC_R_MATCH_23 181U
+#define SC_R_MATCH_24 182U
+#define SC_R_MATCH_25 183U
+#define SC_R_MATCH_26 184U
+#define SC_R_MATCH_27 185U
+#define SC_R_MATCH_28 186U
+#define SC_R_LCD_0 187U
+#define SC_R_LCD_0_PWM_0 188U
+#define SC_R_LCD_0_I2C_0 189U
+#define SC_R_LCD_0_I2C_1 190U
+#define SC_R_PWM_0 191U
+#define SC_R_PWM_1 192U
+#define SC_R_PWM_2 193U
+#define SC_R_PWM_3 194U
+#define SC_R_PWM_4 195U
+#define SC_R_PWM_5 196U
+#define SC_R_PWM_6 197U
+#define SC_R_PWM_7 198U
+#define SC_R_GPIO_0 199U
+#define SC_R_GPIO_1 200U
+#define SC_R_GPIO_2 201U
+#define SC_R_GPIO_3 202U
+#define SC_R_GPIO_4 203U
+#define SC_R_GPIO_5 204U
+#define SC_R_GPIO_6 205U
+#define SC_R_GPIO_7 206U
+#define SC_R_GPT_0 207U
+#define SC_R_GPT_1 208U
+#define SC_R_GPT_2 209U
+#define SC_R_GPT_3 210U
+#define SC_R_GPT_4 211U
+#define SC_R_KPP 212U
+#define SC_R_MU_0A 213U
+#define SC_R_MU_1A 214U
+#define SC_R_MU_2A 215U
+#define SC_R_MU_3A 216U
+#define SC_R_MU_4A 217U
+#define SC_R_MU_5A 218U
+#define SC_R_MU_6A 219U
+#define SC_R_MU_7A 220U
+#define SC_R_MU_8A 221U
+#define SC_R_MU_9A 222U
+#define SC_R_MU_10A 223U
+#define SC_R_MU_11A 224U
+#define SC_R_MU_12A 225U
+#define SC_R_MU_13A 226U
+#define SC_R_MU_5B 227U
+#define SC_R_MU_6B 228U
+#define SC_R_MU_7B 229U
+#define SC_R_MU_8B 230U
+#define SC_R_MU_9B 231U
+#define SC_R_MU_10B 232U
+#define SC_R_MU_11B 233U
+#define SC_R_MU_12B 234U
+#define SC_R_MU_13B 235U
+#define SC_R_ROM_0 236U
+#define SC_R_FSPI_0 237U
+#define SC_R_FSPI_1 238U
+#define SC_R_IEE 239U
+#define SC_R_IEE_R0 240U
+#define SC_R_IEE_R1 241U
+#define SC_R_IEE_R2 242U
+#define SC_R_IEE_R3 243U
+#define SC_R_IEE_R4 244U
+#define SC_R_IEE_R5 245U
+#define SC_R_IEE_R6 246U
+#define SC_R_IEE_R7 247U
+#define SC_R_SDHC_0 248U
+#define SC_R_SDHC_1 249U
+#define SC_R_SDHC_2 250U
+#define SC_R_ENET_0 251U
+#define SC_R_ENET_1 252U
+#define SC_R_MLB_0 253U
+#define SC_R_DMA_2_CH0 254U
+#define SC_R_DMA_2_CH1 255U
+#define SC_R_DMA_2_CH2 256U
+#define SC_R_DMA_2_CH3 257U
+#define SC_R_DMA_2_CH4 258U
+#define SC_R_USB_0 259U
+#define SC_R_USB_1 260U
+#define SC_R_USB_0_PHY 261U
+#define SC_R_USB_2 262U
+#define SC_R_USB_2_PHY 263U
+#define SC_R_DTCP 264U
+#define SC_R_NAND 265U
+#define SC_R_LVDS_0 266U
+#define SC_R_LVDS_0_PWM_0 267U
+#define SC_R_LVDS_0_I2C_0 268U
+#define SC_R_LVDS_0_I2C_1 269U
+#define SC_R_LVDS_1 270U
+#define SC_R_LVDS_1_PWM_0 271U
+#define SC_R_LVDS_1_I2C_0 272U
+#define SC_R_LVDS_1_I2C_1 273U
+#define SC_R_LVDS_2 274U
+#define SC_R_LVDS_2_PWM_0 275U
+#define SC_R_LVDS_2_I2C_0 276U
+#define SC_R_LVDS_2_I2C_1 277U
+#define SC_R_M4_0_PID0 278U
+#define SC_R_M4_0_PID1 279U
+#define SC_R_M4_0_PID2 280U
+#define SC_R_M4_0_PID3 281U
+#define SC_R_M4_0_PID4 282U
+#define SC_R_M4_0_RGPIO 283U
+#define SC_R_M4_0_SEMA42 284U
+#define SC_R_M4_0_TPM 285U
+#define SC_R_M4_0_PIT 286U
+#define SC_R_M4_0_UART 287U
+#define SC_R_M4_0_I2C 288U
+#define SC_R_M4_0_INTMUX 289U
+#define SC_R_M4_0_SIM 290U
+#define SC_R_M4_0_WDOG 291U
+#define SC_R_M4_0_MU_0B 292U
+#define SC_R_M4_0_MU_0A0 293U
+#define SC_R_M4_0_MU_0A1 294U
+#define SC_R_M4_0_MU_0A2 295U
+#define SC_R_M4_0_MU_0A3 296U
+#define SC_R_M4_0_MU_1A 297U
+#define SC_R_M4_1_PID0 298U
+#define SC_R_M4_1_PID1 299U
+#define SC_R_M4_1_PID2 300U
+#define SC_R_M4_1_PID3 301U
+#define SC_R_M4_1_PID4 302U
+#define SC_R_M4_1_RGPIO 303U
+#define SC_R_M4_1_SEMA42 304U
+#define SC_R_M4_1_TPM 305U
+#define SC_R_M4_1_PIT 306U
+#define SC_R_M4_1_UART 307U
+#define SC_R_M4_1_I2C 308U
+#define SC_R_M4_1_INTMUX 309U
+#define SC_R_M4_1_SIM 310U
+#define SC_R_M4_1_WDOG 311U
+#define SC_R_M4_1_MU_0B 312U
+#define SC_R_M4_1_MU_0A0 313U
+#define SC_R_M4_1_MU_0A1 314U
+#define SC_R_M4_1_MU_0A2 315U
+#define SC_R_M4_1_MU_0A3 316U
+#define SC_R_M4_1_MU_1A 317U
+#define SC_R_SAI_0 318U
+#define SC_R_SAI_1 319U
+#define SC_R_SAI_2 320U
+#define SC_R_IRQSTR_SCU2 321U
+#define SC_R_IRQSTR_DSP 322U
+#define SC_R_UNUSED5 323U
+#define SC_R_OCRAM 324U
+#define SC_R_AUDIO_PLL_0 325U
+#define SC_R_PI_0 326U
+#define SC_R_PI_0_PWM_0 327U
+#define SC_R_PI_0_PWM_1 328U
+#define SC_R_PI_0_I2C_0 329U
+#define SC_R_PI_0_PLL 330U
+#define SC_R_PI_1 331U
+#define SC_R_PI_1_PWM_0 332U
+#define SC_R_PI_1_PWM_1 333U
+#define SC_R_PI_1_I2C_0 334U
+#define SC_R_PI_1_PLL 335U
+#define SC_R_SC_PID0 336U
+#define SC_R_SC_PID1 337U
+#define SC_R_SC_PID2 338U
+#define SC_R_SC_PID3 339U
+#define SC_R_SC_PID4 340U
+#define SC_R_SC_SEMA42 341U
+#define SC_R_SC_TPM 342U
+#define SC_R_SC_PIT 343U
+#define SC_R_SC_UART 344U
+#define SC_R_SC_I2C 345U
+#define SC_R_SC_MU_0B 346U
+#define SC_R_SC_MU_0A0 347U
+#define SC_R_SC_MU_0A1 348U
+#define SC_R_SC_MU_0A2 349U
+#define SC_R_SC_MU_0A3 350U
+#define SC_R_SC_MU_1A 351U
+#define SC_R_SYSCNT_RD 352U
+#define SC_R_SYSCNT_CMP 353U
+#define SC_R_DEBUG 354U
+#define SC_R_SYSTEM 355U
+#define SC_R_SNVS 356U
+#define SC_R_OTP 357U
+#define SC_R_VPU_PID0 358U
+#define SC_R_VPU_PID1 359U
+#define SC_R_VPU_PID2 360U
+#define SC_R_VPU_PID3 361U
+#define SC_R_VPU_PID4 362U
+#define SC_R_VPU_PID5 363U
+#define SC_R_VPU_PID6 364U
+#define SC_R_VPU_PID7 365U
+#define SC_R_VPU_UART 366U
+#define SC_R_VPUCORE 367U
+#define SC_R_VPUCORE_0 368U
+#define SC_R_VPUCORE_1 369U
+#define SC_R_VPUCORE_2 370U
+#define SC_R_VPUCORE_3 371U
+#define SC_R_DMA_4_CH0 372U
+#define SC_R_DMA_4_CH1 373U
+#define SC_R_DMA_4_CH2 374U
+#define SC_R_DMA_4_CH3 375U
+#define SC_R_DMA_4_CH4 376U
+#define SC_R_ISI_CH0 377U
+#define SC_R_ISI_CH1 378U
+#define SC_R_ISI_CH2 379U
+#define SC_R_ISI_CH3 380U
+#define SC_R_ISI_CH4 381U
+#define SC_R_ISI_CH5 382U
+#define SC_R_ISI_CH6 383U
+#define SC_R_ISI_CH7 384U
+#define SC_R_MJPEG_DEC_S0 385U
+#define SC_R_MJPEG_DEC_S1 386U
+#define SC_R_MJPEG_DEC_S2 387U
+#define SC_R_MJPEG_DEC_S3 388U
+#define SC_R_MJPEG_ENC_S0 389U
+#define SC_R_MJPEG_ENC_S1 390U
+#define SC_R_MJPEG_ENC_S2 391U
+#define SC_R_MJPEG_ENC_S3 392U
+#define SC_R_MIPI_0 393U
+#define SC_R_MIPI_0_PWM_0 394U
+#define SC_R_MIPI_0_I2C_0 395U
+#define SC_R_MIPI_0_I2C_1 396U
+#define SC_R_MIPI_1 397U
+#define SC_R_MIPI_1_PWM_0 398U
+#define SC_R_MIPI_1_I2C_0 399U
+#define SC_R_MIPI_1_I2C_1 400U
+#define SC_R_CSI_0 401U
+#define SC_R_CSI_0_PWM_0 402U
+#define SC_R_CSI_0_I2C_0 403U
+#define SC_R_CSI_1 404U
+#define SC_R_CSI_1_PWM_0 405U
+#define SC_R_CSI_1_I2C_0 406U
+#define SC_R_HDMI 407U
+#define SC_R_HDMI_I2S 408U
+#define SC_R_HDMI_I2C_0 409U
+#define SC_R_HDMI_PLL_0 410U
+#define SC_R_HDMI_RX 411U
+#define SC_R_HDMI_RX_BYPASS 412U
+#define SC_R_HDMI_RX_I2C_0 413U
+#define SC_R_ASRC_0 414U
+#define SC_R_ESAI_0 415U
+#define SC_R_SPDIF_0 416U
+#define SC_R_SPDIF_1 417U
+#define SC_R_SAI_3 418U
+#define SC_R_SAI_4 419U
+#define SC_R_SAI_5 420U
+#define SC_R_GPT_5 421U
+#define SC_R_GPT_6 422U
+#define SC_R_GPT_7 423U
+#define SC_R_GPT_8 424U
+#define SC_R_GPT_9 425U
+#define SC_R_GPT_10 426U
+#define SC_R_DMA_2_CH5 427U
+#define SC_R_DMA_2_CH6 428U
+#define SC_R_DMA_2_CH7 429U
+#define SC_R_DMA_2_CH8 430U
+#define SC_R_DMA_2_CH9 431U
+#define SC_R_DMA_2_CH10 432U
+#define SC_R_DMA_2_CH11 433U
+#define SC_R_DMA_2_CH12 434U
+#define SC_R_DMA_2_CH13 435U
+#define SC_R_DMA_2_CH14 436U
+#define SC_R_DMA_2_CH15 437U
+#define SC_R_DMA_2_CH16 438U
+#define SC_R_DMA_2_CH17 439U
+#define SC_R_DMA_2_CH18 440U
+#define SC_R_DMA_2_CH19 441U
+#define SC_R_DMA_2_CH20 442U
+#define SC_R_DMA_2_CH21 443U
+#define SC_R_DMA_2_CH22 444U
+#define SC_R_DMA_2_CH23 445U
+#define SC_R_DMA_2_CH24 446U
+#define SC_R_DMA_2_CH25 447U
+#define SC_R_DMA_2_CH26 448U
+#define SC_R_DMA_2_CH27 449U
+#define SC_R_DMA_2_CH28 450U
+#define SC_R_DMA_2_CH29 451U
+#define SC_R_DMA_2_CH30 452U
+#define SC_R_DMA_2_CH31 453U
+#define SC_R_ASRC_1 454U
+#define SC_R_ESAI_1 455U
+#define SC_R_SAI_6 456U
+#define SC_R_SAI_7 457U
+#define SC_R_AMIX 458U
+#define SC_R_MQS_0 459U
+#define SC_R_DMA_3_CH0 460U
+#define SC_R_DMA_3_CH1 461U
+#define SC_R_DMA_3_CH2 462U
+#define SC_R_DMA_3_CH3 463U
+#define SC_R_DMA_3_CH4 464U
+#define SC_R_DMA_3_CH5 465U
+#define SC_R_DMA_3_CH6 466U
+#define SC_R_DMA_3_CH7 467U
+#define SC_R_DMA_3_CH8 468U
+#define SC_R_DMA_3_CH9 469U
+#define SC_R_DMA_3_CH10 470U
+#define SC_R_DMA_3_CH11 471U
+#define SC_R_DMA_3_CH12 472U
+#define SC_R_DMA_3_CH13 473U
+#define SC_R_DMA_3_CH14 474U
+#define SC_R_DMA_3_CH15 475U
+#define SC_R_DMA_3_CH16 476U
+#define SC_R_DMA_3_CH17 477U
+#define SC_R_DMA_3_CH18 478U
+#define SC_R_DMA_3_CH19 479U
+#define SC_R_DMA_3_CH20 480U
+#define SC_R_DMA_3_CH21 481U
+#define SC_R_DMA_3_CH22 482U
+#define SC_R_DMA_3_CH23 483U
+#define SC_R_DMA_3_CH24 484U
+#define SC_R_DMA_3_CH25 485U
+#define SC_R_DMA_3_CH26 486U
+#define SC_R_DMA_3_CH27 487U
+#define SC_R_DMA_3_CH28 488U
+#define SC_R_DMA_3_CH29 489U
+#define SC_R_DMA_3_CH30 490U
+#define SC_R_DMA_3_CH31 491U
+#define SC_R_AUDIO_PLL_1 492U
+#define SC_R_AUDIO_CLK_0 493U
+#define SC_R_AUDIO_CLK_1 494U
+#define SC_R_MCLK_OUT_0 495U
+#define SC_R_MCLK_OUT_1 496U
+#define SC_R_PMIC_0 497U
+#define SC_R_PMIC_1 498U
+#define SC_R_SECO 499U
+#define SC_R_CAAM_JR1 500U
+#define SC_R_CAAM_JR2 501U
+#define SC_R_CAAM_JR3 502U
+#define SC_R_SECO_MU_2 503U
+#define SC_R_SECO_MU_3 504U
+#define SC_R_SECO_MU_4 505U
+#define SC_R_HDMI_RX_PWM_0 506U
+#define SC_R_A35 507U
+#define SC_R_A35_0 508U
+#define SC_R_A35_1 509U
+#define SC_R_A35_2 510U
+#define SC_R_A35_3 511U
+#define SC_R_DSP 512U
+#define SC_R_DSP_RAM 513U
+#define SC_R_CAAM_JR1_OUT 514U
+#define SC_R_CAAM_JR2_OUT 515U
+#define SC_R_CAAM_JR3_OUT 516U
+#define SC_R_VPU_DEC_0 517U
+#define SC_R_VPU_ENC_0 518U
+#define SC_R_CAAM_JR0 519U
+#define SC_R_CAAM_JR0_OUT 520U
+#define SC_R_PMIC_2 521U
+#define SC_R_DBLOGIC 522U
+#define SC_R_HDMI_PLL_1 523U
+#define SC_R_BOARD_R0 524U
+#define SC_R_BOARD_R1 525U
+#define SC_R_BOARD_R2 526U
+#define SC_R_BOARD_R3 527U
+#define SC_R_BOARD_R4 528U
+#define SC_R_BOARD_R5 529U
+#define SC_R_BOARD_R6 530U
+#define SC_R_BOARD_R7 531U
+#define SC_R_MJPEG_DEC_MP 532U
+#define SC_R_MJPEG_ENC_MP 533U
+#define SC_R_VPU_TS_0 534U
+#define SC_R_VPU_MU_0 535U
+#define SC_R_VPU_MU_1 536U
+#define SC_R_VPU_MU_2 537U
+#define SC_R_VPU_MU_3 538U
+#define SC_R_VPU_ENC_1 539U
+#define SC_R_VPU 540U
+#define SC_R_LAST 541U
+#define SC_R_ALL ((sc_rsrc_t) UINT16_MAX) /*!< All resources */
+/*@}*/
+
+/* NOTE - please add by replacing some of the UNUSED from above! */
+
+/*!
+ * Defnes for sc_ctrl_t.
+ */
+#define SC_C_TEMP 0U
+#define SC_C_TEMP_HI 1U
+#define SC_C_TEMP_LOW 2U
+#define SC_C_PXL_LINK_MST1_ADDR 3U
+#define SC_C_PXL_LINK_MST2_ADDR 4U
+#define SC_C_PXL_LINK_MST_ENB 5U
+#define SC_C_PXL_LINK_MST1_ENB 6U
+#define SC_C_PXL_LINK_MST2_ENB 7U
+#define SC_C_PXL_LINK_SLV1_ADDR 8U
+#define SC_C_PXL_LINK_SLV2_ADDR 9U
+#define SC_C_PXL_LINK_MST_VLD 10U
+#define SC_C_PXL_LINK_MST1_VLD 11U
+#define SC_C_PXL_LINK_MST2_VLD 12U
+#define SC_C_SINGLE_MODE 13U
+#define SC_C_ID 14U
+#define SC_C_PXL_CLK_POLARITY 15U
+#define SC_C_LINESTATE 16U
+#define SC_C_PCIE_G_RST 17U
+#define SC_C_PCIE_BUTTON_RST 18U
+#define SC_C_PCIE_PERST 19U
+#define SC_C_PHY_RESET 20U
+#define SC_C_PXL_LINK_RATE_CORRECTION 21U
+#define SC_C_PANIC 22U
+#define SC_C_PRIORITY_GROUP 23U
+#define SC_C_TXCLK 24U
+#define SC_C_CLKDIV 25U
+#define SC_C_DISABLE_50 26U
+#define SC_C_DISABLE_125 27U
+#define SC_C_SEL_125 28U
+#define SC_C_MODE 29U
+#define SC_C_SYNC_CTRL0 30U
+#define SC_C_KACHUNK_CNT 31U
+#define SC_C_KACHUNK_SEL 32U
+#define SC_C_SYNC_CTRL1 33U
+#define SC_C_DPI_RESET 34U
+#define SC_C_MIPI_RESET 35U
+#define SC_C_DUAL_MODE 36U
+#define SC_C_VOLTAGE 37U
+#define SC_C_PXL_LINK_SEL 38U
+#define SC_C_OFS_SEL 39U
+#define SC_C_OFS_AUDIO 40U
+#define SC_C_OFS_PERIPH 41U
+#define SC_C_OFS_IRQ 42U
+#define SC_C_RST0 43U
+#define SC_C_RST1 44U
+#define SC_C_SEL0 45U
+#define SC_C_LAST 46U
+
+#define SC_P_ALL ((sc_pad_t) UINT16_MAX) /*!< All pads */
+
+/* Types */
+
+/*!
+ * This type is used to store a boolean
+ */
+typedef uint8_t sc_bool_t;
+
+/*!
+ * This type is used to store a system (full-size) address.
+ */
+typedef uint64_t sc_faddr_t;
+
+/*!
+ * This type is used to indicate error response for most functions.
+ */
+typedef uint8_t sc_err_t;
+
+/*!
+ * This type is used to indicate a resource. Resources include peripherals
+ * and bus masters (but not memory regions). Note items from list should
+ * never be changed or removed (only added to at the end of the list).
+ */
+typedef uint16_t sc_rsrc_t;
+
+/*!
+ * This type is used to indicate a control.
+ */
+typedef uint8_t sc_ctrl_t;
+
+/*!
+ * This type is used to indicate a pad. Valid values are SoC specific.
+ *
+ * Refer to the SoC [Pad List](@ref PADS) for valid pad values.
+ */
+typedef uint16_t sc_pad_t;
+
+/* Extra documentation of standard types */
+
+#ifdef DOXYGEN
+ /*!
+ * Type used to declare an 8-bit integer.
+ */
+ typedef __INT8_TYPE__ int8_t;
+
+ /*!
+ * Type used to declare a 16-bit integer.
+ */
+ typedef __INT16_TYPE__ int16_t;
+
+ /*!
+ * Type used to declare a 32-bit integer.
+ */
+ typedef __INT32_TYPE__ int32_t;
+
+ /*!
+ * Type used to declare a 64-bit integer.
+ */
+ typedef __INT64_TYPE__ int64_t;
+
+ /*!
+ * Type used to declare an 8-bit unsigned integer.
+ */
+ typedef __UINT8_TYPE__ uint8_t;
+
+ /*!
+ * Type used to declare a 16-bit unsigned integer.
+ */
+ typedef __UINT16_TYPE__ uint16_t;
+
+ /*!
+ * Type used to declare a 32-bit unsigned integer.
+ */
+ typedef __UINT32_TYPE__ uint32_t;
+
+ /*!
+ * Type used to declare a 64-bit unsigned integer.
+ */
+ typedef __UINT64_TYPE__ uint64_t;
+#endif
+
+#endif /* SC_TYPES_H */
+
diff --git a/arch/arm/mach-imx/sci/svc/irq/rpc.h b/arch/arm/mach-imx/sci/svc/irq/rpc.h
new file mode 100644
index 0000000000..ca0653d4da
--- /dev/null
+++ b/arch/arm/mach-imx/sci/svc/irq/rpc.h
@@ -0,0 +1,54 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file for the IRQ RPC implementation.
+ *
+ * @addtogroup IRQ_SVC
+ * @{
+ */
+
+#ifndef SC_IRQ_RPC_H
+#define SC_IRQ_RPC_H
+
+/* Includes */
+
+/* Defines */
+
+/*!
+ * @name Defines for RPC IRQ function calls
+ */
+/*@{*/
+#define IRQ_FUNC_UNKNOWN 0 /*!< Unknown function */
+#define IRQ_FUNC_ENABLE 1U /*!< Index for irq_enable() RPC call */
+#define IRQ_FUNC_STATUS 2U /*!< Index for irq_status() RPC call */
+/*@}*/
+
+/* Types */
+
+/* Functions */
+
+/*!
+ * This function dispatches an incoming IRQ RPC request.
+ *
+ * @param[in] caller_pt caller partition
+ * @param[in] msg pointer to RPC message
+ */
+void irq_dispatch(sc_rm_pt_t caller_pt, sc_rpc_msg_t *msg);
+
+/*!
+ * This function translates and dispatches an IRQ RPC request.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] msg pointer to RPC message
+ */
+void irq_xlate(sc_ipc_t ipc, sc_rpc_msg_t *msg);
+
+#endif /* SC_IRQ_RPC_H */
+
+/**@}*/
+
diff --git a/arch/arm/mach-imx/sci/svc/irq/rpc_clnt.c b/arch/arm/mach-imx/sci/svc/irq/rpc_clnt.c
new file mode 100644
index 0000000000..362b096dae
--- /dev/null
+++ b/arch/arm/mach-imx/sci/svc/irq/rpc_clnt.c
@@ -0,0 +1,76 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * File containing client-side RPC functions for the IRQ service. These
+ * functions are ported to clients that communicate to the SC.
+ *
+ * @addtogroup IRQ_SVC
+ * @{
+ */
+
+/* Includes */
+
+#include <asm/mach-imx/sci/types.h>
+#include <asm/mach-imx/sci/svc/rm/api.h>
+#include <asm/mach-imx/sci/svc/irq/api.h>
+#include <asm/mach-imx/sci/rpc.h>
+#include "rpc.h"
+
+/* Local Defines */
+
+/* Local Types */
+
+/* Local Functions */
+
+sc_err_t sc_irq_enable(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_irq_group_t group, uint32_t mask, sc_bool_t enable)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_IRQ;
+ RPC_FUNC(&msg) = (uint8_t) IRQ_FUNC_ENABLE;
+ RPC_U32(&msg, 0U) = (uint32_t) mask;
+ RPC_U16(&msg, 4U) = (uint16_t) resource;
+ RPC_U8(&msg, 6U) = (uint8_t) group;
+ RPC_U8(&msg, 7U) = (uint8_t) enable;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_irq_status(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_irq_group_t group, uint32_t *status)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_IRQ;
+ RPC_FUNC(&msg) = (uint8_t) IRQ_FUNC_STATUS;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) group;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (status != NULL)
+ {
+ *status = RPC_U32(&msg, 0U);
+ }
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+/**@}*/
+
diff --git a/arch/arm/mach-imx/sci/svc/misc/rpc.h b/arch/arm/mach-imx/sci/svc/misc/rpc.h
new file mode 100644
index 0000000000..fee681d889
--- /dev/null
+++ b/arch/arm/mach-imx/sci/svc/misc/rpc.h
@@ -0,0 +1,76 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file for the MISC RPC implementation.
+ *
+ * @addtogroup MISC_SVC
+ * @{
+ */
+
+#ifndef SC_MISC_RPC_H
+#define SC_MISC_RPC_H
+
+/* Includes */
+
+/* Defines */
+
+/*!
+ * @name Defines for RPC MISC function calls
+ */
+/*@{*/
+#define MISC_FUNC_UNKNOWN 0 /*!< Unknown function */
+#define MISC_FUNC_SET_CONTROL 1U /*!< Index for misc_set_control() RPC call */
+#define MISC_FUNC_GET_CONTROL 2U /*!< Index for misc_get_control() RPC call */
+#define MISC_FUNC_SET_MAX_DMA_GROUP 4U /*!< Index for misc_set_max_dma_group() RPC call */
+#define MISC_FUNC_SET_DMA_GROUP 5U /*!< Index for misc_set_dma_group() RPC call */
+#define MISC_FUNC_SECO_IMAGE_LOAD 8U /*!< Index for misc_seco_image_load() RPC call */
+#define MISC_FUNC_SECO_AUTHENTICATE 9U /*!< Index for misc_seco_authenticate() RPC call */
+#define MISC_FUNC_SECO_FUSE_WRITE 20U /*!< Index for misc_seco_fuse_write() RPC call */
+#define MISC_FUNC_SECO_ENABLE_DEBUG 21U /*!< Index for misc_seco_enable_debug() RPC call */
+#define MISC_FUNC_SECO_FORWARD_LIFECYCLE 22U /*!< Index for misc_seco_forward_lifecycle() RPC call */
+#define MISC_FUNC_SECO_RETURN_LIFECYCLE 23U /*!< Index for misc_seco_return_lifecycle() RPC call */
+#define MISC_FUNC_SECO_BUILD_INFO 24U /*!< Index for misc_seco_build_info() RPC call */
+#define MISC_FUNC_DEBUG_OUT 10U /*!< Index for misc_debug_out() RPC call */
+#define MISC_FUNC_WAVEFORM_CAPTURE 6U /*!< Index for misc_waveform_capture() RPC call */
+#define MISC_FUNC_BUILD_INFO 15U /*!< Index for misc_build_info() RPC call */
+#define MISC_FUNC_UNIQUE_ID 19U /*!< Index for misc_unique_id() RPC call */
+#define MISC_FUNC_SET_ARI 3U /*!< Index for misc_set_ari() RPC call */
+#define MISC_FUNC_BOOT_STATUS 7U /*!< Index for misc_boot_status() RPC call */
+#define MISC_FUNC_BOOT_DONE 14U /*!< Index for misc_boot_done() RPC call */
+#define MISC_FUNC_OTP_FUSE_READ 11U /*!< Index for misc_otp_fuse_read() RPC call */
+#define MISC_FUNC_OTP_FUSE_WRITE 17U /*!< Index for misc_otp_fuse_write() RPC call */
+#define MISC_FUNC_SET_TEMP 12U /*!< Index for misc_set_temp() RPC call */
+#define MISC_FUNC_GET_TEMP 13U /*!< Index for misc_get_temp() RPC call */
+#define MISC_FUNC_GET_BOOT_DEV 16U /*!< Index for misc_get_boot_dev() RPC call */
+#define MISC_FUNC_GET_BUTTON_STATUS 18U /*!< Index for misc_get_button_status() RPC call */
+/*@}*/
+
+/* Types */
+
+/* Functions */
+
+/*!
+ * This function dispatches an incoming MISC RPC request.
+ *
+ * @param[in] caller_pt caller partition
+ * @param[in] msg pointer to RPC message
+ */
+void misc_dispatch(sc_rm_pt_t caller_pt, sc_rpc_msg_t *msg);
+
+/*!
+ * This function translates and dispatches an MISC RPC request.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] msg pointer to RPC message
+ */
+void misc_xlate(sc_ipc_t ipc, sc_rpc_msg_t *msg);
+
+#endif /* SC_MISC_RPC_H */
+
+/**@}*/
+
diff --git a/arch/arm/mach-imx/sci/svc/misc/rpc_clnt.c b/arch/arm/mach-imx/sci/svc/misc/rpc_clnt.c
new file mode 100644
index 0000000000..9d0d83f686
--- /dev/null
+++ b/arch/arm/mach-imx/sci/svc/misc/rpc_clnt.c
@@ -0,0 +1,515 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * File containing client-side RPC functions for the MISC service. These
+ * functions are ported to clients that communicate to the SC.
+ *
+ * @addtogroup MISC_SVC
+ * @{
+ */
+
+/* Includes */
+
+#include <asm/mach-imx/sci/types.h>
+#include <asm/mach-imx/sci/svc/rm/api.h>
+#include <asm/mach-imx/sci/svc/misc/api.h>
+#include <asm/mach-imx/sci/rpc.h>
+#include "rpc.h"
+
+/* Local Defines */
+
+/* Local Types */
+
+/* Local Functions */
+
+sc_err_t sc_misc_set_control(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_ctrl_t ctrl, uint32_t val)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_SET_CONTROL;
+ RPC_U32(&msg, 0U) = (uint32_t) ctrl;
+ RPC_U32(&msg, 4U) = (uint32_t) val;
+ RPC_U16(&msg, 8U) = (uint16_t) resource;
+ RPC_SIZE(&msg) = 4U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_misc_get_control(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_ctrl_t ctrl, uint32_t *val)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_GET_CONTROL;
+ RPC_U32(&msg, 0U) = (uint32_t) ctrl;
+ RPC_U16(&msg, 4U) = (uint16_t) resource;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (val != NULL)
+ {
+ *val = RPC_U32(&msg, 0U);
+ }
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_misc_set_max_dma_group(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_misc_dma_group_t max)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_SET_MAX_DMA_GROUP;
+ RPC_U8(&msg, 0U) = (uint8_t) pt;
+ RPC_U8(&msg, 1U) = (uint8_t) max;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_misc_set_dma_group(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_misc_dma_group_t group)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_SET_DMA_GROUP;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) group;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_misc_seco_image_load(sc_ipc_t ipc, sc_faddr_t addr_src,
+ sc_faddr_t addr_dst, uint32_t len, sc_bool_t fw)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_SECO_IMAGE_LOAD;
+ RPC_U32(&msg, 0U) = (uint32_t) (addr_src >> 32U);
+ RPC_U32(&msg, 4U) = (uint32_t) addr_src;
+ RPC_U32(&msg, 8U) = (uint32_t) (addr_dst >> 32U);
+ RPC_U32(&msg, 12U) = (uint32_t) addr_dst;
+ RPC_U32(&msg, 16U) = (uint32_t) len;
+ RPC_U8(&msg, 20U) = (uint8_t) fw;
+ RPC_SIZE(&msg) = 7U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_misc_seco_authenticate(sc_ipc_t ipc,
+ sc_misc_seco_auth_cmd_t cmd, sc_faddr_t addr)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_SECO_AUTHENTICATE;
+ RPC_U32(&msg, 0U) = (uint32_t) (addr >> 32U);
+ RPC_U32(&msg, 4U) = (uint32_t) addr;
+ RPC_U8(&msg, 8U) = (uint8_t) cmd;
+ RPC_SIZE(&msg) = 4U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_misc_seco_fuse_write(sc_ipc_t ipc, sc_faddr_t addr)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_SECO_FUSE_WRITE;
+ RPC_U32(&msg, 0U) = (uint32_t) (addr >> 32U);
+ RPC_U32(&msg, 4U) = (uint32_t) addr;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_misc_seco_enable_debug(sc_ipc_t ipc, sc_faddr_t addr)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_SECO_ENABLE_DEBUG;
+ RPC_U32(&msg, 0U) = (uint32_t) (addr >> 32U);
+ RPC_U32(&msg, 4U) = (uint32_t) addr;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_misc_seco_forward_lifecycle(sc_ipc_t ipc, uint32_t lifecycle)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_SECO_FORWARD_LIFECYCLE;
+ RPC_U32(&msg, 0U) = (uint32_t) lifecycle;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_misc_seco_return_lifecycle(sc_ipc_t ipc, sc_faddr_t addr)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_SECO_RETURN_LIFECYCLE;
+ RPC_U32(&msg, 0U) = (uint32_t) (addr >> 32U);
+ RPC_U32(&msg, 4U) = (uint32_t) addr;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+void sc_misc_seco_build_info(sc_ipc_t ipc, uint32_t *version,
+ uint32_t *commit)
+{
+ sc_rpc_msg_t msg;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_SECO_BUILD_INFO;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (version != NULL)
+ {
+ *version = RPC_U32(&msg, 0U);
+ }
+
+ if (commit != NULL)
+ {
+ *commit = RPC_U32(&msg, 4U);
+ }
+
+ return;
+}
+
+void sc_misc_debug_out(sc_ipc_t ipc, uint8_t ch)
+{
+ sc_rpc_msg_t msg;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_DEBUG_OUT;
+ RPC_U8(&msg, 0U) = (uint8_t) ch;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ return;
+}
+
+sc_err_t sc_misc_waveform_capture(sc_ipc_t ipc, sc_bool_t enable)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_WAVEFORM_CAPTURE;
+ RPC_U8(&msg, 0U) = (uint8_t) enable;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+void sc_misc_build_info(sc_ipc_t ipc, uint32_t *build,
+ uint32_t *commit)
+{
+ sc_rpc_msg_t msg;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_BUILD_INFO;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (build != NULL)
+ {
+ *build = RPC_U32(&msg, 0U);
+ }
+
+ if (commit != NULL)
+ {
+ *commit = RPC_U32(&msg, 4U);
+ }
+
+ return;
+}
+
+void sc_misc_unique_id(sc_ipc_t ipc, uint32_t *id_l,
+ uint32_t *id_h)
+{
+ sc_rpc_msg_t msg;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_UNIQUE_ID;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (id_l != NULL)
+ {
+ *id_l = RPC_U32(&msg, 0U);
+ }
+
+ if (id_h != NULL)
+ {
+ *id_h = RPC_U32(&msg, 4U);
+ }
+
+ return;
+}
+
+sc_err_t sc_misc_set_ari(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_rsrc_t resource_mst, uint16_t ari, sc_bool_t enable)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_SET_ARI;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U16(&msg, 2U) = (uint16_t) resource_mst;
+ RPC_U16(&msg, 4U) = (uint16_t) ari;
+ RPC_U8(&msg, 6U) = (uint8_t) enable;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+void sc_misc_boot_status(sc_ipc_t ipc, sc_misc_boot_status_t status)
+{
+ sc_rpc_msg_t msg;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_BOOT_STATUS;
+ RPC_U8(&msg, 0U) = (uint8_t) status;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_TRUE);
+
+ return;
+}
+
+sc_err_t sc_misc_boot_done(sc_ipc_t ipc, sc_rsrc_t cpu)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_BOOT_DONE;
+ RPC_U16(&msg, 0U) = (uint16_t) cpu;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_misc_otp_fuse_read(sc_ipc_t ipc, uint32_t word, uint32_t *val)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_OTP_FUSE_READ;
+ RPC_U32(&msg, 0U) = (uint32_t) word;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (val != NULL)
+ {
+ *val = RPC_U32(&msg, 0U);
+ }
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_misc_otp_fuse_write(sc_ipc_t ipc, uint32_t word, uint32_t val)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_OTP_FUSE_WRITE;
+ RPC_U32(&msg, 0U) = (uint32_t) word;
+ RPC_U32(&msg, 4U) = (uint32_t) val;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_misc_set_temp(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_misc_temp_t temp, int16_t celsius, int8_t tenths)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_SET_TEMP;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_I16(&msg, 2U) = (uint16_t) celsius;
+ RPC_U8(&msg, 4U) = (uint8_t) temp;
+ RPC_I8(&msg, 5U) = (int8_t) tenths;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_misc_get_temp(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_misc_temp_t temp, int16_t *celsius, int8_t *tenths)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_GET_TEMP;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) temp;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (celsius != NULL)
+ {
+ *celsius = RPC_I16(&msg, 0U);
+ }
+
+ result = RPC_R8(&msg);
+ if (tenths != NULL)
+ {
+ *tenths = RPC_I8(&msg, 2U);
+ }
+
+ return (sc_err_t) result;
+}
+
+void sc_misc_get_boot_dev(sc_ipc_t ipc, sc_rsrc_t *dev)
+{
+ sc_rpc_msg_t msg;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_GET_BOOT_DEV;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (dev != NULL)
+ {
+ *dev = RPC_U16(&msg, 0U);
+ }
+
+ return;
+}
+
+void sc_misc_get_button_status(sc_ipc_t ipc, sc_bool_t *status)
+{
+ sc_rpc_msg_t msg;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_MISC;
+ RPC_FUNC(&msg) = (uint8_t) MISC_FUNC_GET_BUTTON_STATUS;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (status != NULL)
+ {
+ *status = RPC_U8(&msg, 0U);
+ }
+
+ return;
+}
+
+/**@}*/
+
diff --git a/arch/arm/mach-imx/sci/svc/pad/rpc.h b/arch/arm/mach-imx/sci/svc/pad/rpc.h
new file mode 100644
index 0000000000..b658dcc23d
--- /dev/null
+++ b/arch/arm/mach-imx/sci/svc/pad/rpc.h
@@ -0,0 +1,68 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file for the PAD RPC implementation.
+ *
+ * @addtogroup PAD_SVC
+ * @{
+ */
+
+#ifndef SC_PAD_RPC_H
+#define SC_PAD_RPC_H
+
+/* Includes */
+
+/* Defines */
+
+/*!
+ * @name Defines for RPC PAD function calls
+ */
+/*@{*/
+#define PAD_FUNC_UNKNOWN 0 /*!< Unknown function */
+#define PAD_FUNC_SET_MUX 1U /*!< Index for pad_set_mux() RPC call */
+#define PAD_FUNC_GET_MUX 6U /*!< Index for pad_get_mux() RPC call */
+#define PAD_FUNC_SET_GP 2U /*!< Index for pad_set_gp() RPC call */
+#define PAD_FUNC_GET_GP 7U /*!< Index for pad_get_gp() RPC call */
+#define PAD_FUNC_SET_WAKEUP 4U /*!< Index for pad_set_wakeup() RPC call */
+#define PAD_FUNC_GET_WAKEUP 9U /*!< Index for pad_get_wakeup() RPC call */
+#define PAD_FUNC_SET_ALL 5U /*!< Index for pad_set_all() RPC call */
+#define PAD_FUNC_GET_ALL 10U /*!< Index for pad_get_all() RPC call */
+#define PAD_FUNC_SET 15U /*!< Index for pad_set() RPC call */
+#define PAD_FUNC_GET 16U /*!< Index for pad_get() RPC call */
+#define PAD_FUNC_SET_GP_28FDSOI 11U /*!< Index for pad_set_gp_28fdsoi() RPC call */
+#define PAD_FUNC_GET_GP_28FDSOI 12U /*!< Index for pad_get_gp_28fdsoi() RPC call */
+#define PAD_FUNC_SET_GP_28FDSOI_HSIC 3U /*!< Index for pad_set_gp_28fdsoi_hsic() RPC call */
+#define PAD_FUNC_GET_GP_28FDSOI_HSIC 8U /*!< Index for pad_get_gp_28fdsoi_hsic() RPC call */
+#define PAD_FUNC_SET_GP_28FDSOI_COMP 13U /*!< Index for pad_set_gp_28fdsoi_comp() RPC call */
+#define PAD_FUNC_GET_GP_28FDSOI_COMP 14U /*!< Index for pad_get_gp_28fdsoi_comp() RPC call */
+/*@}*/
+
+/* Types */
+
+/* Functions */
+
+/*!
+ * This function dispatches an incoming PAD RPC request.
+ *
+ * @param[in] caller_pt caller partition
+ * @param[in] msg pointer to RPC message
+ */
+void pad_dispatch(sc_rm_pt_t caller_pt, sc_rpc_msg_t *msg);
+
+/*!
+ * This function translates and dispatches an PAD RPC request.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] msg pointer to RPC message
+ */
+void pad_xlate(sc_ipc_t ipc, sc_rpc_msg_t *msg);
+
+#endif /* SC_PAD_RPC_H */
+
+/**@}*/
+
diff --git a/arch/arm/mach-imx/sci/svc/pad/rpc_clnt.c b/arch/arm/mach-imx/sci/svc/pad/rpc_clnt.c
new file mode 100644
index 0000000000..03f4f78088
--- /dev/null
+++ b/arch/arm/mach-imx/sci/svc/pad/rpc_clnt.c
@@ -0,0 +1,475 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * File containing client-side RPC functions for the PAD service. These
+ * functions are ported to clients that communicate to the SC.
+ *
+ * @addtogroup PAD_SVC
+ * @{
+ */
+
+/* Includes */
+
+#include <asm/mach-imx/sci/types.h>
+#include <asm/mach-imx/sci/svc/rm/api.h>
+#include <asm/mach-imx/sci/svc/pad/api.h>
+#include <asm/mach-imx/sci/rpc.h>
+#include "rpc.h"
+
+/* Local Defines */
+
+/* Local Types */
+
+/* Local Functions */
+
+sc_err_t sc_pad_set_mux(sc_ipc_t ipc, sc_pad_t pad,
+ uint8_t mux, sc_pad_config_t config, sc_pad_iso_t iso)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_SET_MUX;
+ RPC_U16(&msg, 0U) = (uint16_t) pad;
+ RPC_U8(&msg, 2U) = (uint8_t) mux;
+ RPC_U8(&msg, 3U) = (uint8_t) config;
+ RPC_U8(&msg, 4U) = (uint8_t) iso;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_get_mux(sc_ipc_t ipc, sc_pad_t pad,
+ uint8_t *mux, sc_pad_config_t *config, sc_pad_iso_t *iso)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_GET_MUX;
+ RPC_U16(&msg, 0U) = (uint16_t) pad;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ if (mux != NULL)
+ {
+ *mux = RPC_U8(&msg, 0U);
+ }
+
+ if (config != NULL)
+ {
+ *config = RPC_U8(&msg, 1U);
+ }
+
+ if (iso != NULL)
+ {
+ *iso = RPC_U8(&msg, 2U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_set_gp(sc_ipc_t ipc, sc_pad_t pad, uint32_t ctrl)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_SET_GP;
+ RPC_U32(&msg, 0U) = (uint32_t) ctrl;
+ RPC_U16(&msg, 4U) = (uint16_t) pad;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_get_gp(sc_ipc_t ipc, sc_pad_t pad, uint32_t *ctrl)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_GET_GP;
+ RPC_U16(&msg, 0U) = (uint16_t) pad;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (ctrl != NULL)
+ {
+ *ctrl = RPC_U32(&msg, 0U);
+ }
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_set_wakeup(sc_ipc_t ipc, sc_pad_t pad,
+ sc_pad_wakeup_t wakeup)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_SET_WAKEUP;
+ RPC_U16(&msg, 0U) = (uint16_t) pad;
+ RPC_U8(&msg, 2U) = (uint8_t) wakeup;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_get_wakeup(sc_ipc_t ipc, sc_pad_t pad,
+ sc_pad_wakeup_t *wakeup)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_GET_WAKEUP;
+ RPC_U16(&msg, 0U) = (uint16_t) pad;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ if (wakeup != NULL)
+ {
+ *wakeup = RPC_U8(&msg, 0U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_set_all(sc_ipc_t ipc, sc_pad_t pad, uint8_t mux,
+ sc_pad_config_t config, sc_pad_iso_t iso, uint32_t ctrl,
+ sc_pad_wakeup_t wakeup)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_SET_ALL;
+ RPC_U32(&msg, 0U) = (uint32_t) ctrl;
+ RPC_U16(&msg, 4U) = (uint16_t) pad;
+ RPC_U8(&msg, 6U) = (uint8_t) mux;
+ RPC_U8(&msg, 7U) = (uint8_t) config;
+ RPC_U8(&msg, 8U) = (uint8_t) iso;
+ RPC_U8(&msg, 9U) = (uint8_t) wakeup;
+ RPC_SIZE(&msg) = 4U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_get_all(sc_ipc_t ipc, sc_pad_t pad, uint8_t *mux,
+ sc_pad_config_t *config, sc_pad_iso_t *iso, uint32_t *ctrl,
+ sc_pad_wakeup_t *wakeup)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_GET_ALL;
+ RPC_U16(&msg, 0U) = (uint16_t) pad;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (ctrl != NULL)
+ {
+ *ctrl = RPC_U32(&msg, 0U);
+ }
+
+ result = RPC_R8(&msg);
+ if (mux != NULL)
+ {
+ *mux = RPC_U8(&msg, 4U);
+ }
+
+ if (config != NULL)
+ {
+ *config = RPC_U8(&msg, 5U);
+ }
+
+ if (iso != NULL)
+ {
+ *iso = RPC_U8(&msg, 6U);
+ }
+
+ if (wakeup != NULL)
+ {
+ *wakeup = RPC_U8(&msg, 7U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_set(sc_ipc_t ipc, sc_pad_t pad, uint32_t val)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_SET;
+ RPC_U32(&msg, 0U) = (uint32_t) val;
+ RPC_U16(&msg, 4U) = (uint16_t) pad;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_get(sc_ipc_t ipc, sc_pad_t pad, uint32_t *val)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_GET;
+ RPC_U16(&msg, 0U) = (uint16_t) pad;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (val != NULL)
+ {
+ *val = RPC_U32(&msg, 0U);
+ }
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_set_gp_28fdsoi(sc_ipc_t ipc, sc_pad_t pad,
+ sc_pad_28fdsoi_dse_t dse, sc_pad_28fdsoi_ps_t ps)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_SET_GP_28FDSOI;
+ RPC_U16(&msg, 0U) = (uint16_t) pad;
+ RPC_U8(&msg, 2U) = (uint8_t) dse;
+ RPC_U8(&msg, 3U) = (uint8_t) ps;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_get_gp_28fdsoi(sc_ipc_t ipc, sc_pad_t pad,
+ sc_pad_28fdsoi_dse_t *dse, sc_pad_28fdsoi_ps_t *ps)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_GET_GP_28FDSOI;
+ RPC_U16(&msg, 0U) = (uint16_t) pad;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ if (dse != NULL)
+ {
+ *dse = RPC_U8(&msg, 0U);
+ }
+
+ if (ps != NULL)
+ {
+ *ps = RPC_U8(&msg, 1U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_set_gp_28fdsoi_hsic(sc_ipc_t ipc, sc_pad_t pad,
+ sc_pad_28fdsoi_dse_t dse, sc_bool_t hys, sc_pad_28fdsoi_pus_t pus,
+ sc_bool_t pke, sc_bool_t pue)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_SET_GP_28FDSOI_HSIC;
+ RPC_U16(&msg, 0U) = (uint16_t) pad;
+ RPC_U8(&msg, 2U) = (uint8_t) dse;
+ RPC_U8(&msg, 3U) = (uint8_t) pus;
+ RPC_U8(&msg, 4U) = (uint8_t) hys;
+ RPC_U8(&msg, 5U) = (uint8_t) pke;
+ RPC_U8(&msg, 6U) = (uint8_t) pue;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_get_gp_28fdsoi_hsic(sc_ipc_t ipc, sc_pad_t pad,
+ sc_pad_28fdsoi_dse_t *dse, sc_bool_t *hys, sc_pad_28fdsoi_pus_t *pus,
+ sc_bool_t *pke, sc_bool_t *pue)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_GET_GP_28FDSOI_HSIC;
+ RPC_U16(&msg, 0U) = (uint16_t) pad;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ if (dse != NULL)
+ {
+ *dse = RPC_U8(&msg, 0U);
+ }
+
+ if (pus != NULL)
+ {
+ *pus = RPC_U8(&msg, 1U);
+ }
+
+ if (hys != NULL)
+ {
+ *hys = RPC_U8(&msg, 2U);
+ }
+
+ if (pke != NULL)
+ {
+ *pke = RPC_U8(&msg, 3U);
+ }
+
+ if (pue != NULL)
+ {
+ *pue = RPC_U8(&msg, 4U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_set_gp_28fdsoi_comp(sc_ipc_t ipc, sc_pad_t pad,
+ uint8_t compen, sc_bool_t fastfrz, uint8_t rasrcp, uint8_t rasrcn,
+ sc_bool_t nasrc_sel, sc_bool_t psw_ovr)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_SET_GP_28FDSOI_COMP;
+ RPC_U16(&msg, 0U) = (uint16_t) pad;
+ RPC_U8(&msg, 2U) = (uint8_t) compen;
+ RPC_U8(&msg, 3U) = (uint8_t) rasrcp;
+ RPC_U8(&msg, 4U) = (uint8_t) rasrcn;
+ RPC_U8(&msg, 5U) = (uint8_t) fastfrz;
+ RPC_U8(&msg, 6U) = (uint8_t) nasrc_sel;
+ RPC_U8(&msg, 7U) = (uint8_t) psw_ovr;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pad_get_gp_28fdsoi_comp(sc_ipc_t ipc, sc_pad_t pad,
+ uint8_t *compen, sc_bool_t *fastfrz, uint8_t *rasrcp, uint8_t *rasrcn,
+ sc_bool_t *nasrc_sel, sc_bool_t *compok, uint8_t *nasrc, sc_bool_t *psw_ovr)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PAD;
+ RPC_FUNC(&msg) = (uint8_t) PAD_FUNC_GET_GP_28FDSOI_COMP;
+ RPC_U16(&msg, 0U) = (uint16_t) pad;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ if (compen != NULL)
+ {
+ *compen = RPC_U8(&msg, 0U);
+ }
+
+ if (rasrcp != NULL)
+ {
+ *rasrcp = RPC_U8(&msg, 1U);
+ }
+
+ if (rasrcn != NULL)
+ {
+ *rasrcn = RPC_U8(&msg, 2U);
+ }
+
+ if (nasrc != NULL)
+ {
+ *nasrc = RPC_U8(&msg, 3U);
+ }
+
+ if (fastfrz != NULL)
+ {
+ *fastfrz = RPC_U8(&msg, 4U);
+ }
+
+ if (nasrc_sel != NULL)
+ {
+ *nasrc_sel = RPC_U8(&msg, 5U);
+ }
+
+ if (compok != NULL)
+ {
+ *compok = RPC_U8(&msg, 6U);
+ }
+
+ if (psw_ovr != NULL)
+ {
+ *psw_ovr = RPC_U8(&msg, 7U);
+ }
+
+ return (sc_err_t) result;
+}
+
+/**@}*/
+
diff --git a/arch/arm/mach-imx/sci/svc/pm/rpc.h b/arch/arm/mach-imx/sci/svc/pm/rpc.h
new file mode 100644
index 0000000000..49046c2ca7
--- /dev/null
+++ b/arch/arm/mach-imx/sci/svc/pm/rpc.h
@@ -0,0 +1,73 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file for the PM RPC implementation.
+ *
+ * @addtogroup PM_SVC
+ * @{
+ */
+
+#ifndef SC_PM_RPC_H
+#define SC_PM_RPC_H
+
+/* Includes */
+
+/* Defines */
+
+/*!
+ * @name Defines for RPC PM function calls
+ */
+/*@{*/
+#define PM_FUNC_UNKNOWN 0 /*!< Unknown function */
+#define PM_FUNC_SET_SYS_POWER_MODE 19U /*!< Index for pm_set_sys_power_mode() RPC call */
+#define PM_FUNC_SET_PARTITION_POWER_MODE 1U /*!< Index for pm_set_partition_power_mode() RPC call */
+#define PM_FUNC_GET_SYS_POWER_MODE 2U /*!< Index for pm_get_sys_power_mode() RPC call */
+#define PM_FUNC_SET_RESOURCE_POWER_MODE 3U /*!< Index for pm_set_resource_power_mode() RPC call */
+#define PM_FUNC_GET_RESOURCE_POWER_MODE 4U /*!< Index for pm_get_resource_power_mode() RPC call */
+#define PM_FUNC_REQ_LOW_POWER_MODE 16U /*!< Index for pm_req_low_power_mode() RPC call */
+#define PM_FUNC_REQ_CPU_LOW_POWER_MODE 20U /*!< Index for pm_req_cpu_low_power_mode() RPC call */
+#define PM_FUNC_SET_CPU_RESUME_ADDR 17U /*!< Index for pm_set_cpu_resume_addr() RPC call */
+#define PM_FUNC_SET_CPU_RESUME 21U /*!< Index for pm_set_cpu_resume() RPC call */
+#define PM_FUNC_REQ_SYS_IF_POWER_MODE 18U /*!< Index for pm_req_sys_if_power_mode() RPC call */
+#define PM_FUNC_SET_CLOCK_RATE 5U /*!< Index for pm_set_clock_rate() RPC call */
+#define PM_FUNC_GET_CLOCK_RATE 6U /*!< Index for pm_get_clock_rate() RPC call */
+#define PM_FUNC_CLOCK_ENABLE 7U /*!< Index for pm_clock_enable() RPC call */
+#define PM_FUNC_SET_CLOCK_PARENT 14U /*!< Index for pm_set_clock_parent() RPC call */
+#define PM_FUNC_GET_CLOCK_PARENT 15U /*!< Index for pm_get_clock_parent() RPC call */
+#define PM_FUNC_RESET 13U /*!< Index for pm_reset() RPC call */
+#define PM_FUNC_RESET_REASON 10U /*!< Index for pm_reset_reason() RPC call */
+#define PM_FUNC_BOOT 8U /*!< Index for pm_boot() RPC call */
+#define PM_FUNC_REBOOT 9U /*!< Index for pm_reboot() RPC call */
+#define PM_FUNC_REBOOT_PARTITION 12U /*!< Index for pm_reboot_partition() RPC call */
+#define PM_FUNC_CPU_START 11U /*!< Index for pm_cpu_start() RPC call */
+/*@}*/
+
+/* Types */
+
+/* Functions */
+
+/*!
+ * This function dispatches an incoming PM RPC request.
+ *
+ * @param[in] caller_pt caller partition
+ * @param[in] msg pointer to RPC message
+ */
+void pm_dispatch(sc_rm_pt_t caller_pt, sc_rpc_msg_t *msg);
+
+/*!
+ * This function translates and dispatches an PM RPC request.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] msg pointer to RPC message
+ */
+void pm_xlate(sc_ipc_t ipc, sc_rpc_msg_t *msg);
+
+#endif /* SC_PM_RPC_H */
+
+/**@}*/
+
diff --git a/arch/arm/mach-imx/sci/svc/pm/rpc_clnt.c b/arch/arm/mach-imx/sci/svc/pm/rpc_clnt.c
new file mode 100644
index 0000000000..5c48981f4f
--- /dev/null
+++ b/arch/arm/mach-imx/sci/svc/pm/rpc_clnt.c
@@ -0,0 +1,460 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * File containing client-side RPC functions for the PM service. These
+ * functions are ported to clients that communicate to the SC.
+ *
+ * @addtogroup PM_SVC
+ * @{
+ */
+
+/* Includes */
+
+#include <asm/mach-imx/sci/types.h>
+#include <asm/mach-imx/sci/svc/rm/api.h>
+#include <asm/mach-imx/sci/svc/pm/api.h>
+#include <asm/mach-imx/sci/rpc.h>
+#include "rpc.h"
+
+/* Local Defines */
+
+/* Local Types */
+
+/* Local Functions */
+
+sc_err_t sc_pm_set_sys_power_mode(sc_ipc_t ipc, sc_pm_power_mode_t mode)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_SET_SYS_POWER_MODE;
+ RPC_U8(&msg, 0U) = (uint8_t) mode;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_set_partition_power_mode(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_pm_power_mode_t mode)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_SET_PARTITION_POWER_MODE;
+ RPC_U8(&msg, 0U) = (uint8_t) pt;
+ RPC_U8(&msg, 1U) = (uint8_t) mode;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_get_sys_power_mode(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_pm_power_mode_t *mode)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_GET_SYS_POWER_MODE;
+ RPC_U8(&msg, 0U) = (uint8_t) pt;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ if (mode != NULL)
+ {
+ *mode = RPC_U8(&msg, 0U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_set_resource_power_mode(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_power_mode_t mode)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_SET_RESOURCE_POWER_MODE;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) mode;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_get_resource_power_mode(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_power_mode_t *mode)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_GET_RESOURCE_POWER_MODE;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ if (mode != NULL)
+ {
+ *mode = RPC_U8(&msg, 0U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_req_low_power_mode(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_power_mode_t mode)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_REQ_LOW_POWER_MODE;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) mode;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_req_cpu_low_power_mode(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_power_mode_t mode, sc_pm_wake_src_t wake_src)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_REQ_CPU_LOW_POWER_MODE;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) mode;
+ RPC_U8(&msg, 3U) = (uint8_t) wake_src;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_set_cpu_resume_addr(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_faddr_t address)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_SET_CPU_RESUME_ADDR;
+ RPC_U32(&msg, 0U) = (uint32_t) (address >> 32U);
+ RPC_U32(&msg, 4U) = (uint32_t) address;
+ RPC_U16(&msg, 8U) = (uint16_t) resource;
+ RPC_SIZE(&msg) = 4U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_set_cpu_resume(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_bool_t isPrimary, sc_faddr_t address)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_SET_CPU_RESUME;
+ RPC_U32(&msg, 0U) = (uint32_t) (address >> 32U);
+ RPC_U32(&msg, 4U) = (uint32_t) address;
+ RPC_U16(&msg, 8U) = (uint16_t) resource;
+ RPC_U8(&msg, 10U) = (uint8_t) isPrimary;
+ RPC_SIZE(&msg) = 4U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_req_sys_if_power_mode(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_sys_if_t sys_if, sc_pm_power_mode_t hpm, sc_pm_power_mode_t lpm)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_REQ_SYS_IF_POWER_MODE;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) sys_if;
+ RPC_U8(&msg, 3U) = (uint8_t) hpm;
+ RPC_U8(&msg, 4U) = (uint8_t) lpm;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_set_clock_rate(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_clk_t clk, sc_pm_clock_rate_t *rate)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_SET_CLOCK_RATE;
+ RPC_U32(&msg, 0U) = *(uint32_t*) rate;
+ RPC_U16(&msg, 4U) = (uint16_t) resource;
+ RPC_U8(&msg, 6U) = (uint8_t) clk;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ *rate = RPC_U32(&msg, 0U);
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_get_clock_rate(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_clk_t clk, sc_pm_clock_rate_t *rate)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_GET_CLOCK_RATE;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) clk;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (rate != NULL)
+ {
+ *rate = RPC_U32(&msg, 0U);
+ }
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_clock_enable(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_clk_t clk, sc_bool_t enable, sc_bool_t autog)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_CLOCK_ENABLE;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) clk;
+ RPC_U8(&msg, 3U) = (uint8_t) enable;
+ RPC_U8(&msg, 4U) = (uint8_t) autog;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_set_clock_parent(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_clk_t clk, sc_pm_clk_parent_t parent)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_SET_CLOCK_PARENT;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) clk;
+ RPC_U8(&msg, 3U) = (uint8_t) parent;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_get_clock_parent(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_pm_clk_t clk, sc_pm_clk_parent_t *parent)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_GET_CLOCK_PARENT;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) clk;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ if (parent != NULL)
+ {
+ *parent = RPC_U8(&msg, 0U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_reset(sc_ipc_t ipc, sc_pm_reset_type_t type)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_RESET;
+ RPC_U8(&msg, 0U) = (uint8_t) type;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_reset_reason(sc_ipc_t ipc, sc_pm_reset_reason_t *reason)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_RESET_REASON;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ if (reason != NULL)
+ {
+ *reason = RPC_U8(&msg, 0U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_boot(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_rsrc_t resource_cpu, sc_faddr_t boot_addr,
+ sc_rsrc_t resource_mu, sc_rsrc_t resource_dev)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_BOOT;
+ RPC_U32(&msg, 0U) = (uint32_t) (boot_addr >> 32U);
+ RPC_U32(&msg, 4U) = (uint32_t) boot_addr;
+ RPC_U16(&msg, 8U) = (uint16_t) resource_cpu;
+ RPC_U16(&msg, 10U) = (uint16_t) resource_mu;
+ RPC_U16(&msg, 12U) = (uint16_t) resource_dev;
+ RPC_U8(&msg, 14U) = (uint8_t) pt;
+ RPC_SIZE(&msg) = 5U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+void sc_pm_reboot(sc_ipc_t ipc, sc_pm_reset_type_t type)
+{
+ sc_rpc_msg_t msg;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_REBOOT;
+ RPC_U8(&msg, 0U) = (uint8_t) type;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_TRUE);
+
+ return;
+}
+
+sc_err_t sc_pm_reboot_partition(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_pm_reset_type_t type)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_REBOOT_PARTITION;
+ RPC_U8(&msg, 0U) = (uint8_t) pt;
+ RPC_U8(&msg, 1U) = (uint8_t) type;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_pm_cpu_start(sc_ipc_t ipc, sc_rsrc_t resource, sc_bool_t enable,
+ sc_faddr_t address)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_PM;
+ RPC_FUNC(&msg) = (uint8_t) PM_FUNC_CPU_START;
+ RPC_U32(&msg, 0U) = (uint32_t) (address >> 32U);
+ RPC_U32(&msg, 4U) = (uint32_t) address;
+ RPC_U16(&msg, 8U) = (uint16_t) resource;
+ RPC_U8(&msg, 10U) = (uint8_t) enable;
+ RPC_SIZE(&msg) = 4U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+/**@}*/
+
diff --git a/arch/arm/mach-imx/sci/svc/rm/rpc.h b/arch/arm/mach-imx/sci/svc/rm/rpc.h
new file mode 100644
index 0000000000..196615e937
--- /dev/null
+++ b/arch/arm/mach-imx/sci/svc/rm/rpc.h
@@ -0,0 +1,83 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file for the RM RPC implementation.
+ *
+ * @addtogroup RM_SVC
+ * @{
+ */
+
+#ifndef SC_RM_RPC_H
+#define SC_RM_RPC_H
+
+/* Includes */
+
+/* Defines */
+
+/*!
+ * @name Defines for RPC RM function calls
+ */
+/*@{*/
+#define RM_FUNC_UNKNOWN 0 /*!< Unknown function */
+#define RM_FUNC_PARTITION_ALLOC 1U /*!< Index for rm_partition_alloc() RPC call */
+#define RM_FUNC_SET_CONFIDENTIAL 31U /*!< Index for rm_set_confidential() RPC call */
+#define RM_FUNC_PARTITION_FREE 2U /*!< Index for rm_partition_free() RPC call */
+#define RM_FUNC_GET_DID 26U /*!< Index for rm_get_did() RPC call */
+#define RM_FUNC_PARTITION_STATIC 3U /*!< Index for rm_partition_static() RPC call */
+#define RM_FUNC_PARTITION_LOCK 4U /*!< Index for rm_partition_lock() RPC call */
+#define RM_FUNC_GET_PARTITION 5U /*!< Index for rm_get_partition() RPC call */
+#define RM_FUNC_SET_PARENT 6U /*!< Index for rm_set_parent() RPC call */
+#define RM_FUNC_MOVE_ALL 7U /*!< Index for rm_move_all() RPC call */
+#define RM_FUNC_ASSIGN_RESOURCE 8U /*!< Index for rm_assign_resource() RPC call */
+#define RM_FUNC_SET_RESOURCE_MOVABLE 9U /*!< Index for rm_set_resource_movable() RPC call */
+#define RM_FUNC_SET_SUBSYS_RSRC_MOVABLE 28U /*!< Index for rm_set_subsys_rsrc_movable() RPC call */
+#define RM_FUNC_SET_MASTER_ATTRIBUTES 10U /*!< Index for rm_set_master_attributes() RPC call */
+#define RM_FUNC_SET_MASTER_SID 11U /*!< Index for rm_set_master_sid() RPC call */
+#define RM_FUNC_SET_PERIPHERAL_PERMISSIONS 12U /*!< Index for rm_set_peripheral_permissions() RPC call */
+#define RM_FUNC_IS_RESOURCE_OWNED 13U /*!< Index for rm_is_resource_owned() RPC call */
+#define RM_FUNC_IS_RESOURCE_MASTER 14U /*!< Index for rm_is_resource_master() RPC call */
+#define RM_FUNC_IS_RESOURCE_PERIPHERAL 15U /*!< Index for rm_is_resource_peripheral() RPC call */
+#define RM_FUNC_GET_RESOURCE_INFO 16U /*!< Index for rm_get_resource_info() RPC call */
+#define RM_FUNC_MEMREG_ALLOC 17U /*!< Index for rm_memreg_alloc() RPC call */
+#define RM_FUNC_MEMREG_SPLIT 29U /*!< Index for rm_memreg_split() RPC call */
+#define RM_FUNC_MEMREG_FREE 18U /*!< Index for rm_memreg_free() RPC call */
+#define RM_FUNC_FIND_MEMREG 30U /*!< Index for rm_find_memreg() RPC call */
+#define RM_FUNC_ASSIGN_MEMREG 19U /*!< Index for rm_assign_memreg() RPC call */
+#define RM_FUNC_SET_MEMREG_PERMISSIONS 20U /*!< Index for rm_set_memreg_permissions() RPC call */
+#define RM_FUNC_IS_MEMREG_OWNED 21U /*!< Index for rm_is_memreg_owned() RPC call */
+#define RM_FUNC_GET_MEMREG_INFO 22U /*!< Index for rm_get_memreg_info() RPC call */
+#define RM_FUNC_ASSIGN_PAD 23U /*!< Index for rm_assign_pad() RPC call */
+#define RM_FUNC_SET_PAD_MOVABLE 24U /*!< Index for rm_set_pad_movable() RPC call */
+#define RM_FUNC_IS_PAD_OWNED 25U /*!< Index for rm_is_pad_owned() RPC call */
+#define RM_FUNC_DUMP 27U /*!< Index for rm_dump() RPC call */
+/*@}*/
+
+/* Types */
+
+/* Functions */
+
+/*!
+ * This function dispatches an incoming RM RPC request.
+ *
+ * @param[in] caller_pt caller partition
+ * @param[in] msg pointer to RPC message
+ */
+void rm_dispatch(sc_rm_pt_t caller_pt, sc_rpc_msg_t *msg);
+
+/*!
+ * This function translates and dispatches an RM RPC request.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] msg pointer to RPC message
+ */
+void rm_xlate(sc_ipc_t ipc, sc_rpc_msg_t *msg);
+
+#endif /* SC_RM_RPC_H */
+
+/**@}*/
+
diff --git a/arch/arm/mach-imx/sci/svc/rm/rpc_clnt.c b/arch/arm/mach-imx/sci/svc/rm/rpc_clnt.c
new file mode 100644
index 0000000000..93dd7a4bd4
--- /dev/null
+++ b/arch/arm/mach-imx/sci/svc/rm/rpc_clnt.c
@@ -0,0 +1,645 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * File containing client-side RPC functions for the RM service. These
+ * functions are ported to clients that communicate to the SC.
+ *
+ * @addtogroup RM_SVC
+ * @{
+ */
+
+/* Includes */
+
+#include <asm/mach-imx/sci/types.h>
+#include <asm/mach-imx/sci/svc/rm/api.h>
+#include <asm/mach-imx/sci/rpc.h>
+#include "rpc.h"
+
+/* Local Defines */
+
+/* Local Types */
+
+/* Local Functions */
+
+sc_err_t sc_rm_partition_alloc(sc_ipc_t ipc, sc_rm_pt_t *pt, sc_bool_t secure,
+ sc_bool_t isolated, sc_bool_t restricted, sc_bool_t grant, sc_bool_t coherent)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_PARTITION_ALLOC;
+ RPC_U8(&msg, 0U) = (uint8_t) secure;
+ RPC_U8(&msg, 1U) = (uint8_t) isolated;
+ RPC_U8(&msg, 2U) = (uint8_t) restricted;
+ RPC_U8(&msg, 3U) = (uint8_t) grant;
+ RPC_U8(&msg, 4U) = (uint8_t) coherent;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ if (pt != NULL)
+ {
+ *pt = RPC_U8(&msg, 0U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_set_confidential(sc_ipc_t ipc, sc_rm_pt_t pt, sc_bool_t retro)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_SET_CONFIDENTIAL;
+ RPC_U8(&msg, 0U) = (uint8_t) pt;
+ RPC_U8(&msg, 1U) = (uint8_t) retro;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_partition_free(sc_ipc_t ipc, sc_rm_pt_t pt)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_PARTITION_FREE;
+ RPC_U8(&msg, 0U) = (uint8_t) pt;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_rm_did_t sc_rm_get_did(sc_ipc_t ipc)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_GET_DID;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_rm_did_t) result;
+}
+
+sc_err_t sc_rm_partition_static(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_rm_did_t did)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_PARTITION_STATIC;
+ RPC_U8(&msg, 0U) = (uint8_t) pt;
+ RPC_U8(&msg, 1U) = (uint8_t) did;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_partition_lock(sc_ipc_t ipc, sc_rm_pt_t pt)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_PARTITION_LOCK;
+ RPC_U8(&msg, 0U) = (uint8_t) pt;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_get_partition(sc_ipc_t ipc, sc_rm_pt_t *pt)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_GET_PARTITION;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ if (pt != NULL)
+ {
+ *pt = RPC_U8(&msg, 0U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_set_parent(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_rm_pt_t pt_parent)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_SET_PARENT;
+ RPC_U8(&msg, 0U) = (uint8_t) pt;
+ RPC_U8(&msg, 1U) = (uint8_t) pt_parent;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_move_all(sc_ipc_t ipc, sc_rm_pt_t pt_src, sc_rm_pt_t pt_dst,
+ sc_bool_t move_rsrc, sc_bool_t move_pads)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_MOVE_ALL;
+ RPC_U8(&msg, 0U) = (uint8_t) pt_src;
+ RPC_U8(&msg, 1U) = (uint8_t) pt_dst;
+ RPC_U8(&msg, 2U) = (uint8_t) move_rsrc;
+ RPC_U8(&msg, 3U) = (uint8_t) move_pads;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_assign_resource(sc_ipc_t ipc, sc_rm_pt_t pt,
+ sc_rsrc_t resource)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_ASSIGN_RESOURCE;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) pt;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_set_resource_movable(sc_ipc_t ipc, sc_rsrc_t resource_fst,
+ sc_rsrc_t resource_lst, sc_bool_t movable)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_SET_RESOURCE_MOVABLE;
+ RPC_U16(&msg, 0U) = (uint16_t) resource_fst;
+ RPC_U16(&msg, 2U) = (uint16_t) resource_lst;
+ RPC_U8(&msg, 4U) = (uint8_t) movable;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_set_subsys_rsrc_movable(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_bool_t movable)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_SET_SUBSYS_RSRC_MOVABLE;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) movable;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_set_master_attributes(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_rm_spa_t sa, sc_rm_spa_t pa, sc_bool_t smmu_bypass)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_SET_MASTER_ATTRIBUTES;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) sa;
+ RPC_U8(&msg, 3U) = (uint8_t) pa;
+ RPC_U8(&msg, 4U) = (uint8_t) smmu_bypass;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_set_master_sid(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_rm_sid_t sid)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_SET_MASTER_SID;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U16(&msg, 2U) = (uint16_t) sid;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_set_peripheral_permissions(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_rm_pt_t pt, sc_rm_perm_t perm)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_SET_PERIPHERAL_PERMISSIONS;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_U8(&msg, 2U) = (uint8_t) pt;
+ RPC_U8(&msg, 3U) = (uint8_t) perm;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_bool_t sc_rm_is_resource_owned(sc_ipc_t ipc, sc_rsrc_t resource)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_IS_RESOURCE_OWNED;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_bool_t) result;
+}
+
+sc_bool_t sc_rm_is_resource_master(sc_ipc_t ipc, sc_rsrc_t resource)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_IS_RESOURCE_MASTER;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_bool_t) result;
+}
+
+sc_bool_t sc_rm_is_resource_peripheral(sc_ipc_t ipc, sc_rsrc_t resource)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_IS_RESOURCE_PERIPHERAL;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_bool_t) result;
+}
+
+sc_err_t sc_rm_get_resource_info(sc_ipc_t ipc, sc_rsrc_t resource,
+ sc_rm_sid_t *sid)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_GET_RESOURCE_INFO;
+ RPC_U16(&msg, 0U) = (uint16_t) resource;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (sid != NULL)
+ {
+ *sid = RPC_U16(&msg, 0U);
+ }
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_memreg_alloc(sc_ipc_t ipc, sc_rm_mr_t *mr,
+ sc_faddr_t addr_start, sc_faddr_t addr_end)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_MEMREG_ALLOC;
+ RPC_U32(&msg, 0U) = (uint32_t) (addr_start >> 32U);
+ RPC_U32(&msg, 4U) = (uint32_t) addr_start;
+ RPC_U32(&msg, 8U) = (uint32_t) (addr_end >> 32U);
+ RPC_U32(&msg, 12U) = (uint32_t) addr_end;
+ RPC_SIZE(&msg) = 5U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ if (mr != NULL)
+ {
+ *mr = RPC_U8(&msg, 0U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_memreg_split(sc_ipc_t ipc, sc_rm_mr_t mr,
+ sc_rm_mr_t *mr_ret, sc_faddr_t addr_start, sc_faddr_t addr_end)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_MEMREG_SPLIT;
+ RPC_U32(&msg, 0U) = (uint32_t) (addr_start >> 32U);
+ RPC_U32(&msg, 4U) = (uint32_t) addr_start;
+ RPC_U32(&msg, 8U) = (uint32_t) (addr_end >> 32U);
+ RPC_U32(&msg, 12U) = (uint32_t) addr_end;
+ RPC_U8(&msg, 16U) = (uint8_t) mr;
+ RPC_SIZE(&msg) = 6U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ if (mr_ret != NULL)
+ {
+ *mr_ret = RPC_U8(&msg, 0U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_memreg_free(sc_ipc_t ipc, sc_rm_mr_t mr)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_MEMREG_FREE;
+ RPC_U8(&msg, 0U) = (uint8_t) mr;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_find_memreg(sc_ipc_t ipc, sc_rm_mr_t *mr,
+ sc_faddr_t addr_start, sc_faddr_t addr_end)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_FIND_MEMREG;
+ RPC_U32(&msg, 0U) = (uint32_t) (addr_start >> 32U);
+ RPC_U32(&msg, 4U) = (uint32_t) addr_start;
+ RPC_U32(&msg, 8U) = (uint32_t) (addr_end >> 32U);
+ RPC_U32(&msg, 12U) = (uint32_t) addr_end;
+ RPC_SIZE(&msg) = 5U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ if (mr != NULL)
+ {
+ *mr = RPC_U8(&msg, 0U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_assign_memreg(sc_ipc_t ipc, sc_rm_pt_t pt, sc_rm_mr_t mr)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_ASSIGN_MEMREG;
+ RPC_U8(&msg, 0U) = (uint8_t) pt;
+ RPC_U8(&msg, 1U) = (uint8_t) mr;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_set_memreg_permissions(sc_ipc_t ipc, sc_rm_mr_t mr,
+ sc_rm_pt_t pt, sc_rm_perm_t perm)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_SET_MEMREG_PERMISSIONS;
+ RPC_U8(&msg, 0U) = (uint8_t) mr;
+ RPC_U8(&msg, 1U) = (uint8_t) pt;
+ RPC_U8(&msg, 2U) = (uint8_t) perm;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_bool_t sc_rm_is_memreg_owned(sc_ipc_t ipc, sc_rm_mr_t mr)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_IS_MEMREG_OWNED;
+ RPC_U8(&msg, 0U) = (uint8_t) mr;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_bool_t) result;
+}
+
+sc_err_t sc_rm_get_memreg_info(sc_ipc_t ipc, sc_rm_mr_t mr,
+ sc_faddr_t *addr_start, sc_faddr_t *addr_end)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_GET_MEMREG_INFO;
+ RPC_U8(&msg, 0U) = (uint8_t) mr;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (addr_start != NULL)
+ {
+ *addr_start = ((uint64_t) RPC_U32(&msg, 0U) << 32U) | RPC_U32(&msg, 4U);
+ }
+
+ if (addr_end != NULL)
+ {
+ *addr_end = ((uint64_t) RPC_U32(&msg, 8U) << 32U) | RPC_U32(&msg, 12U);
+ }
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_assign_pad(sc_ipc_t ipc, sc_rm_pt_t pt, sc_pad_t pad)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_ASSIGN_PAD;
+ RPC_U16(&msg, 0U) = (uint16_t) pad;
+ RPC_U8(&msg, 2U) = (uint8_t) pt;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_rm_set_pad_movable(sc_ipc_t ipc, sc_pad_t pad_fst,
+ sc_pad_t pad_lst, sc_bool_t movable)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_SET_PAD_MOVABLE;
+ RPC_U16(&msg, 0U) = (uint16_t) pad_fst;
+ RPC_U16(&msg, 2U) = (uint16_t) pad_lst;
+ RPC_U8(&msg, 4U) = (uint8_t) movable;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_bool_t sc_rm_is_pad_owned(sc_ipc_t ipc, sc_pad_t pad)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_IS_PAD_OWNED;
+ RPC_U8(&msg, 0U) = (uint8_t) pad;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_bool_t) result;
+}
+
+void sc_rm_dump(sc_ipc_t ipc)
+{
+ sc_rpc_msg_t msg;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_RM;
+ RPC_FUNC(&msg) = (uint8_t) RM_FUNC_DUMP;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ return;
+}
+
+/**@}*/
+
diff --git a/arch/arm/mach-imx/sci/svc/timer/rpc.h b/arch/arm/mach-imx/sci/svc/timer/rpc.h
new file mode 100644
index 0000000000..0c498e97f0
--- /dev/null
+++ b/arch/arm/mach-imx/sci/svc/timer/rpc.h
@@ -0,0 +1,67 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * Header file for the TIMER RPC implementation.
+ *
+ * @addtogroup TIMER_SVC
+ * @{
+ */
+
+#ifndef SC_TIMER_RPC_H
+#define SC_TIMER_RPC_H
+
+/* Includes */
+
+/* Defines */
+
+/*!
+ * @name Defines for RPC TIMER function calls
+ */
+/*@{*/
+#define TIMER_FUNC_UNKNOWN 0 /*!< Unknown function */
+#define TIMER_FUNC_SET_WDOG_TIMEOUT 1U /*!< Index for timer_set_wdog_timeout() RPC call */
+#define TIMER_FUNC_SET_WDOG_PRE_TIMEOUT 12U /*!< Index for timer_set_wdog_pre_timeout() RPC call */
+#define TIMER_FUNC_START_WDOG 2U /*!< Index for timer_start_wdog() RPC call */
+#define TIMER_FUNC_STOP_WDOG 3U /*!< Index for timer_stop_wdog() RPC call */
+#define TIMER_FUNC_PING_WDOG 4U /*!< Index for timer_ping_wdog() RPC call */
+#define TIMER_FUNC_GET_WDOG_STATUS 5U /*!< Index for timer_get_wdog_status() RPC call */
+#define TIMER_FUNC_PT_GET_WDOG_STATUS 13U /*!< Index for timer_pt_get_wdog_status() RPC call */
+#define TIMER_FUNC_SET_WDOG_ACTION 10U /*!< Index for timer_set_wdog_action() RPC call */
+#define TIMER_FUNC_SET_RTC_TIME 6U /*!< Index for timer_set_rtc_time() RPC call */
+#define TIMER_FUNC_GET_RTC_TIME 7U /*!< Index for timer_get_rtc_time() RPC call */
+#define TIMER_FUNC_GET_RTC_SEC1970 9U /*!< Index for timer_get_rtc_sec1970() RPC call */
+#define TIMER_FUNC_SET_RTC_ALARM 8U /*!< Index for timer_set_rtc_alarm() RPC call */
+#define TIMER_FUNC_SET_RTC_PERIODIC_ALARM 14U /*!< Index for timer_set_rtc_periodic_alarm() RPC call */
+#define TIMER_FUNC_CANCEL_RTC_ALARM 15U /*!< Index for timer_cancel_rtc_alarm() RPC call */
+#define TIMER_FUNC_SET_RTC_CALB 11U /*!< Index for timer_set_rtc_calb() RPC call */
+/*@}*/
+
+/* Types */
+
+/* Functions */
+
+/*!
+ * This function dispatches an incoming TIMER RPC request.
+ *
+ * @param[in] caller_pt caller partition
+ * @param[in] msg pointer to RPC message
+ */
+void timer_dispatch(sc_rm_pt_t caller_pt, sc_rpc_msg_t *msg);
+
+/*!
+ * This function translates and dispatches an TIMER RPC request.
+ *
+ * @param[in] ipc IPC handle
+ * @param[in] msg pointer to RPC message
+ */
+void timer_xlate(sc_ipc_t ipc, sc_rpc_msg_t *msg);
+
+#endif /* SC_TIMER_RPC_H */
+
+/**@}*/
+
diff --git a/arch/arm/mach-imx/sci/svc/timer/rpc_clnt.c b/arch/arm/mach-imx/sci/svc/timer/rpc_clnt.c
new file mode 100644
index 0000000000..69c3351594
--- /dev/null
+++ b/arch/arm/mach-imx/sci/svc/timer/rpc_clnt.c
@@ -0,0 +1,365 @@
+/*
+ * Copyright (C) 2016 Freescale Semiconductor, Inc.
+ * Copyright 2017-2018 NXP
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+/*!
+ * File containing client-side RPC functions for the TIMER service. These
+ * functions are ported to clients that communicate to the SC.
+ *
+ * @addtogroup TIMER_SVC
+ * @{
+ */
+
+/* Includes */
+
+#include <asm/mach-imx/sci/types.h>
+#include <asm/mach-imx/sci/svc/rm/api.h>
+#include <asm/mach-imx/sci/svc/timer/api.h>
+#include <asm/mach-imx/sci/rpc.h>
+#include "rpc.h"
+
+/* Local Defines */
+
+/* Local Types */
+
+/* Local Functions */
+
+sc_err_t sc_timer_set_wdog_timeout(sc_ipc_t ipc,
+ sc_timer_wdog_time_t timeout)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_SET_WDOG_TIMEOUT;
+ RPC_U32(&msg, 0U) = (uint32_t) timeout;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_timer_set_wdog_pre_timeout(sc_ipc_t ipc,
+ sc_timer_wdog_time_t pre_timeout)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_SET_WDOG_PRE_TIMEOUT;
+ RPC_U32(&msg, 0U) = (uint32_t) pre_timeout;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_timer_start_wdog(sc_ipc_t ipc, sc_bool_t lock)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_START_WDOG;
+ RPC_U8(&msg, 0U) = (uint8_t) lock;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_timer_stop_wdog(sc_ipc_t ipc)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_STOP_WDOG;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_timer_ping_wdog(sc_ipc_t ipc)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_PING_WDOG;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_timer_get_wdog_status(sc_ipc_t ipc,
+ sc_timer_wdog_time_t *timeout, sc_timer_wdog_time_t *max_timeout,
+ sc_timer_wdog_time_t *remaining_time)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_GET_WDOG_STATUS;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (timeout != NULL)
+ {
+ *timeout = RPC_U32(&msg, 0U);
+ }
+
+ if (max_timeout != NULL)
+ {
+ *max_timeout = RPC_U32(&msg, 4U);
+ }
+
+ if (remaining_time != NULL)
+ {
+ *remaining_time = RPC_U32(&msg, 8U);
+ }
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_timer_pt_get_wdog_status(sc_ipc_t ipc, sc_rm_pt_t pt, sc_bool_t *enb,
+ sc_timer_wdog_time_t *timeout, sc_timer_wdog_time_t *remaining_time)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_PT_GET_WDOG_STATUS;
+ RPC_U8(&msg, 0U) = (uint8_t) pt;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (timeout != NULL)
+ {
+ *timeout = RPC_U32(&msg, 0U);
+ }
+
+ if (remaining_time != NULL)
+ {
+ *remaining_time = RPC_U32(&msg, 4U);
+ }
+
+ result = RPC_R8(&msg);
+ if (enb != NULL)
+ {
+ *enb = RPC_U8(&msg, 8U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_timer_set_wdog_action(sc_ipc_t ipc,
+ sc_rm_pt_t pt, sc_timer_wdog_action_t action)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_SET_WDOG_ACTION;
+ RPC_U8(&msg, 0U) = (uint8_t) pt;
+ RPC_U8(&msg, 1U) = (uint8_t) action;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_timer_set_rtc_time(sc_ipc_t ipc, uint16_t year, uint8_t mon,
+ uint8_t day, uint8_t hour, uint8_t min, uint8_t sec)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_SET_RTC_TIME;
+ RPC_U16(&msg, 0U) = (uint16_t) year;
+ RPC_U8(&msg, 2U) = (uint8_t) mon;
+ RPC_U8(&msg, 3U) = (uint8_t) day;
+ RPC_U8(&msg, 4U) = (uint8_t) hour;
+ RPC_U8(&msg, 5U) = (uint8_t) min;
+ RPC_U8(&msg, 6U) = (uint8_t) sec;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_timer_get_rtc_time(sc_ipc_t ipc, uint16_t *year, uint8_t *mon,
+ uint8_t *day, uint8_t *hour, uint8_t *min, uint8_t *sec)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_GET_RTC_TIME;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (year != NULL)
+ {
+ *year = RPC_U16(&msg, 0U);
+ }
+
+ result = RPC_R8(&msg);
+ if (mon != NULL)
+ {
+ *mon = RPC_U8(&msg, 2U);
+ }
+
+ if (day != NULL)
+ {
+ *day = RPC_U8(&msg, 3U);
+ }
+
+ if (hour != NULL)
+ {
+ *hour = RPC_U8(&msg, 4U);
+ }
+
+ if (min != NULL)
+ {
+ *min = RPC_U8(&msg, 5U);
+ }
+
+ if (sec != NULL)
+ {
+ *sec = RPC_U8(&msg, 6U);
+ }
+
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_timer_get_rtc_sec1970(sc_ipc_t ipc, uint32_t *sec)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_GET_RTC_SEC1970;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ if (sec != NULL)
+ {
+ *sec = RPC_U32(&msg, 0U);
+ }
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_timer_set_rtc_alarm(sc_ipc_t ipc, uint16_t year, uint8_t mon,
+ uint8_t day, uint8_t hour, uint8_t min, uint8_t sec)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_SET_RTC_ALARM;
+ RPC_U16(&msg, 0U) = (uint16_t) year;
+ RPC_U8(&msg, 2U) = (uint8_t) mon;
+ RPC_U8(&msg, 3U) = (uint8_t) day;
+ RPC_U8(&msg, 4U) = (uint8_t) hour;
+ RPC_U8(&msg, 5U) = (uint8_t) min;
+ RPC_U8(&msg, 6U) = (uint8_t) sec;
+ RPC_SIZE(&msg) = 3U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_timer_set_rtc_periodic_alarm(sc_ipc_t ipc, uint32_t sec)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_SET_RTC_PERIODIC_ALARM;
+ RPC_U32(&msg, 0U) = (uint32_t) sec;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_timer_cancel_rtc_alarm(sc_ipc_t ipc)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_CANCEL_RTC_ALARM;
+ RPC_SIZE(&msg) = 1U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+sc_err_t sc_timer_set_rtc_calb(sc_ipc_t ipc, int8_t count)
+{
+ sc_rpc_msg_t msg;
+ uint8_t result;
+
+ RPC_VER(&msg) = SC_RPC_VERSION;
+ RPC_SVC(&msg) = (uint8_t) SC_RPC_SVC_TIMER;
+ RPC_FUNC(&msg) = (uint8_t) TIMER_FUNC_SET_RTC_CALB;
+ RPC_I8(&msg, 0U) = (int8_t) count;
+ RPC_SIZE(&msg) = 2U;
+
+ sc_call_rpc(ipc, &msg, SC_FALSE);
+
+ result = RPC_R8(&msg);
+ return (sc_err_t) result;
+}
+
+/**@}*/
+
generated by cgit v1.2.3 (git 2.0.4) at 2024-07-08 04:37:13 +0000