diff options
author | Anson Huang <Anson.Huang@nxp.com> | 2017-01-19 03:59:00 +0800 |
---|---|---|
committer | Jason Liu <jason.hui.liu@nxp.com> | 2019-02-12 10:25:35 +0800 |
commit | 7e9ab097fb6f098b03246fa3ac4ef2330a66ba07 (patch) | |
tree | 79e25264b7890721ca8dfa3521bc9cbf452745ac | |
parent | ca5639ee39f696090aaf5e236358abd6f09770eb (diff) |
MLK-13911-5 soc: scfw: imx8: add SCFW
Add i.MX8 SCFW API support.
Based on below commit:
(fcd0efb5f2550712bd7d27f1279e51f7f687f71d)
Fix MX8 MU driver to follow Linux coding conventions.
Remove unused functions.
Signed-off-by: Anson Huang <Anson.Huang@nxp.com>
Signed-off-by: Ranjani Vaidyanathan <Ranjani.Vaidyanathan@nxp.com>
Added to drivers/soc/imx instead of drivers/soc/imx8
Skipped imx8 imx_rpmsg code
Signed-off-by: Leonard Crestez <leonard.crestez@nxp.com>
34 files changed, 7579 insertions, 1 deletions
diff --git a/drivers/soc/Makefile b/drivers/soc/Makefile index 36dec140ea0d..e60a4a710c39 100644 --- a/drivers/soc/Makefile +++ b/drivers/soc/Makefile @@ -9,7 +9,7 @@ obj-y += bcm/ obj-$(CONFIG_ARCH_DOVE) += dove/ obj-$(CONFIG_MACH_DOVE) += dove/ obj-y += fsl/ -obj-$(CONFIG_ARCH_MXC) += imx/ +obj-y += imx/ obj-$(CONFIG_SOC_XWAY) += lantiq/ obj-$(CONFIG_ARCH_MEDIATEK) += mediatek/ obj-$(CONFIG_ARCH_MESON) += amlogic/ diff --git a/drivers/soc/imx/Makefile b/drivers/soc/imx/Makefile index aab41a5cc317..49fdc3dc8ea2 100644 --- a/drivers/soc/imx/Makefile +++ b/drivers/soc/imx/Makefile @@ -1,2 +1,4 @@ obj-$(CONFIG_HAVE_IMX_GPC) += gpc.o obj-$(CONFIG_IMX7_PM_DOMAINS) += gpcv2.o +obj-$(CONFIG_ARCH_FSL_IMX8QM) += mu/ +obj-$(CONFIG_ARCH_FSL_IMX8QM) += sc/ diff --git a/drivers/soc/imx/mu/Makefile b/drivers/soc/imx/mu/Makefile new file mode 100644 index 000000000000..922308c3f90f --- /dev/null +++ b/drivers/soc/imx/mu/Makefile @@ -0,0 +1 @@ +obj-y += mx8_mu.o diff --git a/drivers/soc/imx/mu/mx8_mu.c b/drivers/soc/imx/mu/mx8_mu.c new file mode 100644 index 000000000000..ed341d695af4 --- /dev/null +++ b/drivers/soc/imx/mu/mx8_mu.c @@ -0,0 +1,78 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#include <linux/err.h> +#include <linux/io.h> +#include "mx8_mu.h" + + +/*! + * This function enables specific RX full interrupt. + */ +void MU_EnableRxFullInt(void __iomem *base, uint32_t index) +{ + uint32_t reg = readl_relaxed(base + MU_ACR_OFFSET1); + + reg &= ~(MU_CR_GIRn_MASK1 | MU_CR_NMI_MASK1); + reg |= ~MU_CR_RIE0_MASK1 >> index; + writel_relaxed(reg, base + MU_ACR_OFFSET1); +} + +/*! + * This function enables specific general purpose interrupt. + */ +void MU_EnableGeneralInt(void __iomem *base, uint32_t index) +{ + uint32_t reg = readl_relaxed(base + MU_ACR_OFFSET1); + + reg &= ~(MU_CR_GIRn_MASK1 | MU_CR_NMI_MASK1); + reg |= MU_CR_GIE0_MASK1 >> index; + writel_relaxed(reg, base + MU_ACR_OFFSET1); +} + +/* + * Wait and send message to the other core. + */ +void MU_SendMessage(void __iomem *base, uint32_t regIndex, uint32_t msg) +{ + uint32_t mask = MU_SR_TE0_MASK1 >> regIndex; + + /* Wait TX register to be empty. */ + while (!(readl_relaxed(base + MU_ASR_OFFSET1) & mask)) + ; + writel_relaxed(msg, base + MU_ATR0_OFFSET1 + (regIndex * 4)); +} + + +/* + * Wait to receive message from the other core. + */ +void MU_ReceiveMsg(void __iomem *base, uint32_t regIndex, uint32_t *msg) +{ + uint32_t mask = MU_SR_RF0_MASK1 >> regIndex; + + /* Wait RX register to be full. */ + while (!(readl_relaxed(base + MU_ASR_OFFSET1) & mask)) + ; + *msg = readl_relaxed(base + MU_ARR0_OFFSET1 + (regIndex * 4)); +} + + + +void MU_Init(void __iomem *base) +{ + uint32_t reg; + + reg = readl_relaxed(base + MU_ACR_OFFSET1); + /* Clear GIEn, RIEn, TIEn, GIRn and ABFn. */ + reg &= ~(MU_CR_GIEn_MASK1 | MU_CR_RIEn_MASK1 | MU_CR_TIEn_MASK1 + | MU_CR_GIRn_MASK1 | MU_CR_NMI_MASK1 | MU_CR_Fn_MASK1); + writel_relaxed(reg, base + MU_ACR_OFFSET1); +} + +/**@}*/ + diff --git a/drivers/soc/imx/mu/mx8_mu.h b/drivers/soc/imx/mu/mx8_mu.h new file mode 100644 index 000000000000..7d428acf229e --- /dev/null +++ b/drivers/soc/imx/mu/mx8_mu.h @@ -0,0 +1,36 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#define MU_ATR0_OFFSET1 0x0 +#define MU_ARR0_OFFSET1 0x10 +#define MU_ASR_OFFSET1 0x20 +#define MU_ACR_OFFSET1 0x24 +#define MU_TR_COUNT1 4 +#define MU_RR_COUNT1 4 + +#define MU_CR_GIEn_MASK1 (0xF << 28) +#define MU_CR_RIEn_MASK1 (0xF << 24) +#define MU_CR_TIEn_MASK1 (0xF << 20) +#define MU_CR_GIRn_MASK1 (0xF << 16) +#define MU_CR_NMI_MASK1 (1 << 3) +#define MU_CR_Fn_MASK1 0x7 + +#define MU_SR_TE0_MASK1 (1 << 23) +#define MU_SR_RF0_MASK1 (1 << 27) +#define MU_CR_RIE0_MASK1 (1 << 27) +#define MU_CR_GIE0_MASK1 (1 << 31) + +#define MU_TR_COUNT 4 +#define MU_RR_COUNT 4 + + +void MU_Init(void __iomem *base); +void MU_SendMessage(void __iomem *base, uint32_t regIndex, uint32_t msg); +void MU_ReceiveMsg(void __iomem *base, uint32_t regIndex, uint32_t *msg); +void MU_EnableGeneralInt(void __iomem *base, uint32_t index); +void MU_EnableRxFullInt(void __iomem *base, uint32_t index); + diff --git a/drivers/soc/imx/sc/Makefile b/drivers/soc/imx/sc/Makefile new file mode 100644 index 000000000000..851c687ce7b3 --- /dev/null +++ b/drivers/soc/imx/sc/Makefile @@ -0,0 +1,8 @@ +obj-y += main/ipc.o +obj-y += svc/misc/rpc_clnt.o +obj-y += svc/pad/rpc_clnt.o +obj-y += svc/pm/rpc_clnt.o +obj-y += svc/rm/rpc_clnt.o +obj-y += svc/timer/rpc_clnt.o +obj-y += svc/irq/rpc_clnt.o + diff --git a/drivers/soc/imx/sc/main/ipc.c b/drivers/soc/imx/sc/main/ipc.c new file mode 100644 index 000000000000..0be06479bb03 --- /dev/null +++ b/drivers/soc/imx/sc/main/ipc.c @@ -0,0 +1,366 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +/* Includes */ +#include <linux/err.h> +#include <linux/kernel.h> +#include <linux/of.h> +#include <linux/of_irq.h> +#include <linux/of_address.h> +#include <linux/of_device.h> +#include <linux/of_fdt.h> +#include <linux/interrupt.h> +#include <linux/irq.h> + +#include <soc/imx8/sc/svc/irq/api.h> +#include <soc/imx8/sc/ipc.h> +#include <soc/imx8/sc/sci.h> + +#include "../../mu/mx8_mu.h" +#include "rpc.h" + +/* Local Defines */ +#define MU_SIZE 0x10000 + +/* Local Types */ +unsigned int scu_mu_id; +static void __iomem *mu_base_virtaddr; +static struct delayed_work scu_mu_work; +static sc_ipc_t mu_ipcHandle; + +/* Local functions */ + +/* Local variables */ +static uint32_t gIPCport; +static bool scu_mu_init; + +DEFINE_MUTEX(scu_mu_mutex); + +static BLOCKING_NOTIFIER_HEAD(SCU_notifier_chain); + +EXPORT_SYMBOL(sc_pm_set_resource_power_mode); +EXPORT_SYMBOL(sc_pm_get_resource_power_mode); +EXPORT_SYMBOL(sc_pm_cpu_start); +EXPORT_SYMBOL(sc_misc_set_control); +EXPORT_SYMBOL(sc_pm_clock_enable); +EXPORT_SYMBOL(sc_pm_set_clock_rate); +/*--------------------------------------------------------------------------*/ +/* RPC command/response */ +/*--------------------------------------------------------------------------*/ +void sc_call_rpc(sc_ipc_t handle, sc_rpc_msg_t *msg, bool no_resp) +{ + if (in_interrupt()) { + pr_warn("Cannot make SC IPC calls from an interrupt context\n"); + dump_stack(); + return; + } + mutex_lock(&scu_mu_mutex); + + sc_ipc_write(handle, msg); + if (!no_resp) + sc_ipc_read(handle, msg); + + mutex_unlock(&scu_mu_mutex); +} +EXPORT_SYMBOL(sc_call_rpc); + +/*--------------------------------------------------------------------------*/ +/* Get MU base address for specified IPC channel */ +/*--------------------------------------------------------------------------*/ +static uint32_t *sc_ipc_get_mu_base(uint32_t id) +{ + uint32_t *base; + + /* Check parameters */ + if (id >= SC_NUM_IPC) + base = NULL; + else + base = (uint32_t *) (mu_base_virtaddr + (id * MU_SIZE)); + + return base; +} + +/*--------------------------------------------------------------------------*/ +/* Get the MU ID used by Linux */ +/*--------------------------------------------------------------------------*/ +int sc_ipc_getMuID(uint32_t *mu_id) +{ + if (scu_mu_init) { + *mu_id = scu_mu_id; + return SC_ERR_NONE; + } + return SC_ERR_UNAVAILABLE; +} + +EXPORT_SYMBOL(sc_ipc_getMuID); + +/*--------------------------------------------------------------------------*/ +/* Open an IPC channel */ +/*--------------------------------------------------------------------------*/ +sc_err_t sc_ipc_requestInt(sc_ipc_t *handle, uint32_t id) +{ + return SC_ERR_NONE; +} + +/*--------------------------------------------------------------------------*/ +/* Open an IPC channel */ +/*--------------------------------------------------------------------------*/ +sc_err_t sc_ipc_open(sc_ipc_t *handle, uint32_t id) +{ + uint32_t *base; + + mutex_lock(&scu_mu_mutex); + + if (!scu_mu_init) { + mutex_unlock(&scu_mu_mutex); + return SC_ERR_UNAVAILABLE; + } + /* Get MU base associated with IPC channel */ + base = sc_ipc_get_mu_base(id); + + if (base == NULL) { + mutex_unlock(&scu_mu_mutex); + return SC_ERR_IPC; + } + + *handle = (sc_ipc_t) task_pid_vnr(current); + + mutex_unlock(&scu_mu_mutex); + + return SC_ERR_NONE; +} +EXPORT_SYMBOL(sc_ipc_open); +/*--------------------------------------------------------------------------*/ +/* Close an IPC channel */ +/*--------------------------------------------------------------------------*/ +void sc_ipc_close(sc_ipc_t handle) +{ + uint32_t *base; + + mutex_lock(&scu_mu_mutex); + + if (!scu_mu_init) { + mutex_unlock(&scu_mu_mutex); + return; + } + + /* Get MU base associated with IPC channel */ + base = sc_ipc_get_mu_base(gIPCport); + + /* TBD ***** What needs to be done here? */ + mutex_unlock(&scu_mu_mutex); +} +EXPORT_SYMBOL(sc_ipc_close); + +/*! + * 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 handle, void *data) +{ + uint32_t *base; + uint8_t count = 0; + sc_rpc_msg_t *msg = (sc_rpc_msg_t *) data; + + /* Get MU base associated with IPC channel */ + base = sc_ipc_get_mu_base(gIPCport); + + if ((base == NULL) || (msg == NULL)) + return; + + /* Read first word */ + MU_ReceiveMsg(base, 0, (uint32_t *) msg); + count++; + + /* Check size */ + if (msg->size > SC_RPC_MAX_MSG) { + *((uint32_t *) msg) = 0; + return; + } + + /* Read remaining words */ + while (count < msg->size) { + MU_ReceiveMsg(base, count % MU_RR_COUNT, + &(msg->DATA.u32[count - 1])); + count++; + } +} + +/*! + * 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 handle, void *data) +{ + uint32_t *base; + uint8_t count = 0; + sc_rpc_msg_t *msg = (sc_rpc_msg_t *) data; + + /* Get MU base associated with IPC channel */ + base = sc_ipc_get_mu_base(gIPCport); + + if ((base == NULL) || (msg == NULL)) + return; + + /* Check size */ + if (msg->size > SC_RPC_MAX_MSG) + return; + + /* Write first word */ + MU_SendMessage(base, 0, *((uint32_t *) msg)); + count++; + + /* Write remaining words */ + while (count < msg->size) { + MU_SendMessage(base, count % MU_TR_COUNT, msg->DATA.u32[count - 1]); + count++; + } +} + +int register_scu_notifier(struct notifier_block *nb) +{ + return blocking_notifier_chain_register(&SCU_notifier_chain, nb); +} + +EXPORT_SYMBOL(register_scu_notifier); + +int unregister_scu_notifier(struct notifier_block *nb) +{ + return blocking_notifier_chain_unregister(&SCU_notifier_chain, nb); +} + +EXPORT_SYMBOL(unregister_scu_notifier); + +static int SCU_notifier_call_chain(unsigned long val) +{ + return (blocking_notifier_call_chain(&SCU_notifier_chain, val, NULL) == + NOTIFY_BAD) ? -EINVAL : 0; +} + +static void scu_mu_work_handler(struct work_struct *work) +{ + uint32_t irq_status; + sc_err_t sciErr; + + /* Figure out what caused the interrupt. */ + sciErr = sc_irq_status(mu_ipcHandle, SC_R_MU_0A, SC_IRQ_GROUP_TEMP, + &irq_status); + + if (irq_status & (SC_IRQ_TEMP_PMIC0_HIGH | SC_IRQ_TEMP_PMIC1_HIGH)) + SCU_notifier_call_chain(irq_status); + + sciErr = sc_irq_status(mu_ipcHandle, SC_R_MU_0A, SC_IRQ_GROUP_RTC, + &irq_status); + + if (irq_status & SC_IRQ_RTC) + SCU_notifier_call_chain(irq_status); +} + +static irqreturn_t imx8_scu_mu_isr(int irq, void *param) +{ + u32 irqs; + + irqs = (readl_relaxed(mu_base_virtaddr + 0x20) & (0xf << 28)); + if (irqs) { + /* Clear the General Interrupt */ + writel_relaxed(irqs, mu_base_virtaddr + 0x20); + /* Setup a bottom-half to handle the irq work. */ + schedule_delayed_work(&scu_mu_work, 0); + } + return IRQ_HANDLED; +} + +/*Initialization of the MU code. */ +int __init imx8_mu_init(void) +{ + struct device_node *np; + u32 irq; + int err; + sc_err_t sciErr; + + /* + * Get the address of MU to be used for communication with the SCU + */ + np = of_find_compatible_node(NULL, NULL, "fsl,imx8-mu"); + if (!np) { + pr_info("Cannot find MU entry in device tree\n"); + return 0; + } + mu_base_virtaddr = of_iomap(np, 0); + WARN_ON(!mu_base_virtaddr); + + err = of_property_read_u32_index(np, "fsl,scu_ap_mu_id", 0, &scu_mu_id); + if (err) + pr_info("imx8_mu_init: Cannot get mu_id err = %d\n", err); + + irq = of_irq_get(np, 0); + + err = request_irq(irq, imx8_scu_mu_isr, + IRQF_EARLY_RESUME, "imx8_mu_isr", NULL); + + if (err) { + pr_info("imx8_mu_init :request_irq failed %d, err = %d\n", irq, + err); + } + + if (!scu_mu_init) { + uint32_t i; + + INIT_DELAYED_WORK(&scu_mu_work, scu_mu_work_handler); + + /* Init MU */ + MU_Init(mu_base_virtaddr); + +#if 1 + /* Enable all RX interrupts */ + for (i = 0; i < MU_RR_COUNT; i++) + MU_EnableGeneralInt(mu_base_virtaddr, i); +#endif + gIPCport = scu_mu_id; + scu_mu_init = true; + } + + sciErr = sc_ipc_open(&mu_ipcHandle, scu_mu_id); + if (sciErr != SC_ERR_NONE) { + pr_info("Cannot open MU channel to SCU\n"); + return sciErr; + }; + + /* Request for the high temp interrupt. */ + sciErr = sc_irq_enable(mu_ipcHandle, SC_R_MU_0A, SC_IRQ_GROUP_TEMP, + SC_IRQ_TEMP_PMIC0_HIGH, true); + + if (sciErr) + pr_info("Cannot request PMIC0_TEMP interrupt\n"); + + /* Request for the high temp interrupt. */ + sciErr = sc_irq_enable(mu_ipcHandle, SC_R_MU_0A, SC_IRQ_GROUP_TEMP, + SC_IRQ_TEMP_PMIC1_HIGH, true); + + if (sciErr) + pr_info("Cannot request PMIC1_TEMP interrupt\n"); + + /* Request for the rtc alarm interrupt. */ + sciErr = sc_irq_enable(mu_ipcHandle, SC_R_MU_0A, SC_IRQ_GROUP_RTC, + SC_IRQ_RTC, true); + + if (sciErr) + pr_info("Cannot request ALARM_RTC interrupt\n"); + + pr_info("*****Initialized MU\n"); + return scu_mu_id; +} + +early_initcall(imx8_mu_init); diff --git a/drivers/soc/imx/sc/main/rpc.h b/drivers/soc/imx/sc/main/rpc.h new file mode 100644 index 000000000000..85cff2315f65 --- /dev/null +++ b/drivers/soc/imx/sc/main/rpc.h @@ -0,0 +1,124 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +/*! + * Header file for the RPC implementation. + */ + +#ifndef _SC_RPC_H +#define _SC_RPC_H + +/* Includes */ + +#include <soc/imx8/sc/types.h> +#include <soc/imx8/sc/ipc.h> + +/* Defines */ + +#define SC_RPC_VERSION 1 + +#define SC_RPC_MAX_MSG 8 + +#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) / 4]) +#define RPC_I16(MSG, IDX) ((MSG)->DATA.i16[(IDX) / 2]) +#define RPC_I8(MSG, IDX) ((MSG)->DATA.i8[(IDX)]) +#define RPC_U32(MSG, IDX) ((MSG)->DATA.u32[(IDX) / 4]) +#define RPC_U16(MSG, IDX) ((MSG)->DATA.u16[(IDX) / 2]) +#define RPC_U8(MSG, IDX) ((MSG)->DATA.u8[(IDX)]) + +/* Types */ + +typedef enum sc_rpc_svc_e { + SC_RPC_SVC_UNKNOWN = 0, + SC_RPC_SVC_RETURN = 1, + SC_RPC_SVC_PM = 2, + SC_RPC_SVC_RM = 3, + SC_RPC_SVC_TIMER = 5, + SC_RPC_SVC_PAD = 6, + SC_RPC_SVC_MISC = 7, + SC_RPC_SVC_IRQ = 8, + SC_RPC_SVC_ABORT = 9 +} 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 - 1)]; + int16_t i16[(SC_RPC_MAX_MSG - 1) * 2]; + int8_t i8[(SC_RPC_MAX_MSG - 1) * 4]; + uint32_t u32[(SC_RPC_MAX_MSG - 1)]; + uint16_t u16[(SC_RPC_MAX_MSG - 1) * 2]; + uint8_t u8[(SC_RPC_MAX_MSG - 1) * 4]; + } DATA; +} sc_rpc_msg_t; + +typedef enum sc_rpc_async_state_e { + SC_RPC_ASYNC_STATE_RD_START = 0, + SC_RPC_ASYNC_STATE_RD_ACTIVE = 1, + SC_RPC_ASYNC_STATE_RD_DONE = 2, + SC_RPC_ASYNC_STATE_WR_START = 3, + SC_RPC_ASYNC_STATE_WR_ACTIVE = 4, + SC_RPC_ASYNC_STATE_WR_DONE = 5, +} 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 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, bool 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/drivers/soc/imx/sc/svc/irq/rpc.h b/drivers/soc/imx/sc/svc/irq/rpc.h new file mode 100644 index 000000000000..93ce7c3b87a3 --- /dev/null +++ b/drivers/soc/imx/sc/svc/irq/rpc.h @@ -0,0 +1,53 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 */ + +/* Types */ + +/*! + * This type is used to indicate RPC IRQ function calls. + */ +typedef enum irq_func_e { + IRQ_FUNC_UNKNOWN = 0, /* Unknown function */ + IRQ_FUNC_ENABLE = 1, /* Index for irq_enable() RPC call */ + IRQ_FUNC_STATUS = 2, /* Index for irq_status() RPC call */ +} irq_func_t; + +/* 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/drivers/soc/imx/sc/svc/irq/rpc_clnt.c b/drivers/soc/imx/sc/svc/irq/rpc_clnt.c new file mode 100644 index 000000000000..779be383aea3 --- /dev/null +++ b/drivers/soc/imx/sc/svc/irq/rpc_clnt.c @@ -0,0 +1,74 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 <soc/imx8/sc/types.h> +#include <soc/imx8/sc/svc/rm/api.h> +#include <soc/imx8/sc/svc/irq/api.h> +#include "../../main/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, bool 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, 0) = mask; + RPC_U16(&msg, 4) = resource; + RPC_U8(&msg, 6) = group; + RPC_U8(&msg, 7) = (uint8_t)enable; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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, 0) = resource; + RPC_U8(&msg, 2) = group; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + if (status != NULL) { + *status = RPC_U32(&msg, 0); + } + + result = RPC_R8(&msg); + return (sc_err_t)result; +} + +/**@}*/ diff --git a/drivers/soc/imx/sc/svc/misc/rpc.h b/drivers/soc/imx/sc/svc/misc/rpc.h new file mode 100644 index 000000000000..087b6b9f6dea --- /dev/null +++ b/drivers/soc/imx/sc/svc/misc/rpc.h @@ -0,0 +1,70 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 */ + +/* Types */ + +/*! + * This type is used to indicate RPC MISC function calls. + */ +typedef enum misc_func_e { + MISC_FUNC_UNKNOWN = 0, /* Unknown function */ + MISC_FUNC_SET_CONTROL = 1, /* Index for misc_set_control() RPC call */ + MISC_FUNC_GET_CONTROL = 2, /* Index for misc_get_control() RPC call */ + MISC_FUNC_SET_MAX_DMA_GROUP = 4, /* Index for misc_set_max_dma_group() RPC call */ + MISC_FUNC_SET_DMA_GROUP = 5, /* Index for misc_set_dma_group() RPC call */ + MISC_FUNC_SECO_IMAGE_LOAD = 8, /* Index for misc_seco_image_load() RPC call */ + MISC_FUNC_SECO_AUTHENTICATE = 9, /* Index for misc_seco_authenticate() RPC call */ + MISC_FUNC_DEBUG_OUT = 10, /* Index for misc_debug_out() RPC call */ + MISC_FUNC_WAVEFORM_CAPTURE = 6, /* Index for misc_waveform_capture() RPC call */ + MISC_FUNC_BUILD_INFO = 15, /* Index for misc_build_info() RPC call */ + MISC_FUNC_UNIQUE_ID = 19, /* Index for misc_unique_id() RPC call */ + MISC_FUNC_SET_ARI = 3, /* Index for misc_set_ari() RPC call */ + MISC_FUNC_BOOT_STATUS = 7, /* Index for misc_boot_status() RPC call */ + MISC_FUNC_BOOT_DONE = 14, /* Index for misc_boot_done() RPC call */ + MISC_FUNC_OTP_FUSE_READ = 11, /* Index for misc_otp_fuse_read() RPC call */ + MISC_FUNC_OTP_FUSE_WRITE = 17, /* Index for misc_otp_fuse_write() RPC call */ + MISC_FUNC_SET_TEMP = 12, /* Index for misc_set_temp() RPC call */ + MISC_FUNC_GET_TEMP = 13, /* Index for misc_get_temp() RPC call */ + MISC_FUNC_GET_BOOT_DEV = 16, /* Index for misc_get_boot_dev() RPC call */ + MISC_FUNC_GET_BUTTON_STATUS = 18, /* Index for misc_get_button_status() RPC call */ +} misc_func_t; + +/* 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/drivers/soc/imx/sc/svc/misc/rpc_clnt.c b/drivers/soc/imx/sc/svc/misc/rpc_clnt.c new file mode 100644 index 000000000000..e1f588c52b5c --- /dev/null +++ b/drivers/soc/imx/sc/svc/misc/rpc_clnt.c @@ -0,0 +1,405 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 <soc/imx8/sc/types.h> +#include <soc/imx8/sc/svc/rm/api.h> +#include <soc/imx8/sc/svc/misc/api.h> +#include "../../main/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, 0) = ctrl; + RPC_U32(&msg, 4) = val; + RPC_U16(&msg, 8) = resource; + RPC_SIZE(&msg) = 4; + + sc_call_rpc(ipc, &msg, 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, 0) = ctrl; + RPC_U16(&msg, 4) = resource; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, false); + + if (val != NULL) { + *val = RPC_U32(&msg, 0); + } + + 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, 0) = pt; + RPC_U8(&msg, 1) = max; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = resource; + RPC_U8(&msg, 2) = group; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + return (sc_err_t)result; +} + +sc_err_t sc_misc_seco_image_load(sc_ipc_t ipc, uint32_t addr_src, + uint32_t addr_dst, uint32_t len, bool 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, 0) = addr_src; + RPC_U32(&msg, 4) = addr_dst; + RPC_U32(&msg, 8) = len; + RPC_U8(&msg, 12) = (uint8_t)fw; + RPC_SIZE(&msg) = 5; + + sc_call_rpc(ipc, &msg, 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, + uint32_t addr_meta) +{ + 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, 0) = addr_meta; + RPC_U8(&msg, 4) = cmd; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + return (sc_err_t)result; +} + +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, 0) = ch; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + return; +} + +sc_err_t sc_misc_waveform_capture(sc_ipc_t ipc, bool 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, 0) = (uint8_t)enable; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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) = 1; + + sc_call_rpc(ipc, &msg, false); + + if (build != NULL) { + *build = RPC_U32(&msg, 0); + } + + if (commit != NULL) { + *commit = RPC_U32(&msg, 4); + } + + 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) = 1; + + sc_call_rpc(ipc, &msg, false); + + if (id_l != NULL) { + *id_l = RPC_U32(&msg, 0); + } + + if (id_h != NULL) { + *id_h = RPC_U32(&msg, 4); + } + + return; +} + +sc_err_t sc_misc_set_ari(sc_ipc_t ipc, sc_rsrc_t resource, + sc_rsrc_t resource_mst, uint16_t ari, bool 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, 0) = resource; + RPC_U16(&msg, 2) = resource_mst; + RPC_U16(&msg, 4) = ari; + RPC_U8(&msg, 6) = (uint8_t)enable; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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, 0) = status; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = cpu; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = word; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + if (val != NULL) { + *val = RPC_U32(&msg, 0); + } + + 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, 0) = word; + RPC_U32(&msg, 4) = val; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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, 0) = resource; + RPC_I16(&msg, 2) = celsius; + RPC_U8(&msg, 4) = temp; + RPC_I8(&msg, 5) = tenths; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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, 0) = resource; + RPC_U8(&msg, 2) = temp; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + if (celsius != NULL) { + *celsius = RPC_I16(&msg, 0); + } + + result = RPC_R8(&msg); + if (tenths != NULL) { + *tenths = RPC_I8(&msg, 2); + } + + 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) = 1; + + sc_call_rpc(ipc, &msg, false); + + if (dev != NULL) { + *dev = RPC_U16(&msg, 0); + } + + return; +} + +void sc_misc_get_button_status(sc_ipc_t ipc, bool *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) = 1; + + sc_call_rpc(ipc, &msg, false); + + if (status != NULL) { + *status = RPC_U8(&msg, 0); + } + + return; +} + +/**@}*/ diff --git a/drivers/soc/imx/sc/svc/pad/rpc.h b/drivers/soc/imx/sc/svc/pad/rpc.h new file mode 100644 index 000000000000..ee8fe3b42af2 --- /dev/null +++ b/drivers/soc/imx/sc/svc/pad/rpc.h @@ -0,0 +1,67 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 */ + +/* Types */ + +/*! + * This type is used to indicate RPC PAD function calls. + */ +typedef enum pad_func_e { + PAD_FUNC_UNKNOWN = 0, /* Unknown function */ + PAD_FUNC_SET_MUX = 1, /* Index for pad_set_mux() RPC call */ + PAD_FUNC_GET_MUX = 6, /* Index for pad_get_mux() RPC call */ + PAD_FUNC_SET_GP = 2, /* Index for pad_set_gp() RPC call */ + PAD_FUNC_GET_GP = 7, /* Index for pad_get_gp() RPC call */ + PAD_FUNC_SET_WAKEUP = 4, /* Index for pad_set_wakeup() RPC call */ + PAD_FUNC_GET_WAKEUP = 9, /* Index for pad_get_wakeup() RPC call */ + PAD_FUNC_SET_ALL = 5, /* Index for pad_set_all() RPC call */ + PAD_FUNC_GET_ALL = 10, /* Index for pad_get_all() RPC call */ + PAD_FUNC_SET = 15, /* Index for pad_set() RPC call */ + PAD_FUNC_GET = 16, /* Index for pad_get() RPC call */ + PAD_FUNC_SET_GP_28FDSOI = 11, /* Index for pad_set_gp_28fdsoi() RPC call */ + PAD_FUNC_GET_GP_28FDSOI = 12, /* Index for pad_get_gp_28fdsoi() RPC call */ + PAD_FUNC_SET_GP_28FDSOI_HSIC = 3, /* Index for pad_set_gp_28fdsoi_hsic() RPC call */ + PAD_FUNC_GET_GP_28FDSOI_HSIC = 8, /* Index for pad_get_gp_28fdsoi_hsic() RPC call */ + PAD_FUNC_SET_GP_28FDSOI_COMP = 13, /* Index for pad_set_gp_28fdsoi_comp() RPC call */ + PAD_FUNC_GET_GP_28FDSOI_COMP = 14, /* Index for pad_get_gp_28fdsoi_comp() RPC call */ +} pad_func_t; + +/* 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/drivers/soc/imx/sc/svc/pad/rpc_clnt.c b/drivers/soc/imx/sc/svc/pad/rpc_clnt.c new file mode 100644 index 000000000000..90fb3904ca7b --- /dev/null +++ b/drivers/soc/imx/sc/svc/pad/rpc_clnt.c @@ -0,0 +1,453 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 <soc/imx8/sc/types.h> +#include <soc/imx8/sc/svc/rm/api.h> +#include <soc/imx8/sc/svc/pad/api.h> +#include "../../main/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, 0) = pad; + RPC_U8(&msg, 2) = mux; + RPC_U8(&msg, 3) = config; + RPC_U8(&msg, 4) = iso; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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, 0) = pad; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + if (mux != NULL) { + *mux = RPC_U8(&msg, 0); + } + + if (config != NULL) { + *config = RPC_U8(&msg, 1); + } + + if (iso != NULL) { + *iso = RPC_U8(&msg, 2); + } + + 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, 0) = ctrl; + RPC_U16(&msg, 4) = pad; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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, 0) = pad; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + if (ctrl != NULL) { + *ctrl = RPC_U32(&msg, 0); + } + + 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, 0) = pad; + RPC_U8(&msg, 2) = wakeup; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = pad; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + if (wakeup != NULL) { + *wakeup = RPC_U8(&msg, 0); + } + + 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, 0) = ctrl; + RPC_U16(&msg, 4) = pad; + RPC_U8(&msg, 6) = mux; + RPC_U8(&msg, 7) = config; + RPC_U8(&msg, 8) = iso; + RPC_U8(&msg, 9) = wakeup; + RPC_SIZE(&msg) = 4; + + sc_call_rpc(ipc, &msg, 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, 0) = pad; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + if (ctrl != NULL) { + *ctrl = RPC_U32(&msg, 0); + } + + result = RPC_R8(&msg); + if (mux != NULL) { + *mux = RPC_U8(&msg, 4); + } + + if (config != NULL) { + *config = RPC_U8(&msg, 5); + } + + if (iso != NULL) { + *iso = RPC_U8(&msg, 6); + } + + if (wakeup != NULL) { + *wakeup = RPC_U8(&msg, 7); + } + + 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, 0) = val; + RPC_U16(&msg, 4) = pad; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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, 0) = pad; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + if (val != NULL) { + *val = RPC_U32(&msg, 0); + } + + 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, 0) = pad; + RPC_U8(&msg, 2) = dse; + RPC_U8(&msg, 3) = ps; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = pad; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + if (dse != NULL) { + *dse = RPC_U8(&msg, 0); + } + + if (ps != NULL) { + *ps = RPC_U8(&msg, 1); + } + + 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, bool hys, + sc_pad_28fdsoi_pus_t pus, bool pke, + bool 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, 0) = pad; + RPC_U8(&msg, 2) = dse; + RPC_U8(&msg, 3) = pus; + RPC_U8(&msg, 4) = (uint8_t)hys; + RPC_U8(&msg, 5) = (uint8_t)pke; + RPC_U8(&msg, 6) = (uint8_t)pue; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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, bool *hys, + sc_pad_28fdsoi_pus_t *pus, bool *pke, + bool *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, 0) = pad; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + if (dse != NULL) { + *dse = RPC_U8(&msg, 0); + } + + if (pus != NULL) { + *pus = RPC_U8(&msg, 1); + } + + if (hys != NULL) { + *hys = RPC_U8(&msg, 2); + } + + if (pke != NULL) { + *pke = RPC_U8(&msg, 3); + } + + if (pue != NULL) { + *pue = RPC_U8(&msg, 4); + } + + 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, bool fastfrz, + uint8_t rasrcp, uint8_t rasrcn, + bool nasrc_sel, bool 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, 0) = pad; + RPC_U8(&msg, 2) = compen; + RPC_U8(&msg, 3) = rasrcp; + RPC_U8(&msg, 4) = rasrcn; + RPC_U8(&msg, 5) = (uint8_t)fastfrz; + RPC_U8(&msg, 6) = (uint8_t)nasrc_sel; + RPC_U8(&msg, 7) = (uint8_t)psw_ovr; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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, bool *fastfrz, + uint8_t *rasrcp, uint8_t *rasrcn, + bool *nasrc_sel, bool *compok, + uint8_t *nasrc, bool *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, 0) = pad; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + if (compen != NULL) { + *compen = RPC_U8(&msg, 0); + } + + if (rasrcp != NULL) { + *rasrcp = RPC_U8(&msg, 1); + } + + if (rasrcn != NULL) { + *rasrcn = RPC_U8(&msg, 2); + } + + if (nasrc != NULL) { + *nasrc = RPC_U8(&msg, 3); + } + + if (fastfrz != NULL) { + *fastfrz = RPC_U8(&msg, 4); + } + + if (nasrc_sel != NULL) { + *nasrc_sel = RPC_U8(&msg, 5); + } + + if (compok != NULL) { + *compok = RPC_U8(&msg, 6); + } + + if (psw_ovr != NULL) { + *psw_ovr = RPC_U8(&msg, 7); + } + + return (sc_err_t)result; +} + +/**@}*/ diff --git a/drivers/soc/imx/sc/svc/pm/rpc.h b/drivers/soc/imx/sc/svc/pm/rpc.h new file mode 100644 index 000000000000..e83db74d20bd --- /dev/null +++ b/drivers/soc/imx/sc/svc/pm/rpc.h @@ -0,0 +1,70 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 */ + +/* Types */ + +/*! + * This type is used to indicate RPC PM function calls. + */ +typedef enum pm_func_e { + PM_FUNC_UNKNOWN = 0, /* Unknown function */ + PM_FUNC_SET_SYS_POWER_MODE = 19, /* Index for pm_set_sys_power_mode() RPC call */ + PM_FUNC_SET_PARTITION_POWER_MODE = 1, /* Index for pm_set_partition_power_mode() RPC call */ + PM_FUNC_GET_SYS_POWER_MODE = 2, /* Index for pm_get_sys_power_mode() RPC call */ + PM_FUNC_SET_RESOURCE_POWER_MODE = 3, /* Index for pm_set_resource_power_mode() RPC call */ + PM_FUNC_GET_RESOURCE_POWER_MODE = 4, /* Index for pm_get_resource_power_mode() RPC call */ + PM_FUNC_REQ_LOW_POWER_MODE = 16, /* Index for pm_req_low_power_mode() RPC call */ + PM_FUNC_SET_CPU_RESUME_ADDR = 17, /* Index for pm_set_cpu_resume_addr() RPC call */ + PM_FUNC_REQ_SYS_IF_POWER_MODE = 18, /* Index for pm_req_sys_if_power_mode() RPC call */ + PM_FUNC_SET_CLOCK_RATE = 5, /* Index for pm_set_clock_rate() RPC call */ + PM_FUNC_GET_CLOCK_RATE = 6, /* Index for pm_get_clock_rate() RPC call */ + PM_FUNC_CLOCK_ENABLE = 7, /* Index for pm_clock_enable() RPC call */ + PM_FUNC_SET_CLOCK_PARENT = 14, /* Index for pm_set_clock_parent() RPC call */ + PM_FUNC_GET_CLOCK_PARENT = 15, /* Index for pm_get_clock_parent() RPC call */ + PM_FUNC_RESET = 13, /* Index for pm_reset() RPC call */ + PM_FUNC_RESET_REASON = 10, /* Index for pm_reset_reason() RPC call */ + PM_FUNC_BOOT = 8, /* Index for pm_boot() RPC call */ + PM_FUNC_REBOOT = 9, /* Index for pm_reboot() RPC call */ + PM_FUNC_REBOOT_PARTITION = 12, /* Index for pm_reboot_partition() RPC call */ + PM_FUNC_CPU_START = 11, /* Index for pm_cpu_start() RPC call */ +} pm_func_t; + +/* 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/drivers/soc/imx/sc/svc/pm/rpc_clnt.c b/drivers/soc/imx/sc/svc/pm/rpc_clnt.c new file mode 100644 index 000000000000..b4b651e91ad5 --- /dev/null +++ b/drivers/soc/imx/sc/svc/pm/rpc_clnt.c @@ -0,0 +1,415 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 <soc/imx8/sc/types.h> +#include <soc/imx8/sc/svc/rm/api.h> +#include <soc/imx8/sc/svc/pm/api.h> +#include "../../main/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, 0) = mode; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = pt; + RPC_U8(&msg, 1) = mode; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = pt; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + if (mode != NULL) { + *mode = RPC_U8(&msg, 0); + } + + 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, 0) = resource; + RPC_U8(&msg, 2) = mode; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = resource; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + if (mode != NULL) { + *mode = RPC_U8(&msg, 0); + } + + 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, 0) = resource; + RPC_U8(&msg, 2) = mode; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = (uint32_t)(address >> 32u); + RPC_U32(&msg, 4) = (uint32_t)address; + RPC_U16(&msg, 8) = resource; + RPC_SIZE(&msg) = 4; + + sc_call_rpc(ipc, &msg, 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, 0) = resource; + RPC_U8(&msg, 2) = sys_if; + RPC_U8(&msg, 3) = hpm; + RPC_U8(&msg, 4) = lpm; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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, 0) = *rate; + RPC_U16(&msg, 4) = resource; + RPC_U8(&msg, 6) = clk; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, false); + + *rate = RPC_U32(&msg, 0); + 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, 0) = resource; + RPC_U8(&msg, 2) = clk; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + if (rate != NULL) { + *rate = RPC_U32(&msg, 0); + } + + 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, bool enable, bool 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, 0) = resource; + RPC_U8(&msg, 2) = clk; + RPC_U8(&msg, 3) = (uint8_t)enable; + RPC_U8(&msg, 4) = (uint8_t)autog; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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, 0) = resource; + RPC_U8(&msg, 2) = clk; + RPC_U8(&msg, 3) = parent; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = resource; + RPC_U8(&msg, 2) = clk; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + if (parent != NULL) { + *parent = RPC_U8(&msg, 0); + } + + 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, 0) = type; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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) = 1; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + if (reason != NULL) { + *reason = RPC_U8(&msg, 0); + } + + 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, 0) = (uint32_t)(boot_addr >> 32u); + RPC_U32(&msg, 4) = (uint32_t)boot_addr; + RPC_U16(&msg, 8) = resource_cpu; + RPC_U16(&msg, 10) = resource_mu; + RPC_U16(&msg, 12) = resource_dev; + RPC_U8(&msg, 14) = pt; + RPC_SIZE(&msg) = 5; + + sc_call_rpc(ipc, &msg, 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, 0) = type; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = pt; + RPC_U8(&msg, 1) = type; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, bool 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, 0) = (uint32_t)(address >> 32u); + RPC_U32(&msg, 4) = (uint32_t)address; + RPC_U16(&msg, 8) = resource; + RPC_U8(&msg, 10) = (uint8_t)enable; + RPC_SIZE(&msg) = 4; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + return (sc_err_t)result; +} + +/**@}*/ diff --git a/drivers/soc/imx/sc/svc/rm/rpc.h b/drivers/soc/imx/sc/svc/rm/rpc.h new file mode 100644 index 000000000000..457b01860ae5 --- /dev/null +++ b/drivers/soc/imx/sc/svc/rm/rpc.h @@ -0,0 +1,82 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 */ + +/* Types */ + +/*! + * This type is used to indicate RPC RM function calls. + */ +typedef enum rm_func_e { + RM_FUNC_UNKNOWN = 0, /* Unknown function */ + RM_FUNC_PARTITION_ALLOC = 1, /* Index for rm_partition_alloc() RPC call */ + RM_FUNC_SET_CONFIDENTIAL = 31, /* Index for rm_set_confidential() RPC call */ + RM_FUNC_PARTITION_FREE = 2, /* Index for rm_partition_free() RPC call */ + RM_FUNC_GET_DID = 26, /* Index for rm_get_did() RPC call */ + RM_FUNC_PARTITION_STATIC = 3, /* Index for rm_partition_static() RPC call */ + RM_FUNC_PARTITION_LOCK = 4, /* Index for rm_partition_lock() RPC call */ + RM_FUNC_GET_PARTITION = 5, /* Index for rm_get_partition() RPC call */ + RM_FUNC_SET_PARENT = 6, /* Index for rm_set_parent() RPC call */ + RM_FUNC_MOVE_ALL = 7, /* Index for rm_move_all() RPC call */ + RM_FUNC_ASSIGN_RESOURCE = 8, /* Index for rm_assign_resource() RPC call */ + RM_FUNC_SET_RESOURCE_MOVABLE = 9, /* Index for rm_set_resource_movable() RPC call */ + RM_FUNC_SET_SUBSYS_RSRC_MOVABLE = 28, /* Index for rm_set_subsys_rsrc_movable() RPC call */ + RM_FUNC_SET_MASTER_ATTRIBUTES = 10, /* Index for rm_set_master_attributes() RPC call */ + RM_FUNC_SET_MASTER_SID = 11, /* Index for rm_set_master_sid() RPC call */ + RM_FUNC_SET_PERIPHERAL_PERMISSIONS = 12, /* Index for rm_set_peripheral_permissions() RPC call */ + RM_FUNC_IS_RESOURCE_OWNED = 13, /* Index for rm_is_resource_owned() RPC call */ + RM_FUNC_IS_RESOURCE_MASTER = 14, /* Index for rm_is_resource_master() RPC call */ + RM_FUNC_IS_RESOURCE_PERIPHERAL = 15, /* Index for rm_is_resource_peripheral() RPC call */ + RM_FUNC_GET_RESOURCE_INFO = 16, /* Index for rm_get_resource_info() RPC call */ + RM_FUNC_MEMREG_ALLOC = 17, /* Index for rm_memreg_alloc() RPC call */ + RM_FUNC_MEMREG_SPLIT = 29, /* Index for rm_memreg_split() RPC call */ + RM_FUNC_MEMREG_FREE = 18, /* Index for rm_memreg_free() RPC call */ + RM_FUNC_FIND_MEMREG = 30, /* Index for rm_find_memreg() RPC call */ + RM_FUNC_ASSIGN_MEMREG = 19, /* Index for rm_assign_memreg() RPC call */ + RM_FUNC_SET_MEMREG_PERMISSIONS = 20, /* Index for rm_set_memreg_permissions() RPC call */ + RM_FUNC_IS_MEMREG_OWNED = 21, /* Index for rm_is_memreg_owned() RPC call */ + RM_FUNC_GET_MEMREG_INFO = 22, /* Index for rm_get_memreg_info() RPC call */ + RM_FUNC_ASSIGN_PAD = 23, /* Index for rm_assign_pad() RPC call */ + RM_FUNC_SET_PAD_MOVABLE = 24, /* Index for rm_set_pad_movable() RPC call */ + RM_FUNC_IS_PAD_OWNED = 25, /* Index for rm_is_pad_owned() RPC call */ + RM_FUNC_DUMP = 27, /* Index for rm_dump() RPC call */ +} rm_func_t; + +/* 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/drivers/soc/imx/sc/svc/rm/rpc_clnt.c b/drivers/soc/imx/sc/svc/rm/rpc_clnt.c new file mode 100644 index 000000000000..a9bb6ba42c15 --- /dev/null +++ b/drivers/soc/imx/sc/svc/rm/rpc_clnt.c @@ -0,0 +1,637 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 <soc/imx8/sc/types.h> +#include <soc/imx8/sc/svc/rm/api.h> +#include "../../main/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, bool secure, + bool isolated, bool restricted, bool grant, + bool 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, 0) = (uint8_t)secure; + RPC_U8(&msg, 1) = (uint8_t)isolated; + RPC_U8(&msg, 2) = (uint8_t)restricted; + RPC_U8(&msg, 3) = (uint8_t)grant; + RPC_U8(&msg, 4) = (uint8_t)coherent; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + if (pt != NULL) { + *pt = RPC_U8(&msg, 0); + } + + return (sc_err_t)result; +} + +sc_err_t sc_rm_set_confidential(sc_ipc_t ipc, sc_rm_pt_t pt, bool 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, 0) = pt; + RPC_U8(&msg, 1) = (uint8_t)retro; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = pt; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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) = 1; + + sc_call_rpc(ipc, &msg, 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, 0) = pt; + RPC_U8(&msg, 1) = did; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = pt; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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) = 1; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + if (pt != NULL) { + *pt = RPC_U8(&msg, 0); + } + + 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, 0) = pt; + RPC_U8(&msg, 1) = pt_parent; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, + bool move_rsrc, bool 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, 0) = pt_src; + RPC_U8(&msg, 1) = pt_dst; + RPC_U8(&msg, 2) = (uint8_t)move_rsrc; + RPC_U8(&msg, 3) = (uint8_t)move_pads; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = resource; + RPC_U8(&msg, 2) = pt; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, bool 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, 0) = resource_fst; + RPC_U16(&msg, 2) = resource_lst; + RPC_U8(&msg, 4) = (uint8_t)movable; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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, + bool 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, 0) = resource; + RPC_U8(&msg, 2) = (uint8_t)movable; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, + bool 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, 0) = resource; + RPC_U8(&msg, 2) = sa; + RPC_U8(&msg, 3) = pa; + RPC_U8(&msg, 4) = (uint8_t)smmu_bypass; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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, 0) = resource; + RPC_U16(&msg, 2) = sid; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = resource; + RPC_U8(&msg, 2) = pt; + RPC_U8(&msg, 3) = perm; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + return (sc_err_t)result; +} + +bool 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, 0) = resource; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + return (bool)result; +} + +bool 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, 0) = resource; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + return (bool)result; +} + +bool 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, 0) = resource; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + return (bool)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, 0) = resource; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + if (sid != NULL) { + *sid = RPC_U16(&msg, 0); + } + + 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, 0) = (uint32_t)(addr_start >> 32u); + RPC_U32(&msg, 4) = (uint32_t)addr_start; + RPC_U32(&msg, 8) = (uint32_t)(addr_end >> 32u); + RPC_U32(&msg, 12) = (uint32_t)addr_end; + RPC_SIZE(&msg) = 5; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + if (mr != NULL) { + *mr = RPC_U8(&msg, 0); + } + + 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, 0) = (uint32_t)(addr_start >> 32u); + RPC_U32(&msg, 4) = (uint32_t)addr_start; + RPC_U32(&msg, 8) = (uint32_t)(addr_end >> 32u); + RPC_U32(&msg, 12) = (uint32_t)addr_end; + RPC_U8(&msg, 16) = mr; + RPC_SIZE(&msg) = 6; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + if (mr_ret != NULL) { + *mr_ret = RPC_U8(&msg, 0); + } + + 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, 0) = mr; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = (uint32_t)(addr_start >> 32u); + RPC_U32(&msg, 4) = (uint32_t)addr_start; + RPC_U32(&msg, 8) = (uint32_t)(addr_end >> 32u); + RPC_U32(&msg, 12) = (uint32_t)addr_end; + RPC_SIZE(&msg) = 5; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + if (mr != NULL) { + *mr = RPC_U8(&msg, 0); + } + + 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, 0) = pt; + RPC_U8(&msg, 1) = mr; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = mr; + RPC_U8(&msg, 1) = pt; + RPC_U8(&msg, 2) = perm; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + return (sc_err_t)result; +} + +bool 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, 0) = mr; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + return (bool)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, 0) = mr; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + if (addr_start != NULL) { + *addr_start = + ((uint64_t) RPC_U32(&msg, 0) << 32u) | RPC_U32(&msg, 4); + } + + if (addr_end != NULL) { + *addr_end = + ((uint64_t) RPC_U32(&msg, 8) << 32u) | RPC_U32(&msg, 12); + } + + 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, 0) = pad; + RPC_U8(&msg, 2) = pt; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, bool 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, 0) = pad_fst; + RPC_U16(&msg, 2) = pad_lst; + RPC_U8(&msg, 4) = (uint8_t)movable; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + return (sc_err_t)result; +} + +bool 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, 0) = pad; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + return (bool)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) = 1; + + sc_call_rpc(ipc, &msg, false); + + return; +} + +/**@}*/ diff --git a/drivers/soc/imx/sc/svc/timer/rpc.h b/drivers/soc/imx/sc/svc/timer/rpc.h new file mode 100644 index 000000000000..42413a049ea4 --- /dev/null +++ b/drivers/soc/imx/sc/svc/timer/rpc.h @@ -0,0 +1,64 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 */ + +/* Types */ + +/*! + * This type is used to indicate RPC TIMER function calls. + */ +typedef enum timer_func_e { + TIMER_FUNC_UNKNOWN = 0, /* Unknown function */ + TIMER_FUNC_SET_WDOG_TIMEOUT = 1, /* Index for timer_set_wdog_timeout() RPC call */ + TIMER_FUNC_SET_WDOG_PRE_TIMEOUT = 12, /* Index for timer_set_wdog_pre_timeout() RPC call */ + TIMER_FUNC_START_WDOG = 2, /* Index for timer_start_wdog() RPC call */ + TIMER_FUNC_STOP_WDOG = 3, /* Index for timer_stop_wdog() RPC call */ + TIMER_FUNC_PING_WDOG = 4, /* Index for timer_ping_wdog() RPC call */ + TIMER_FUNC_GET_WDOG_STATUS = 5, /* Index for timer_get_wdog_status() RPC call */ + TIMER_FUNC_PT_GET_WDOG_STATUS = 13, /* Index for timer_pt_get_wdog_status() RPC call */ + TIMER_FUNC_SET_WDOG_ACTION = 10, /* Index for timer_set_wdog_action() RPC call */ + TIMER_FUNC_SET_RTC_TIME = 6, /* Index for timer_set_rtc_time() RPC call */ + TIMER_FUNC_GET_RTC_TIME = 7, /* Index for timer_get_rtc_time() RPC call */ + TIMER_FUNC_GET_RTC_SEC1970 = 9, /* Index for timer_get_rtc_sec1970() RPC call */ + TIMER_FUNC_SET_RTC_ALARM = 8, /* Index for timer_set_rtc_alarm() RPC call */ + TIMER_FUNC_SET_RTC_CALB = 11, /* Index for timer_set_rtc_calb() RPC call */ +} timer_func_t; + +/* 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/drivers/soc/imx/sc/svc/timer/rpc_clnt.c b/drivers/soc/imx/sc/svc/timer/rpc_clnt.c new file mode 100644 index 000000000000..badb79e44c41 --- /dev/null +++ b/drivers/soc/imx/sc/svc/timer/rpc_clnt.c @@ -0,0 +1,322 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 <soc/imx8/sc/types.h> +#include <soc/imx8/sc/svc/rm/api.h> +#include <soc/imx8/sc/svc/timer/api.h> +#include "../../main/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, 0) = timeout; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = pre_timeout; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + return (sc_err_t)result; +} + +sc_err_t sc_timer_start_wdog(sc_ipc_t ipc, bool 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, 0) = (uint8_t)lock; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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) = 1; + + sc_call_rpc(ipc, &msg, 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) = 1; + + sc_call_rpc(ipc, &msg, 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) = 1; + + sc_call_rpc(ipc, &msg, false); + + if (timeout != NULL) { + *timeout = RPC_U32(&msg, 0); + } + + if (max_timeout != NULL) { + *max_timeout = RPC_U32(&msg, 4); + } + + if (remaining_time != NULL) { + *remaining_time = RPC_U32(&msg, 8); + } + + 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, bool *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, 0) = pt; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + if (timeout != NULL) { + *timeout = RPC_U32(&msg, 0); + } + + if (remaining_time != NULL) { + *remaining_time = RPC_U32(&msg, 4); + } + + result = RPC_R8(&msg); + if (enb != NULL) { + *enb = RPC_U8(&msg, 8); + } + + 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, 0) = pt; + RPC_U8(&msg, 1) = action; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, 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, 0) = year; + RPC_U8(&msg, 2) = mon; + RPC_U8(&msg, 3) = day; + RPC_U8(&msg, 4) = hour; + RPC_U8(&msg, 5) = min; + RPC_U8(&msg, 6) = sec; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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) = 1; + + sc_call_rpc(ipc, &msg, false); + + if (year != NULL) { + *year = RPC_U16(&msg, 0); + } + + result = RPC_R8(&msg); + if (mon != NULL) { + *mon = RPC_U8(&msg, 2); + } + + if (day != NULL) { + *day = RPC_U8(&msg, 3); + } + + if (hour != NULL) { + *hour = RPC_U8(&msg, 4); + } + + if (min != NULL) { + *min = RPC_U8(&msg, 5); + } + + if (sec != NULL) { + *sec = RPC_U8(&msg, 6); + } + + 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) = 1; + + sc_call_rpc(ipc, &msg, false); + + if (sec != NULL) { + *sec = RPC_U32(&msg, 0); + } + + 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, 0) = year; + RPC_U8(&msg, 2) = mon; + RPC_U8(&msg, 3) = day; + RPC_U8(&msg, 4) = hour; + RPC_U8(&msg, 5) = min; + RPC_U8(&msg, 6) = sec; + RPC_SIZE(&msg) = 3; + + sc_call_rpc(ipc, &msg, 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, 0) = count; + RPC_SIZE(&msg) = 2; + + sc_call_rpc(ipc, &msg, false); + + result = RPC_R8(&msg); + return (sc_err_t)result; +} + +/**@}*/ diff --git a/include/linux/rpmsg.h b/include/linux/rpmsg.h index 10d6ae8bbb7d..df056ad6bf78 100644 --- a/include/linux/rpmsg.h +++ b/include/linux/rpmsg.h @@ -43,6 +43,8 @@ #include <linux/mutex.h> #include <linux/poll.h> +#define VIRTIO_RPMSG_F_NS 0 + #define RPMSG_ADDR_ANY 0xFFFFFFFF struct rpmsg_device; diff --git a/include/soc/imx8/fsl_bitaccess.h b/include/soc/imx8/fsl_bitaccess.h new file mode 100644 index 000000000000..11e71eeb411b --- /dev/null +++ b/include/soc/imx8/fsl_bitaccess.h @@ -0,0 +1,129 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 NXP + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation; either version 2 + * of the License, or (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + */ + +/*! + * @file devices/MX8/include/fsl_bitaccess.h + * + * Header file containing register access macros. + * + * \addtogroup Peripheral_access_layer (HAL) Device Peripheral Access Layer + * + * @{ + */ + +#ifndef _FSL_BITACCESS_H +#define _FSL_BITACCESS_H 1 + +/*! + * @addtogroup SCF Register Access Macros + * @{ + */ + +/* + * Macros for single instance registers + */ + +#define BF_SET(reg, field) HW_##reg##_SET(BM_##reg##_##field) +#define BF_CLR(reg, field) HW_##reg##_CLR(BM_##reg##_##field) +#define BF_TOG(reg, field) HW_##reg##_TOG(BM_##reg##_##field) + +#define BF_SETV(reg, field, v) HW_##reg##_SET(BF_##reg##_##field(v)) +#define BF_CLRV(reg, field, v) HW_##reg##_CLR(BF_##reg##_##field(v)) +#define BF_TOGV(reg, field, v) HW_##reg##_TOG(BF_##reg##_##field(v)) + +#define BV_FLD(reg, field, sym) BF_##reg##_##field(BV_##reg##_##field##__##sym) +#define BV_VAL(reg, field, sym) BV_##reg##_##field##__##sym + +#define BF_RD(reg, field) HW_##reg.B.field +#define BF_WR(reg, field, v) BW_##reg##_##field(v) + + +/******************************************************************************* + * Macros to create bitfield mask, shift, and width from CMSIS definitions + ******************************************************************************/ + +/* Bitfield Mask */ +#define SCF_BMSK(bit) (bit ## _MASK) + +/* Bitfield Left Shift */ +#define SCF_BLSH(bit) (bit ## _SHIFT) + +/* Bitfield Width */ +#define SCF_BWID(bit) (bit ## _WIDTH) + +/* Bitfield Value */ +#define SCF_BVAL(bit, val) ((val) << (SCF_BLSH(bit))) + + +/******************************************************************************* + * Macros to set, clear, extact, and insert bitfields into register structures + * or local variables + ******************************************************************************/ + +/* Bitfield Set */ +#define SCF_BSET(var, bit) (var |= (SCF_BMSK(bit))) + +/* Bitfield Clear */ +#define SCF_BCLR(var, bit) (var &= (~(SCF_BMSK(bit)))) + +/* Bitfield Extract */ +#define SCF_BEXR(var, bit) ((var & (SCF_BMSK(bit))) >> (SCF_BLSH(bit))) + +/* Bitfield Insert */ +#define SCF_BINS(var, bit, val) (var = (var & (~(SCF_BMSK(bit)))) | SCF_BVAL(bit, val)) + + +/******************************************************************************* + * Macros to set, clear, extact, and insert bitfields into register structures + * that support SCT + ******************************************************************************/ + +#ifdef EMUL +/* Emulation does not have SCT hardware and must fallback to non-SCT definitions */ + +/* SCT Bitfield Set */ +#define SCF_SCT_BSET(var, bit) (SCF_BSET(var, bit)) + +/* SCT Bitfield Clear */ +#define SCF_SCT_BCLR(var, bit) (SCF_BCLR(var, bit)) + +/* SCT Bitfield Insert */ +#define SCF_SCT_BINS(var, bit, val) (SCF_BINS(var, bit, val)) + +#else +/*! @todo Port macros leverage SCT register access hardware */ + +/* SCT Bitfield Set */ +#define SCF_SCT_BSET(var, bit) (SCF_BSET(var, bit)) + +/* SCT Bitfield Clear */ +#define SCF_SCT_BCLR(var, bit) (SCF_BCLR(var, bit)) + +/* SCT Bitfield Insert */ +#define SCF_SCT_BINS(var, bit, val) (SCF_BINS(var, bit, val)) + +#endif /* EMUL */ + +/*! + * @} + */ /* end of group SCF */ + +/*! + * @} + */ /* end of group Peripheral_access_layer */ + +#endif /* _FSL_BITACCESS_H */ + +/******************************************************************************/ diff --git a/include/soc/imx8/imx8qm/lpcg.h b/include/soc/imx8/imx8qm/lpcg.h new file mode 100644 index 000000000000..6b352a5b7b8e --- /dev/null +++ b/include/soc/imx8/imx8qm/lpcg.h @@ -0,0 +1,182 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#ifndef _SC_LPCG_H +#define _SC_LPCG_H + +/*LSIO SS */ +#define PWM_0_LPCG 0x5D400000 +#define PWM_1_LPCG 0x5D410000 +#define PWM_2_LPCG 0x5D420000 +#define PWM_3_LPCG 0x5D430000 +#define PWM_4_LPCG 0x5D440000 +#define PWM_5_LPCG 0x5D450000 +#define PWM_6_LPCG 0x5D460000 +#define PWM_7_LPCG 0x5D470000 +#define GPIO_0_LPCG 0x5D480000 +#define GPIO_1_LPCG 0x5D490000 +#define GPIO_2_LPCG 0x5D4A0000 +#define GPIO_3_LPCG 0x5D4B0000 +#define GPIO_4_LPCG 0x5D4C0000 +#define GPIO_5_LPCG 0x5D4D0000 +#define GPIO_6_LPCG 0x5D4E0000 +#define GPIO_7_LPCG 0x5D4F0000 +#define ROMCP_LPCG 0x5D500000 +#define FSPI_0_LPCG 0x5D520000 +#define FSPI_1_LPCG 0x5D530000 +#define GPT_0_LPCG 0x5D540000 +#define GPT_1_LPCG 0x5D550000 +#define GPT_2_LPCG 0x5D560000 +#define GPT_3_LPCG 0x5D570000 +#define GPT_4_LPCG 0x5D580000 +#define OCRAM_LPCG 0x5D590000 +#define KPP_LPCG 0x5D5A0000 + +/* HSIO SS */ +#define CRR_5_LPCG 0x5F0F0000 +#define CRR_4_LPCG 0x5F0E0000 +#define CRR_3_LPCG 0x5F0D0000 +#define CRR_2_LPCG 0x5F0C0000 +#define CRR_1_LPCG 0x5F0B0000 +#define CRR_0_LPCG 0x5F0A0000 +#define PHY_1_LPCG 0x5F090000 +#define PHY_2_LPCG 0x5F080000 +#define SATA_0_LPCG 0x5F070000 +#define PCIE_B_LPCG 0x5F060000 +#define PCIE_A_LPCG 0x5F050000 + +/* DMA SS */ +#define FLEX_CAN_2_LPCG 0x5ACF0000 +#define FLEX_CAN_1_LPCG 0x5ACE0000 +#define FLEX_CAN_0_LPCG 0x5ACD0000 +#define FTM_1_LPCG 0x5ACB0000 +#define FTM_0_LPCG 0x5ACA0000 +#define ADC_1_LPCG 0x5AC90000 +#define ADC_0_LPCG 0x5AC80000 +#define LPI2C_4_LPCG 0x5AC40000 +#define LPI2C_3_LPCG 0x5AC30000 +#define LPI2C_2_LPCG 0x5AC20000 +#define LPI2C_1_LPCG 0x5AC10000 +#define LPI2C_0_LPCG 0x5AC00000 +#define EMVSIM_1_LPCG 0x5A4E0000 +#define EMVSIM_0_LPCG 0x5A4D0000 +#define LPUART_4_LPCG 0x5A4A0000 +#define LPUART_3_LPCG 0x5A490000 +#define LPUART_2_LPCG 0x5A480000 +#define LPUART_1_LPCG 0x5A470000 +#define LPUART_0_LPCG 0x5A460000 +#define LPSPI_3_LPCG 0x5A430000 +#define LPSPI_2_LPCG 0x5A420000 +#define LPSPI_1_LPCG 0x5A410000 +#define LPSPI_0_LPCG 0x5A400000 + +/* Display SS */ +#define DC_0_LPCG 0x56010000 +#define DC_1_LPCG 0x57010000 + +/* LVDS */ +#define DI_LVDS_0_LPCG 0x56243000 +#define DI_LVDS_1_LPCG 0x57243000 + +/* DI HDMI */ +#define DI_HDMI_LPCG 0x56263000 + +/* RX-HDMI */ +#define RX_HDMI_LPCG 0x58263000 + +/* MIPI CSI SS */ +#define MIPI_CSI_0_LPCG 0x58223000 +#define MIPI_CSI_1_LPCG 0x58243000 + +/* Imaging SS */ +#define IMG_JPEG_ENC_LPCG 0x585F0000 +#define IMG_JPEG_DEC_LPCG 0x585D0000 +#define IMG_PXL_LINK_DC1_LPCG 0x585C0000 +#define IMG_PXL_LINK_DC0_LPCG 0x585B0000 +#define IMG_PXL_LINK_HDMI_LPCG 0x585A0000 +#define IMG_PXL_LINK_CSI0_LPCG 0x58590000 +#define IMG_PXL_LINK_CSI1_LPCG 0x58580000 +#define IMG_PDMA_7_LPCG 0x58570000 +#define IMG_PDMA_6_LPCG 0x58560000 +#define IMG_PDMA_5_LPCG 0x58550000 +#define IMG_PDMA_4_LPCG 0x58540000 +#define IMG_PDMA_3_LPCG 0x58530000 +#define IMG_PDMA_2_LPCG 0x58520000 +#define IMG_PDMA_1_LPCG 0x58510000 +#define IMG_PDMA_0_LPCG 0x58500000 + +/* HSIO SS */ +#define HSIO_GPIO_LPCG 0x5F100000 +#define HSIO_MISC_LPCG 0x5F0F0000 +#define HSIO_SATA_CRR4_LPCG 0x5F0E0000 +#define HSIO_PCIE_X1_CRR3_LPCG 0x5F0D0000 +#define HSIO_PCIE_X2_CRR2_LPCG 0x5F0C0000 +#define HSIO_PHY_X1_CRR1_LPCG 0x5F0B0000 +#define HSIO_PHY_X2_CRR0_LPCG 0x5F0A0000 +#define HSIO_PHY_X1_LPCG 0x5F090000 +#define HSIO_PHY_X2_LPCG 0x5F080000 +#define HSIO_SATA_LPCG 0x5F070000 +#define HSIO_PCIE_X1_LPCG 0x5F060000 +#define HSIO_PCIE_X2_LPCG 0x5F050000 + +/* M4 SS */ +#define M4_0_I2C_LPCG 0x37630000 +#define M4_0_LPUART_LPCG 0x37620000 +#define M4_0_LPIT_LPCG 0x37610000 +#define M4_1_I2C_LPCG 0x3B630000 +#define M4_1_LPUART_LPCG 0x3B620000 +#define M4_1_LPIT_LPCG 0x3B610000 + +/* Audio SS */ +#define AUD_ASRC_0_LPCG 0x59400000 +#define AUD_ESAI_0_LPCG 0x59410000 +#define AUD_SPDIF_0_LPCG 0x59420000 +#define AUD_SPDIF_1_LPCG 0x59430000 +#define AUD_SAI_0_LPCG 0x59440000 +#define AUD_SAI_1_LPCG 0x59450000 +#define AUD_SAI_2_LPCG 0x59460000 +#define AUD_SAI_3_LPCG 0x59470000 +#define AUD_HDMI_RX_SAI_0_LPCG 0x59480000 +#define AUD_HDMI_TX_SAI_0_LPCG 0x59490000 +#define AUD_GPT_5_LPCG 0x594B0000 +#define AUD_GPT_6_LPCG 0x594C0000 +#define AUD_GPT_7_LPCG 0x594D0000 +#define AUD_GPT_8_LPCG 0x594E0000 +#define AUD_GPT_9_LPCG 0x594F0000 +#define AUD_GPT_10_LPCG 0x59500000 +#define AUD_EDMA_0_LPCG 0x595f0000 +#define AUD_ASRC_1_LPCG 0x59c00000 +#define AUD_ESAI_1_LPCG 0x59c10000 +#define AUD_SAI_6_LPCG 0x59c20000 +#define AUD_SAI_7_LPCG 0x59c30000 +#define AUD_AMIX_LPCG 0x59c40000 +#define AUD_MQS_LPCG 0x59c50000 +#define AUD_ACM_LPCG 0x59c60000 +#define AUD_REC_CLK0_LPCG 0x59d00000 +#define AUD_REC_CLK1_LPCG 0x59d10000 +#define AUD_PLL_CLK0_LPCG 0x59d20000 +#define AUD_PLL_CLK1_LPCG 0x59d30000 +#define AUD_MCLKOUT0_LPCG 0x59d50000 +#define AUD_MCLKOUT1_LPCG 0x59d60000 +#define AUD_EDMA_1_LPCG 0x59df0000 + + +/* Connectivity SS */ +#define USDHC_0_LPCG 0x5B200000 +#define USDHC_1_LPCG 0x5B210000 +#define USDHC_2_LPCG 0x5B220000 +#define ENET_0_LPCG 0x5B230000 +#define ENET_1_LPCG 0x5B240000 +#define DTCP_LPCG 0x5B250000 +#define MLB_LPCG 0x5B260000 +#define USB_2_LPCG 0x5B270000 +#define USB_3_LPCG 0x5B280000 +#define NAND_LPCG 0x5B290000 +#define EDMA_LPCG 0x5B2A0000 + + +#endif diff --git a/include/soc/imx8/imx8qxp/lpcg.h b/include/soc/imx8/imx8qxp/lpcg.h new file mode 100644 index 000000000000..3d47aee7231a --- /dev/null +++ b/include/soc/imx8/imx8qxp/lpcg.h @@ -0,0 +1,182 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#ifndef _SC_LPCG_H +#define _SC_LPCG_H + +/*LSIO SS */ +#define PWM_0_LPCG 0x5D400000 +#define PWM_1_LPCG 0x5D410000 +#define PWM_2_LPCG 0x5D420000 +#define PWM_3_LPCG 0x5D430000 +#define PWM_4_LPCG 0x5D440000 +#define PWM_5_LPCG 0x5D450000 +#define PWM_6_LPCG 0x5D460000 +#define PWM_7_LPCG 0x5D470000 +#define GPIO_0_LPCG 0x5D480000 +#define GPIO_1_LPCG 0x5D490000 +#define GPIO_2_LPCG 0x5D4A0000 +#define GPIO_3_LPCG 0x5D4B0000 +#define GPIO_4_LPCG 0x5D4C0000 +#define GPIO_5_LPCG 0x5D4D0000 +#define GPIO_6_LPCG 0x5D4E0000 +#define GPIO_7_LPCG 0x5D4F0000 +#define FSPI_0_LPCG 0x5D520000 +#define FSPI_1_LPCG 0x5D530000 +#define GPT_0_LPCG 0x5D540000 +#define GPT_1_LPCG 0x5D550000 +#define GPT_2_LPCG 0x5D560000 +#define GPT_3_LPCG 0x5D570000 +#define GPT_4_LPCG 0x5D580000 +#define OCRAM_LPCG 0x5D590000 +#define KPP_LPCG 0x5D5A0000 +#define ROMCP_LPCG 0x5D500000 + +/* HSIO SS */ +#define CRR_5_LPCG 0x5F0F0000 +#define CRR_4_LPCG 0x5F0E0000 +#define CRR_3_LPCG 0x5F0D0000 +#define CRR_2_LPCG 0x5F0C0000 +#define CRR_1_LPCG 0x5F0B0000 +#define CRR_0_LPCG 0x5F0A0000 +#define PHY_1_LPCG 0x5F090000 +#define PHY_2_LPCG 0x5F080000 +#define SATA_0_LPCG 0x5F070000 +#define PCIE_B_LPCG 0x5F060000 +#define PCIE_A_LPCG 0x5F050000 + +/* DMA SS */ +#define FLEX_CAN_2_LPCG 0x5ACF0000 +#define FLEX_CAN_1_LPCG 0x5ACE0000 +#define FLEX_CAN_0_LPCG 0x5ACD0000 +#define FTM_1_LPCG 0x5ACB0000 +#define FTM_0_LPCG 0x5ACA0000 +#define ADC_0_LPCG 0x5AC80000 +#define LPI2C_3_LPCG 0x5AC30000 +#define LPI2C_2_LPCG 0x5AC20000 +#define LPI2C_1_LPCG 0x5AC10000 +#define LPI2C_0_LPCG 0x5AC00000 +#define PWM_LPCG 0x5A590000 +#define LCD_LPCG 0x5A580000 +#define LPUART_3_LPCG 0x5A490000 +#define LPUART_2_LPCG 0x5A480000 +#define LPUART_1_LPCG 0x5A470000 +#define LPUART_0_LPCG 0x5A460000 +#define LPSPI_3_LPCG 0x5A430000 +#define LPSPI_2_LPCG 0x5A420000 +#define LPSPI_1_LPCG 0x5A410000 +#define LPSPI_0_LPCG 0x5A400000 + +/* Display SS */ +#define DC_0_LPCG 0x56010000 +#define DC_1_LPCG 0x57010000 + +/* LVDS */ +#define DI_LVDS_0_LPCG 0x56243000 +#define DI_LVDS_1_LPCG 0x57243000 + +/* DI HDMI */ +#define DI_HDMI_LPCG 0x56263000 + +/* RX-HDMI */ +#define RX_HDMI_LPCG 0x58263000 + +/* MIPI CSI SS */ +#define MIPI_CSI_0_LPCG 0x58223000 +#define MIPI_CSI_1_LPCG 0x58243000 + +/* Display MIPI SS */ +#define DI_MIPI_LPCG 0x56030000 + +/* Imaging SS */ +#define IMG_JPEG_ENC_LPCG 0x585F0000 +#define IMG_JPEG_DEC_LPCG 0x585D0000 +#define IMG_PXL_LINK_DC1_LPCG 0x585C0000 +#define IMG_PXL_LINK_DC0_LPCG 0x585B0000 +#define IMG_PXL_LINK_HDMI_LPCG 0x585A0000 +#define IMG_PXL_LINK_CSI0_LPCG 0x58590000 +#define IMG_PXL_LINK_CSI1_LPCG 0x58580000 +#define IMG_PDMA_7_LPCG 0x58570000 +#define IMG_PDMA_6_LPCG 0x58560000 +#define IMG_PDMA_5_LPCG 0x58550000 +#define IMG_PDMA_4_LPCG 0x58540000 +#define IMG_PDMA_3_LPCG 0x58530000 +#define IMG_PDMA_2_LPCG 0x58520000 +#define IMG_PDMA_1_LPCG 0x58510000 +#define IMG_PDMA_0_LPCG 0x58500000 + +/* HSIO SS */ +#define HSIO_GPIO_LPCG 0x5F100000 +#define HSIO_MISC_LPCG 0x5F0F0000 +#define HSIO_SATA_CRR4_LPCG 0x5F0E0000 +#define HSIO_PCIE_X1_CRR3_LPCG 0x5F0D0000 +#define HSIO_PCIE_X2_CRR2_LPCG 0x5F0C0000 +#define HSIO_PHY_X1_CRR1_LPCG 0x5F0B0000 +#define HSIO_PHY_X2_CRR0_LPCG 0x5F0A0000 +#define HSIO_PHY_X1_LPCG 0x5F090000 +#define HSIO_PHY_X2_LPCG 0x5F080000 +#define HSIO_SATA_LPCG 0x5F070000 +#define HSIO_PCIE_X1_LPCG 0x5F060000 +#define HSIO_PCIE_X2_LPCG 0x5F050000 + +/* M4 SS */ +#define M4_0_I2C_LPCG 0x37630000 +#define M4_0_LPUART_LPCG 0x37620000 +#define M4_0_LPIT_LPCG 0x37610000 +#define M4_1_I2C_LPCG 0x3B630000 +#define M4_1_LPUART_LPCG 0x3B620000 +#define M4_1_LPIT_LPCG 0x3B610000 + +/* Audio SS */ +#define AUD_ASRC_0_LPCG 0x59400000 +#define AUD_ESAI_0_LPCG 0x59410000 +#define AUD_SPDIF_0_LPCG 0x59420000 +#define AUD_SPDIF_1_LPCG 0x59430000 +#define AUD_SAI_0_LPCG 0x59440000 +#define AUD_SAI_1_LPCG 0x59450000 +#define AUD_SAI_2_LPCG 0x59460000 +#define AUD_SAI_3_LPCG 0x59470000 +#define AUD_HDMI_RX_SAI_0_LPCG 0x59480000 +#define AUD_HDMI_TX_SAI_0_LPCG 0x59490000 +#define AUD_GPT_5_LPCG 0x594B0000 +#define AUD_GPT_6_LPCG 0x594C0000 +#define AUD_GPT_7_LPCG 0x594D0000 +#define AUD_GPT_8_LPCG 0x594E0000 +#define AUD_GPT_9_LPCG 0x594F0000 +#define AUD_GPT_10_LPCG 0x59500000 +#define AUD_EDMA_0_LPCG 0x595f0000 +#define AUD_ASRC_1_LPCG 0x59c00000 +#define AUD_ESAI_1_LPCG 0x59c10000 +#define AUD_SAI_6_LPCG 0x59c20000 +#define AUD_SAI_7_LPCG 0x59c30000 +#define AUD_AMIX_LPCG 0x59c40000 +#define AUD_MQS_LPCG 0x59c50000 +#define AUD_ACM_LPCG 0x59c60000 +#define AUD_REC_CLK0_LPCG 0x59d00000 +#define AUD_REC_CLK1_LPCG 0x59d10000 +#define AUD_PLL_CLK0_LPCG 0x59d20000 +#define AUD_PLL_CLK1_LPCG 0x59d30000 +#define AUD_MCLKOUT0_LPCG 0x59d50000 +#define AUD_MCLKOUT1_LPCG 0x59d60000 +#define AUD_EDMA_1_LPCG 0x59df0000 + + +/* Connectivity SS */ +#define USDHC_0_LPCG 0x5B200000 +#define USDHC_1_LPCG 0x5B210000 +#define USDHC_2_LPCG 0x5B220000 +#define ENET_0_LPCG 0x5B230000 +#define ENET_1_LPCG 0x5B240000 +#define DTCP_LPCG 0x5B250000 +#define MLB_LPCG 0x5B260000 +#define USB_2_LPCG 0x5B270000 +#define USB_3_LPCG 0x5B280000 +#define NAND_LPCG 0x5B290000 +#define EDMA_LPCG 0x5B2A0000 + + +#endif diff --git a/include/soc/imx8/sc/ipc.h b/include/soc/imx8/sc/ipc.h new file mode 100644 index 000000000000..d87f9189fba3 --- /dev/null +++ b/include/soc/imx8/sc/ipc.h @@ -0,0 +1,71 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +/*! + * Header file for the IPC implementation. + */ + +#ifndef _SC_IPC_H +#define _SC_IPC_H + +/* Includes */ + +#include <linux/thermal.h> +#include <soc/imx8/sc/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); + +int register_scu_notifier(struct notifier_block *nb); +int unregister_scu_notifier(struct notifier_block *nb); + +#endif /* _SC_IPC_H */ + diff --git a/include/soc/imx8/sc/scfw.h b/include/soc/imx8/sc/scfw.h new file mode 100644 index 000000000000..3c77c69f7f89 --- /dev/null +++ b/include/soc/imx8/sc/scfw.h @@ -0,0 +1,34 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 NXP + * + * SPDX-License-Identifier: GPL-2.0+ + */ + +#ifndef _SC_SCFW_H +#define _SC_SCFW_H + +#include <linux/types.h> + +/*! + * This type is used to declare a handle for an IPC communication + * channel. Its meaning is specific to the IPC implementation. + */ +typedef uint32_t sc_ipc_t; + +/*! + * This type is used to declare an ID for an IPC communication + * channel. Its meaning is specific to the IPC implementation. + */ +typedef uint32_t sc_ipc_id_t; + +/*! + * This function returns the MU channel ID for this implementation + * + * @param[in] ipc pointer to Mu channel ID + * @return Returns an error code (SC_ERR_NONE = success, SC_ERR_IPC + * otherwise). + */ +int sc_ipc_getMuID(uint32_t *mu_id); + +#endif diff --git a/include/soc/imx8/sc/sci.h b/include/soc/imx8/sc/sci.h new file mode 100644 index 000000000000..004ad078091f --- /dev/null +++ b/include/soc/imx8/sc/sci.h @@ -0,0 +1,42 @@ +/*==========================================================================*/ +/*! + * @file sci.h + * + * Header file containing the public System Controller Interface (SCI) + * definitions. + * + * + * @{ + */ +/*==========================================================================*/ + +#ifndef _SC_SCI_H +#define _SC_SCI_H + +/* Defines */ + +#define SC_NUM_IPC 5 + +/* Includes */ + +#include <soc/imx8/sc/ipc.h> +#include <soc/imx8/sc/svc/misc/api.h> +#include <soc/imx8/sc/svc/pad/api.h> +#include <soc/imx8/sc/svc/pm/api.h> +#include <soc/imx8/sc/svc/rm/api.h> +#include <soc/imx8/sc/svc/timer/api.h> + +/* Types */ + +/* Functions */ +/*! + * This function initializes the MU connection to SCU. + * + * @return Returns an error code. + */ +int imx8_mu_init(void); + +#endif /* _SC_SCI_H */ + +/**@}*/ + diff --git a/include/soc/imx8/sc/svc/irq/api.h b/include/soc/imx8/sc/svc/irq/api.h new file mode 100644 index 000000000000..bd1b7fcdd807 --- /dev/null +++ b/include/soc/imx8/sc/svc/irq/api.h @@ -0,0 +1,158 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 <soc/imx8/sc/types.h> + +/* Defines */ + +#define SC_IRQ_NUM_GROUP 4 /* Number of groups */ + +/*! + * @name Defines for sc_irq_group_t + */ +/*@{*/ +#define SC_IRQ_GROUP_TEMP 0 /* Temp interrupts */ +#define SC_IRQ_GROUP_WDOG 1 /* Watchdog interrupts */ +#define SC_IRQ_GROUP_RTC 2 /* RTC interrupts */ +#define SC_IRQ_GROUP_WAKE 3 /* Wakeup interrupts */ +/*@}*/ + +/*! + * @name Defines for sc_irq_temp_t + */ +/*@{*/ +#define SC_IRQ_TEMP_HIGH (1 << 0) /* Temp alarm interrupt */ +#define SC_IRQ_TEMP_CPU0_HIGH (1 << 1) /* CPU0 temp alarm interrupt */ +#define SC_IRQ_TEMP_CPU1_HIGH (1 << 2) /* CPU1 temp alarm interrupt */ +#define SC_IRQ_TEMP_GPU0_HIGH (1 << 3) /* GPU0 temp alarm interrupt */ +#define SC_IRQ_TEMP_GPU1_HIGH (1 << 4) /* GPU1 temp alarm interrupt */ +#define SC_IRQ_TEMP_DRC0_HIGH (1 << 5) /* DRC0 temp alarm interrupt */ +#define SC_IRQ_TEMP_DRC1_HIGH (1 << 6) /* DRC1 temp alarm interrupt */ +#define SC_IRQ_TEMP_VPU_HIGH (1 << 7) /* DRC1 temp alarm interrupt */ +#define SC_IRQ_TEMP_PMIC0_HIGH (1 << 8) /* PMIC0 temp alarm interrupt */ +#define SC_IRQ_TEMP_PMIC1_HIGH (1 << 9) /* PMIC1 temp alarm interrupt */ +#define SC_IRQ_TEMP_LOW (1 << 10) /* Temp alarm interrupt */ +#define SC_IRQ_TEMP_CPU0_LOW (1 << 11) /* CPU0 temp alarm interrupt */ +#define SC_IRQ_TEMP_CPU1_LOW (1 << 12) /* CPU1 temp alarm interrupt */ +#define SC_IRQ_TEMP_GPU0_LOW (1 << 13) /* GPU0 temp alarm interrupt */ +#define SC_IRQ_TEMP_GPU1_LOW (1 << 14) /* GPU1 temp alarm interrupt */ +#define SC_IRQ_TEMP_DRC0_LOW (1 << 15) /* DRC0 temp alarm interrupt */ +#define SC_IRQ_TEMP_DRC1_LOW (1 << 16) /* DRC1 temp alarm interrupt */ +#define SC_IRQ_TEMP_VPU_LOW (1 << 17) /* DRC1 temp alarm interrupt */ +#define SC_IRQ_TEMP_PMIC0_LOW (1 << 18) /* PMIC0 temp alarm interrupt */ +#define SC_IRQ_TEMP_PMIC1_LOW (1 << 19) /* PMIC1 temp alarm interrupt */ +#define SC_IRQ_TEMP_PMIC2_HIGH (1 << 20) /* PMIC2 temp alarm interrupt */ +#define SC_IRQ_TEMP_PMIC2_LOW (1 << 21) /* PMIC2 temp alarm interrupt */ +/*@}*/ + +/*! + * @name Defines for sc_irq_wdog_t + */ +/*@{*/ +#define SC_IRQ_WDOG (1 << 0) /* Watchdog interrupt */ +/*@}*/ + +/*! + * @name Defines for sc_irq_rtc_t + */ +/*@{*/ +#define SC_IRQ_RTC (1 << 0) /* RTC interrupt */ +/*@}*/ + +/*! + * @name Defines for sc_irq_wake_t + */ +/*@{*/ +#define SC_IRQ_BUTTON (1 << 0) /* Button interrupt */ +/*@}*/ + +/* 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, bool 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/include/soc/imx8/sc/svc/misc/api.h b/include/soc/imx8/sc/svc/misc/api.h new file mode 100644 index 000000000000..8923953b841d --- /dev/null +++ b/include/soc/imx8/sc/svc/misc/api.h @@ -0,0 +1,427 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 <soc/imx8/sc/types.h> +#include <soc/imx8/sc/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 31 + +/*! + * @name Defines for sc_misc_boot_status_t + */ +/*@{*/ +#define SC_MISC_BOOT_STATUS_SUCCESS 0 /* Success */ +#define SC_MISC_BOOT_STATUS_SECURITY 1 /* Security violation */ +/*@}*/ + +/*! + * @name Defines for sc_misc_seco_auth_cmd_t + */ +/*@{*/ +#define SC_MISC_SECO_AUTH_SECO_FW 0 /* SECO Firmware */ +#define SC_MISC_SECO_AUTH_HDMI_TX_FW 1 /* HDMI TX Firmware */ +#define SC_MISC_SECO_AUTH_HDMI_RX_FW 2 /* HDMI RX Firmware */ +/*@}*/ + +/*! + * @name Defines for sc_misc_temp_t + */ +/*@{*/ +#define SC_MISC_TEMP 0 /* Temp sensor */ +#define SC_MISC_TEMP_HIGH 1 /* Temp high alarm */ +#define SC_MISC_TEMP_LOW 2 /* Temp low alarm */ +/*@}*/ + +/*! + * @name Defines for sc_misc_seco_auth_cmd_t + */ +/*@{*/ +#define SC_MISC_AUTH_CONTAINER 0 /* Authenticate container */ +#define SC_MISC_VERIFY_IMAGE 1 /* Verify image */ +#define SC_MISC_REL_CONTAINER 2 /* 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 true = firmware load + * + * @return Returns an error code (SC_ERR_NONE = success). + * + * 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. + */ +sc_err_t sc_misc_seco_image_load(sc_ipc_t ipc, uint32_t addr_src, + uint32_t addr_dst, uint32_t len, bool 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_meta address of/or metadata + * + * @return Returns an error code (SC_ERR_NONE = success). + * + * This is used to authenticate a SECO image or issue a security + * command. \a addr_meta often points to an container. It is also + * just data (or even unused) for some commands. + */ +sc_err_t sc_misc_seco_authenticate(sc_ipc_t ipc, + sc_misc_seco_auth_cmd_t cmd, + uint32_t addr_meta); + +/* @} */ + +/*! + * @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, bool 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, bool 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). + * + * 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, bool *status); + +/* @} */ + +#endif /* _SC_MISC_API_H */ + +/**@}*/ diff --git a/include/soc/imx8/sc/svc/pad/api.h b/include/soc/imx8/sc/svc/pad/api.h new file mode 100644 index 000000000000..27cb03e93191 --- /dev/null +++ b/include/soc/imx8/sc/svc/pad/api.h @@ -0,0 +1,565 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 SCD or via the implementation + * of board_system_config(). + * + * @{ + */ + +#ifndef _SC_PAD_API_H +#define _SC_PAD_API_H + +/* Includes */ + +#include <soc/imx8/sc/types.h> +#include <soc/imx8/sc/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 0 /* Normal */ +#define SC_PAD_CONFIG_OD 1 /* Open Drain */ +#define SC_PAD_CONFIG_OD_IN 2 /* Open Drain and input */ +#define SC_PAD_CONFIG_OUT_IN 3 /* Output and input */ +/*@}*/ + +/*! + * @name Defines for sc_pad_iso_t + */ +/*@{*/ +#define SC_PAD_ISO_OFF 0 /* ISO latch is transparent */ +#define SC_PAD_ISO_EARLY 1 /* Follow EARLY_ISO */ +#define SC_PAD_ISO_LATE 2 /* Follow LATE_ISO */ +#define SC_PAD_ISO_ON 3 /* ISO latched data is held */ +/*@}*/ + +/*! + * @name Defines for sc_pad_28fdsoi_dse_t + */ +/*@{*/ +#define SC_PAD_28FDSOI_DSE_18V_1MA 0 /* Drive strength of 1mA for 1.8v */ +#define SC_PAD_28FDSOI_DSE_18V_2MA 1 /* Drive strength of 2mA for 1.8v */ +#define SC_PAD_28FDSOI_DSE_18V_4MA 2 /* Drive strength of 4mA for 1.8v */ +#define SC_PAD_28FDSOI_DSE_18V_6MA 3 /* Drive strength of 6mA for 1.8v */ +#define SC_PAD_28FDSOI_DSE_18V_8MA 4 /* Drive strength of 8mA for 1.8v */ +#define SC_PAD_28FDSOI_DSE_18V_10MA 5 /* Drive strength of 10mA for 1.8v */ +#define SC_PAD_28FDSOI_DSE_18V_12MA 6 /* Drive strength of 12mA for 1.8v */ +#define SC_PAD_28FDSOI_DSE_18V_HS 7 /* High-speed drive strength for 1.8v */ +#define SC_PAD_28FDSOI_DSE_33V_2MA 0 /* Drive strength of 2mA for 3.3v */ +#define SC_PAD_28FDSOI_DSE_33V_4MA 1 /* Drive strength of 4mA for 3.3v */ +#define SC_PAD_28FDSOI_DSE_33V_8MA 2 /* Drive strength of 8mA for 3.3v */ +#define SC_PAD_28FDSOI_DSE_33V_12MA 3 /* Drive strength of 12mA for 3.3v */ +#define SC_PAD_28FDSOI_DSE_DV_HIGH 0 /* High drive strength for dual volt */ +#define SC_PAD_28FDSOI_DSE_DV_LOW 1 /* Low drive strength for dual volt */ +/*@}*/ + +/*! + * @name Defines for sc_pad_28fdsoi_ps_t + */ +/*@{*/ +#define SC_PAD_28FDSOI_PS_KEEPER 0 /* Bus-keeper (only valid for 1.8v) */ +#define SC_PAD_28FDSOI_PS_PU 1 /* Pull-up */ +#define SC_PAD_28FDSOI_PS_PD 2 /* Pull-down */ +#define SC_PAD_28FDSOI_PS_NONE 3 /* No pull (disabled) */ +/*@}*/ + +/*! + * @name Defines for sc_pad_28fdsoi_pus_t + */ +/*@{*/ +#define SC_PAD_28FDSOI_PUS_30K_PD 0 /* 30K pull-down */ +#define SC_PAD_28FDSOI_PUS_100K_PU 1 /* 100K pull-up */ +#define SC_PAD_28FDSOI_PUS_3K_PU 2 /* 3K pull-up */ +#define SC_PAD_28FDSOI_PUS_30K_PU 3 /* 30K pull-up */ +/*@}*/ + +/*! + * @name Defines for sc_pad_wakeup_t + */ +/*@{*/ +#define SC_PAD_WAKEUP_OFF 0 /* Off */ +#define SC_PAD_WAKEUP_CLEAR 1 /* Clears pending flag */ +#define SC_PAD_WAKEUP_LOW_LVL 4 /* Low level */ +#define SC_PAD_WAKEUP_FALL_EDGE 5 /* Falling edge */ +#define SC_PAD_WAKEUP_RISE_EDGE 6 /* Rising edge */ +#define SC_PAD_WAKEUP_HIGH_LVL 7 /* 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 + * + * 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). + * + * 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, bool hys, + sc_pad_28fdsoi_pus_t pus, bool pke, + bool 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, bool *hys, + sc_pad_28fdsoi_pus_t *pus, bool *pke, + bool *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, bool fastfrz, + uint8_t rasrcp, uint8_t rasrcn, + bool nasrc_sel, bool 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, bool *fastfrz, + uint8_t *rasrcp, uint8_t *rasrcn, + bool *nasrc_sel, bool *compok, + uint8_t *nasrc, bool *psw_ovr); + +/* @} */ + +#endif /* _SC_PAD_API_H */ + +/**@}*/ diff --git a/include/soc/imx8/sc/svc/pm/api.h b/include/soc/imx8/sc/svc/pm/api.h new file mode 100644 index 000000000000..ae49c5b7e9de --- /dev/null +++ b/include/soc/imx8/sc/svc/pm/api.h @@ -0,0 +1,595 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 <soc/imx8/sc/types.h> +#include <soc/imx8/sc/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 0 /* Power off */ +#define SC_PM_PW_MODE_STBY 1 /* Power in standby */ +#define SC_PM_PW_MODE_LP 2 /* Power in low-power */ +#define SC_PM_PW_MODE_ON 3 /* Power on */ +/*@}*/ + +/*! + * @name Defines for sc_pm_clk_t + */ +/*@{*/ +#define SC_PM_CLK_SLV_BUS 0 /* Slave bus clock */ +#define SC_PM_CLK_MST_BUS 1 /* Master bus clock */ +#define SC_PM_CLK_PER 2 /* Peripheral clock */ +#define SC_PM_CLK_PHY 3 /* Phy clock */ +#define SC_PM_CLK_MISC 4 /* Misc clock */ +#define SC_PM_CLK_MISC0 0 /* Misc 0 clock */ +#define SC_PM_CLK_MISC1 1 /* Misc 1 clock */ +#define SC_PM_CLK_MISC2 2 /* Misc 2 clock */ +#define SC_PM_CLK_MISC3 3 /* Misc 3 clock */ +#define SC_PM_CLK_MISC4 4 /* Misc 4 clock */ +#define SC_PM_CLK_CPU 2 /* CPU clock */ +#define SC_PM_CLK_PLL 4 /* PLL */ +#define SC_PM_CLK_BYPASS 4 /* Bypass clock */ +/*@}*/ + +/*! + * @name Defines for sc_pm_clk_mode_t + */ +/*@{*/ +#define SC_PM_CLK_MODE_ROM_INIT 0 /* Clock is initialized by ROM. */ +#define SC_PM_CLK_MODE_OFF 1 /* Clock is disabled */ +#define SC_PM_CLK_MODE_ON 2 /* Clock is enabled. */ +#define SC_PM_CLK_MODE_AUTOGATE_SW 3 /* Clock is in SW autogate mode */ +#define SC_PM_CLK_MODE_AUTOGATE_HW 4 /* Clock is in HW autogate mode */ +#define SC_PM_CLK_MODE_AUTOGATE_SW_HW 5 /* Clock is in SW-HW autogate mode */ +/*@}*/ + +/*! + * @name Defines for sc_pm_clk_parent_t + */ +/*@{*/ +#define SC_PM_PARENT_XTAL 0 /* Parent is XTAL. */ +#define SC_PM_PARENT_PLL0 1 /* Parent is PLL0 */ +#define SC_PM_PARENT_PLL1 2 /* Parent is PLL1 or PLL0/2 */ +#define SC_PM_PARENT_PLL2 3 /* Parent in PLL2 or PLL0/4 */ +#define SC_PM_PARENT_BYPS 4 /* Parent is a bypass clock. */ +/*@}*/ + +/*! + * @name Defines for sc_pm_reset_type_t + */ +/*@{*/ +#define SC_PM_RESET_TYPE_COLD 0 /* Cold reset */ +#define SC_PM_RESET_TYPE_WARM 1 /* Warm reset */ +#define SC_PM_RESET_TYPE_BOARD 2 /* Board reset */ +/*@}*/ + +/*! + * @name Defines for sc_pm_reset_reason_t + */ +/*@{*/ +#define SC_PM_RESET_REASON_POR 0 /* Power on reset */ +#define SC_PM_RESET_REASON_WARM 1 /* Warm reset */ +#define SC_PM_RESET_REASON_SW 2 /* Software reset */ +#define SC_PM_RESET_REASON_WDOG 3 /* Watchdog reset */ +#define SC_PM_RESET_REASON_LOCKUP 4 /* Lockup reset */ +#define SC_PM_RESET_REASON_TAMPER 5 /* Tamper reset */ +#define SC_PM_RESET_REASON_TEMP 6 /* Temp reset */ +#define SC_PM_RESET_REASON_LOW_VOLT 7 /* Low voltage reset */ +/*@}*/ + +/*! + * @name Defines for sc_pm_sys_if_t + */ +/*@{*/ +#define SC_PM_SYS_IF_INTERCONNECT 0 /* System interconnect */ +#define SC_PM_SYS_IF_MU 1 /* AP -> SCU message units */ +#define SC_PM_SYS_IF_OCMEM 2 /* On-chip memory (ROM/OCRAM) */ +#define SC_PM_SYS_IF_DDR 3 /* DDR memory */ +/*@}*/ + +/* 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 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; + +/* 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 + * + * All resources owned by \a pt that are on will have their power + * mode changed to \a mode. + * + * @see 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 + * + * Resources set to SC_PM_PW_MODE_ON will reflect the + * power mode of the partition and will change as that changes. + * + * 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. + * + * @see sc_pm_set_partition_power_mode(). + */ +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[out] mode pointer to return power mode + * + * @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 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 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 true; otherwise disabled + * @param[in] autog HW auto clock gating + * + * @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, bool enable, bool 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. + * + * 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 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, bool enable, + sc_faddr_t address); + +/* @} */ + +#endif /* _SC_PM_API_H */ + +/**@}*/ diff --git a/include/soc/imx8/sc/svc/rm/api.h b/include/soc/imx8/sc/svc/rm/api.h new file mode 100644 index 000000000000..1b798feceb49 --- /dev/null +++ b/include/soc/imx8/sc/svc/rm/api.h @@ -0,0 +1,758 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 <soc/imx8/sc/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 UINT8_MAX /* All partitions */ +#define SC_RM_MR_ALL UINT8_MAX /* All memory regions */ +/*@}*/ + +/*! + * @name Defines for sc_rm_spa_t + */ +/*@{*/ +#define SC_RM_SPA_PASSTHRU 0 /* Pass through (attribute driven by master) */ +#define SC_RM_SPA_PASSSID 1 /* Pass through and output on SID */ +#define SC_RM_SPA_ASSERT 2 /* Assert (force to be secure/privileged) */ +#define SC_RM_SPA_NEGATE 3 /* Negate (force to be non-secure/user) */ +/*@}*/ + +/*! + * @name Defines for sc_rm_perm_t + */ +/*@{*/ +#define SC_RM_PERM_NONE 0 /* No access */ +#define SC_RM_PERM_SEC_R 1 /* Secure RO */ +#define SC_RM_PERM_SECPRIV_RW 2 /* Secure privilege R/W */ +#define SC_RM_PERM_SEC_RW 3 /* Secure R/W */ +#define SC_RM_PERM_NSPRIV_R 4 /* Secure R/W, non-secure privilege RO */ +#define SC_RM_PERM_NS_R 5 /* Secure R/W, non-secure RO */ +#define SC_RM_PERM_NSPRIV_RW 6 /* Secure R/W, non-secure privilege R/W */ +#define SC_RM_PERM_FULL 7 /* 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 true if new DID is desired + * @param[in] restricted boolean indicating if this partition should be restricted; set + * 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 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, bool secure, + bool isolated, bool restricted, bool grant, + bool 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, bool 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, + bool move_rsrc, bool 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 (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, bool 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 (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, + bool 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, + bool 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 (true if caller's partition owns the resource). + * + * If \a resource is out of range then false is returned. + */ +bool 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 (true if the resource is a bus master). + * + * If \a resource is out of range then false is returned. + */ +bool 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 (true if the resource is a peripheral). + * + * If \a resource is out of range then false is returned. + */ +bool 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 (true if caller's partition owns the + * memory region). + * + * If \a mr is out of range then false is returned. + */ +bool 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 (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, bool movable); + +/*! + * This function gets ownership status of a pad. + * + * @param[in] ipc IPC handle + * @param[in] pad pad to check + * + * @return Returns a boolean (true if caller's partition owns the pad). + * + * If \a pad is out of range then false is returned. + */ +bool 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/include/soc/imx8/sc/svc/timer/api.h b/include/soc/imx8/sc/svc/timer/api.h new file mode 100644 index 000000000000..2f7e29881e00 --- /dev/null +++ b/include/soc/imx8/sc/svc/timer/api.h @@ -0,0 +1,282 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 <soc/imx8/sc/types.h> +#include <soc/imx8/sc/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 0 /* Reset partition */ +#define SC_TIMER_WDOG_ACTION_WARM 1 /* Warm reset system */ +#define SC_TIMER_WDOG_ACTION_COLD 2 /* Cold reset system */ +#define SC_TIMER_WDOG_ACTION_BOARD 3 /* Reset board */ +#define SC_TIMER_WDOG_ACTION_IRQ 4 /* 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, bool 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, bool *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 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/include/soc/imx8/sc/types.h b/include/soc/imx8/sc/types.h new file mode 100644 index 000000000000..8d8b0463e7ca --- /dev/null +++ b/include/soc/imx8/sc/types.h @@ -0,0 +1,824 @@ +/* + * Copyright (C) 2016 Freescale Semiconductor, Inc. + * Copyright 2017 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 <soc/imx8/sc/scfw.h> + +/* Defines */ + +/*! + * @name Defines for common frequencies + */ +/*@{*/ +#define SC_32KHZ 32768 /* 32KHz */ +#define SC_10MHZ 10000000 /* 10MHz */ +#define SC_20MHZ 20000000 /* 20MHz */ +#define SC_25MHZ 25000000 /* 25MHz */ +#define SC_27MHZ 27000000 /* 27MHz */ +#define SC_40MHZ 40000000 /* 40MHz */ +#define SC_45MHZ 45000000 /* 45MHz */ +#define SC_50MHZ 50000000 /* 50MHz */ +#define SC_60MHZ 60000000 /* 60MHz */ +#define SC_66MHZ 66666666 /* 66MHz */ +#define SC_74MHZ 74250000 /* 74.25MHz */ +#define SC_80MHZ 80000000 /* 80MHz */ +#define SC_83MHZ 83333333 /* 83MHz */ +#define SC_84MHZ 84375000 /* 84.37MHz */ +#define SC_100MHZ 100000000 /* 100MHz */ +#define SC_125MHZ 125000000 /* 125MHz */ +#define SC_133MHZ 133333333 /* 133MHz */ +#define SC_135MHZ 135000000 /* 135MHz */ +#define SC_150MHZ 150000000 /* 150MHz */ +#define SC_160MHZ 160000000 /* 160MHz */ +#define SC_166MHZ 166666666 /* 160MHz */ +#define SC_175MHZ 175000000 /* 175MHz */ +#define SC_180MHZ 180000000 /* 180MHz */ +#define SC_200MHZ 200000000 /* 200MHz */ +#define SC_250MHZ 250000000 /* 250MHz */ +#define SC_266MHZ 266666666 /* 266MHz */ +#define SC_300MHZ 300000000 /* 300MHz */ +#define SC_320MHZ 320000000 /* 320MHz */ +#define SC_325MHZ 325000000 /* 325MHz */ +#define SC_333MHZ 333333333 /* 333MHz */ +#define SC_350MHZ 350000000 /* 350MHz */ +#define SC_372MHZ 372000000 /* 372MHz */ +#define SC_375MHZ 375000000 /* 375MHz */ +#define SC_400MHZ 400000000 /* 400MHz */ +#define SC_500MHZ 500000000 /* 500MHz */ +#define SC_594MHZ 594000000 /* 594MHz */ +#define SC_650MHZ 650000000 /* 650MHz */ +#define SC_667MHZ 666666667 /* 667MHz */ +#define SC_675MHZ 675000000 /* 675MHz */ +#define SC_700MHZ 700000000 /* 700MHz */ +#define SC_720MHZ 720000000 /* 720MHz */ +#define SC_750MHZ 750000000 /* 750MHz */ +#define SC_800MHZ 800000000 /* 800MHz */ +#define SC_850MHZ 850000000 /* 850MHz */ +#define SC_900MHZ 900000000 /* 900MHz */ +#define SC_1000MHZ 1000000000 /* 1GHz */ +#define SC_1056MHZ 1056000000 /* 1.056GHz */ +#define SC_1188MHZ 1188000000 /* 1.188GHz */ +#define SC_1260MHZ 1260000000 /* 1.26GHz */ +#define SC_1300MHZ 1300000000 /* 1.3GHz */ +#define SC_1400MHZ 1400000000 /* 1.4GHz */ +#define SC_1500MHZ 1500000000 /* 1.5GHz */ +#define SC_1600MHZ 1600000000 /* 1.6GHz */ +#define SC_1800MHZ 1800000000 /* 1.8GHz */ +#define SC_2000MHZ 2000000000 /* 2.0GHz */ +#define SC_2112MHZ 2112000000 /* 2.12GHz */ + +/*@}*/ + +/*! + * @name Defines for 24M related frequencies + */ +/*@{*/ +#define SC_8MHZ 8000000 /* 8MHz */ +#define SC_12MHZ 12000000 /* 12MHz */ +#define SC_19MHZ 19800000 /* 19.8MHz */ +#define SC_24MHZ 24000000 /* 24MHz */ +#define SC_48MHZ 48000000 /* 48MHz */ +#define SC_120MHZ 120000000 /* 120MHz */ +#define SC_132MHZ 132000000 /* 132MHz */ +#define SC_144MHZ 144000000 /* 144MHz */ +#define SC_192MHZ 192000000 /* 192MHz */ +#define SC_211MHZ 211200000 /* 211.2MHz */ +#define SC_240MHZ 240000000 /* 240MHz */ +#define SC_264MHZ 264000000 /* 264MHz */ +#define SC_352MHZ 352000000 /* 352MHz */ +#define SC_360MHZ 360000000 /* 360MHz */ +#define SC_384MHZ 384000000 /* 384MHz */ +#define SC_396MHZ 396000000 /* 396MHz */ +#define SC_432MHZ 432000000 /* 432MHz */ +#define SC_480MHZ 480000000 /* 480MHz */ +#define SC_600MHZ 600000000 /* 600MHz */ +#define SC_744MHZ 744000000 /* 744MHz */ +#define SC_792MHZ 792000000 /* 792MHz */ +#define SC_864MHZ 864000000 /* 864MHz */ +#define SC_960MHZ 960000000 /* 960MHz */ +#define SC_1056MHZ 1056000000 /* 1056MHz */ +#define SC_1200MHZ 1200000000 /* 1.2GHz */ +#define SC_1464MHZ 1464000000 /* 1.464GHz */ +#define SC_2400MHZ 2400000000 /* 2.4GHz */ +/*@}*/ + +/*! + * @name Defines for A/V related frequencies + */ +/*@{*/ +#define SC_62MHZ 62937500 /* 62.9375MHz */ +#define SC_755MHZ 755250000 /* 755.25MHz */ +/*@}*/ + +/*! + * @name Defines for type widths + */ +/*@{*/ +#define SC_FADDR_W 36 /* Width of sc_faddr_t */ +#define SC_BOOL_W 1 /* Width of bool */ +#define SC_ERR_W 4 /* Width of sc_err_t */ +#define SC_RSRC_W 10 /* Width of sc_rsrc_t */ +#define SC_CTRL_W 6 /* Width of sc_ctrl_t */ +/*@}*/ + +#define SC_R_ALL UINT16_MAX /* All resources */ +#define SC_P_ALL UINT16_MAX /* All pads */ + +/*! + * 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 enum sc_err_e { + SC_ERR_NONE = 0, /* Success */ + SC_ERR_VERSION = 1, /* Incompatible API version */ + SC_ERR_CONFIG = 2, /* Configuration error */ + SC_ERR_PARM = 3, /* Bad parameter */ + SC_ERR_NOACCESS = 4, /* Permission error (no access) */ + SC_ERR_LOCKED = 5, /* Permission error (locked) */ + SC_ERR_UNAVAILABLE = 6, /* Unavailable (out of resources) */ + SC_ERR_NOTFOUND = 7, /* Not found */ + SC_ERR_NOPOWER = 8, /* No power */ + SC_ERR_IPC = 9, /* Generic IPC error */ + SC_ERR_BUSY = 10, /* Resource is currently busy/active */ + SC_ERR_FAIL = 11, /* General I/O failure */ + SC_ERR_LAST +} 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 enum sc_rsrc_e { + SC_R_A53 = 0, + SC_R_A53_0 = 1, + SC_R_A53_1 = 2, + SC_R_A53_2 = 3, + SC_R_A53_3 = 4, + SC_R_A72 = 5, + SC_R_A72_0 = 6, + SC_R_A72_1 = 7, + SC_R_A72_2 = 8, + SC_R_A72_3 = 9, + SC_R_CCI = 10, + SC_R_DB = 11, + SC_R_DRC_0 = 12, + SC_R_DRC_1 = 13, + SC_R_GIC_SMMU = 14, + SC_R_IRQSTR_M4_0 = 15, + SC_R_IRQSTR_M4_1 = 16, + SC_R_SMMU = 17, + SC_R_GIC = 18, + SC_R_DC_0_BLIT0 = 19, + SC_R_DC_0_BLIT1 = 20, + SC_R_DC_0_BLIT2 = 21, + SC_R_DC_0_BLIT_OUT = 22, + SC_R_DC_0_CAPTURE0 = 23, + SC_R_DC_0_CAPTURE1 = 24, + SC_R_DC_0_WARP = 25, + SC_R_DC_0_INTEGRAL0 = 26, + SC_R_DC_0_INTEGRAL1 = 27, + SC_R_DC_0_VIDEO0 = 28, + SC_R_DC_0_VIDEO1 = 29, + SC_R_DC_0_FRAC0 = 30, + SC_R_DC_0_FRAC1 = 31, + SC_R_DC_0 = 32, + SC_R_GPU_2_PID0 = 33, + SC_R_DC_0_PLL_0 = 34, + SC_R_DC_0_PLL_1 = 35, + SC_R_DC_1_BLIT0 = 36, + SC_R_DC_1_BLIT1 = 37, + SC_R_DC_1_BLIT2 = 38, + SC_R_DC_1_BLIT_OUT = 39, + SC_R_DC_1_CAPTURE0 = 40, + SC_R_DC_1_CAPTURE1 = 41, + SC_R_DC_1_WARP = 42, + SC_R_DC_1_INTEGRAL0 = 43, + SC_R_DC_1_INTEGRAL1 = 44, + SC_R_DC_1_VIDEO0 = 45, + SC_R_DC_1_VIDEO1 = 46, + SC_R_DC_1_FRAC0 = 47, + SC_R_DC_1_FRAC1 = 48, + SC_R_DC_1 = 49, + SC_R_GPU_3_PID0 = 50, + SC_R_DC_1_PLL_0 = 51, + SC_R_DC_1_PLL_1 = 52, + SC_R_SPI_0 = 53, + SC_R_SPI_1 = 54, + SC_R_SPI_2 = 55, + SC_R_SPI_3 = 56, + SC_R_UART_0 = 57, + SC_R_UART_1 = 58, + SC_R_UART_2 = 59, + SC_R_UART_3 = 60, + SC_R_UART_4 = 61, + SC_R_EMVSIM_0 = 62, + SC_R_EMVSIM_1 = 63, + SC_R_DMA_0_CH0 = 64, + SC_R_DMA_0_CH1 = 65, + SC_R_DMA_0_CH2 = 66, + SC_R_DMA_0_CH3 = 67, + SC_R_DMA_0_CH4 = 68, + SC_R_DMA_0_CH5 = 69, + SC_R_DMA_0_CH6 = 70, + SC_R_DMA_0_CH7 = 71, + SC_R_DMA_0_CH8 = 72, + SC_R_DMA_0_CH9 = 73, + SC_R_DMA_0_CH10 = 74, + SC_R_DMA_0_CH11 = 75, + SC_R_DMA_0_CH12 = 76, + SC_R_DMA_0_CH13 = 77, + SC_R_DMA_0_CH14 = 78, + SC_R_DMA_0_CH15 = 79, + SC_R_DMA_0_CH16 = 80, + SC_R_DMA_0_CH17 = 81, + SC_R_DMA_0_CH18 = 82, + SC_R_DMA_0_CH19 = 83, + SC_R_DMA_0_CH20 = 84, + SC_R_DMA_0_CH21 = 85, + SC_R_DMA_0_CH22 = 86, + SC_R_DMA_0_CH23 = 87, + SC_R_DMA_0_CH24 = 88, + SC_R_DMA_0_CH25 = 89, + SC_R_DMA_0_CH26 = 90, + SC_R_DMA_0_CH27 = 91, + SC_R_DMA_0_CH28 = 92, + SC_R_DMA_0_CH29 = 93, + SC_R_DMA_0_CH30 = 94, + SC_R_DMA_0_CH31 = 95, + SC_R_I2C_0 = 96, + SC_R_I2C_1 = 97, + SC_R_I2C_2 = 98, + SC_R_I2C_3 = 99, + SC_R_I2C_4 = 100, + SC_R_ADC_0 = 101, + SC_R_ADC_1 = 102, + SC_R_FTM_0 = 103, + SC_R_FTM_1 = 104, + SC_R_CAN_0 = 105, + SC_R_CAN_1 = 106, + SC_R_CAN_2 = 107, + SC_R_DMA_1_CH0 = 108, + SC_R_DMA_1_CH1 = 109, + SC_R_DMA_1_CH2 = 110, + SC_R_DMA_1_CH3 = 111, + SC_R_DMA_1_CH4 = 112, + SC_R_DMA_1_CH5 = 113, + SC_R_DMA_1_CH6 = 114, + SC_R_DMA_1_CH7 = 115, + SC_R_DMA_1_CH8 = 116, + SC_R_DMA_1_CH9 = 117, + SC_R_DMA_1_CH10 = 118, + SC_R_DMA_1_CH11 = 119, + SC_R_DMA_1_CH12 = 120, + SC_R_DMA_1_CH13 = 121, + SC_R_DMA_1_CH14 = 122, + SC_R_DMA_1_CH15 = 123, + SC_R_DMA_1_CH16 = 124, + SC_R_DMA_1_CH17 = 125, + SC_R_DMA_1_CH18 = 126, + SC_R_DMA_1_CH19 = 127, + SC_R_DMA_1_CH20 = 128, + SC_R_DMA_1_CH21 = 129, + SC_R_DMA_1_CH22 = 130, + SC_R_DMA_1_CH23 = 131, + SC_R_DMA_1_CH24 = 132, + SC_R_DMA_1_CH25 = 133, + SC_R_DMA_1_CH26 = 134, + SC_R_DMA_1_CH27 = 135, + SC_R_DMA_1_CH28 = 136, + SC_R_DMA_1_CH29 = 137, + SC_R_DMA_1_CH30 = 138, + SC_R_DMA_1_CH31 = 139, + SC_R_UNUSED1 = 140, + SC_R_UNUSED2 = 141, + SC_R_UNUSED3 = 142, + SC_R_UNUSED4 = 143, + SC_R_GPU_0_PID0 = 144, + SC_R_GPU_0_PID1 = 145, + SC_R_GPU_0_PID2 = 146, + SC_R_GPU_0_PID3 = 147, + SC_R_GPU_1_PID0 = 148, + SC_R_GPU_1_PID1 = 149, + SC_R_GPU_1_PID2 = 150, + SC_R_GPU_1_PID3 = 151, + SC_R_PCIE_A = 152, + SC_R_SERDES_0 = 153, + SC_R_MATCH_0 = 154, + SC_R_MATCH_1 = 155, + SC_R_MATCH_2 = 156, + SC_R_MATCH_3 = 157, + SC_R_MATCH_4 = 158, + SC_R_MATCH_5 = 159, + SC_R_MATCH_6 = 160, + SC_R_MATCH_7 = 161, + SC_R_MATCH_8 = 162, + SC_R_MATCH_9 = 163, + SC_R_MATCH_10 = 164, + SC_R_MATCH_11 = 165, + SC_R_MATCH_12 = 166, + SC_R_MATCH_13 = 167, + SC_R_MATCH_14 = 168, + SC_R_PCIE_B = 169, + SC_R_SATA_0 = 170, + SC_R_SERDES_1 = 171, + SC_R_HSIO_GPIO = 172, + SC_R_MATCH_15 = 173, + SC_R_MATCH_16 = 174, + SC_R_MATCH_17 = 175, + SC_R_MATCH_18 = 176, + SC_R_MATCH_19 = 177, + SC_R_MATCH_20 = 178, + SC_R_MATCH_21 = 179, + SC_R_MATCH_22 = 180, + SC_R_MATCH_23 = 181, + SC_R_MATCH_24 = 182, + SC_R_MATCH_25 = 183, + SC_R_MATCH_26 = 184, + SC_R_MATCH_27 = 185, + SC_R_MATCH_28 = 186, + SC_R_LCD_0 = 187, + SC_R_LCD_0_PWM_0 = 188, + SC_R_LCD_0_I2C_0 = 189, + SC_R_LCD_0_I2C_1 = 190, + SC_R_PWM_0 = 191, + SC_R_PWM_1 = 192, + SC_R_PWM_2 = 193, + SC_R_PWM_3 = 194, + SC_R_PWM_4 = 195, + SC_R_PWM_5 = 196, + SC_R_PWM_6 = 197, + SC_R_PWM_7 = 198, + SC_R_GPIO_0 = 199, + SC_R_GPIO_1 = 200, + SC_R_GPIO_2 = 201, + SC_R_GPIO_3 = 202, + SC_R_GPIO_4 = 203, + SC_R_GPIO_5 = 204, + SC_R_GPIO_6 = 205, + SC_R_GPIO_7 = 206, + SC_R_GPT_0 = 207, + SC_R_GPT_1 = 208, + SC_R_GPT_2 = 209, + SC_R_GPT_3 = 210, + SC_R_GPT_4 = 211, + SC_R_KPP = 212, + SC_R_MU_0A = 213, + SC_R_MU_1A = 214, + SC_R_MU_2A = 215, + SC_R_MU_3A = 216, + SC_R_MU_4A = 217, + SC_R_MU_5A = 218, + SC_R_MU_6A = 219, + SC_R_MU_7A = 220, + SC_R_MU_8A = 221, + SC_R_MU_9A = 222, + SC_R_MU_10A = 223, + SC_R_MU_11A = 224, + SC_R_MU_12A = 225, + SC_R_MU_13A = 226, + SC_R_MU_5B = 227, + SC_R_MU_6B = 228, + SC_R_MU_7B = 229, + SC_R_MU_8B = 230, + SC_R_MU_9B = 231, + SC_R_MU_10B = 232, + SC_R_MU_11B = 233, + SC_R_MU_12B = 234, + SC_R_MU_13B = 235, + SC_R_ROM_0 = 236, + SC_R_FSPI_0 = 237, + SC_R_FSPI_1 = 238, + SC_R_IEE = 239, + SC_R_IEE_R0 = 240, + SC_R_IEE_R1 = 241, + SC_R_IEE_R2 = 242, + SC_R_IEE_R3 = 243, + SC_R_IEE_R4 = 244, + SC_R_IEE_R5 = 245, + SC_R_IEE_R6 = 246, + SC_R_IEE_R7 = 247, + SC_R_SDHC_0 = 248, + SC_R_SDHC_1 = 249, + SC_R_SDHC_2 = 250, + SC_R_ENET_0 = 251, + SC_R_ENET_1 = 252, + SC_R_MLB_0 = 253, + SC_R_DMA_2_CH0 = 254, + SC_R_DMA_2_CH1 = 255, + SC_R_DMA_2_CH2 = 256, + SC_R_DMA_2_CH3 = 257, + SC_R_DMA_2_CH4 = 258, + SC_R_USB_0 = 259, + SC_R_USB_1 = 260, + SC_R_USB_0_PHY = 261, + SC_R_USB_2 = 262, + SC_R_USB_2_PHY = 263, + SC_R_DTCP = 264, + SC_R_NAND = 265, + SC_R_LVDS_0 = 266, + SC_R_LVDS_0_PWM_0 = 267, + SC_R_LVDS_0_I2C_0 = 268, + SC_R_LVDS_0_I2C_1 = 269, + SC_R_LVDS_1 = 270, + SC_R_LVDS_1_PWM_0 = 271, + SC_R_LVDS_1_I2C_0 = 272, + SC_R_LVDS_1_I2C_1 = 273, + SC_R_LVDS_2 = 274, + SC_R_LVDS_2_PWM_0 = 275, + SC_R_LVDS_2_I2C_0 = 276, + SC_R_LVDS_2_I2C_1 = 277, + SC_R_M4_0_PID0 = 278, + SC_R_M4_0_PID1 = 279, + SC_R_M4_0_PID2 = 280, + SC_R_M4_0_PID3 = 281, + SC_R_M4_0_PID4 = 282, + SC_R_M4_0_RGPIO = 283, + SC_R_M4_0_SEMA42 = 284, + SC_R_M4_0_TPM = 285, + SC_R_M4_0_PIT = 286, + SC_R_M4_0_UART = 287, + SC_R_M4_0_I2C = 288, + SC_R_M4_0_INTMUX = 289, + SC_R_M4_0_SIM = 290, + SC_R_M4_0_WDOG = 291, + SC_R_M4_0_MU_0B = 292, + SC_R_M4_0_MU_0A0 = 293, + SC_R_M4_0_MU_0A1 = 294, + SC_R_M4_0_MU_0A2 = 295, + SC_R_M4_0_MU_0A3 = 296, + SC_R_M4_0_MU_1A = 297, + SC_R_M4_1_PID0 = 298, + SC_R_M4_1_PID1 = 299, + SC_R_M4_1_PID2 = 300, + SC_R_M4_1_PID3 = 301, + SC_R_M4_1_PID4 = 302, + SC_R_M4_1_RGPIO = 303, + SC_R_M4_1_SEMA42 = 304, + SC_R_M4_1_TPM = 305, + SC_R_M4_1_PIT = 306, + SC_R_M4_1_UART = 307, + SC_R_M4_1_I2C = 308, + SC_R_M4_1_INTMUX = 309, + SC_R_M4_1_SIM = 310, + SC_R_M4_1_WDOG = 311, + SC_R_M4_1_MU_0B = 312, + SC_R_M4_1_MU_0A0 = 313, + SC_R_M4_1_MU_0A1 = 314, + SC_R_M4_1_MU_0A2 = 315, + SC_R_M4_1_MU_0A3 = 316, + SC_R_M4_1_MU_1A = 317, + SC_R_SAI_0 = 318, + SC_R_SAI_1 = 319, + SC_R_SAI_2 = 320, + SC_R_IRQSTR_SCU2 = 321, + SC_R_IRQSTR_DSP = 322, + SC_R_UNUSED5 = 323, + SC_R_UNUSED6 = 324, + SC_R_AUDIO_PLL_0 = 325, + SC_R_PI_0 = 326, + SC_R_PI_0_PWM_0 = 327, + SC_R_PI_0_PWM_1 = 328, + SC_R_PI_0_I2C_0 = 329, + SC_R_PI_0_PLL = 330, + SC_R_PI_1 = 331, + SC_R_PI_1_PWM_0 = 332, + SC_R_PI_1_PWM_1 = 333, + SC_R_PI_1_I2C_0 = 334, + SC_R_PI_1_PLL = 335, + SC_R_SC_PID0 = 336, + SC_R_SC_PID1 = 337, + SC_R_SC_PID2 = 338, + SC_R_SC_PID3 = 339, + SC_R_SC_PID4 = 340, + SC_R_SC_SEMA42 = 341, + SC_R_SC_TPM = 342, + SC_R_SC_PIT = 343, + SC_R_SC_UART = 344, + SC_R_SC_I2C = 345, + SC_R_SC_MU_0B = 346, + SC_R_SC_MU_0A0 = 347, + SC_R_SC_MU_0A1 = 348, + SC_R_SC_MU_0A2 = 349, + SC_R_SC_MU_0A3 = 350, + SC_R_SC_MU_1A = 351, + SC_R_SYSCNT_RD = 352, + SC_R_SYSCNT_CMP = 353, + SC_R_DEBUG = 354, + SC_R_SYSTEM = 355, + SC_R_SNVS = 356, + SC_R_OTP = 357, + SC_R_VPU_PID0 = 358, + SC_R_VPU_PID1 = 359, + SC_R_VPU_PID2 = 360, + SC_R_VPU_PID3 = 361, + SC_R_VPU_PID4 = 362, + SC_R_VPU_PID5 = 363, + SC_R_VPU_PID6 = 364, + SC_R_VPU_PID7 = 365, + SC_R_VPU_UART = 366, + SC_R_VPUCORE = 367, + SC_R_VPUCORE_0 = 368, + SC_R_VPUCORE_1 = 369, + SC_R_VPUCORE_2 = 370, + SC_R_VPUCORE_3 = 371, + SC_R_DMA_4_CH0 = 372, + SC_R_DMA_4_CH1 = 373, + SC_R_DMA_4_CH2 = 374, + SC_R_DMA_4_CH3 = 375, + SC_R_DMA_4_CH4 = 376, + SC_R_ISI_CH0 = 377, + SC_R_ISI_CH1 = 378, + SC_R_ISI_CH2 = 379, + SC_R_ISI_CH3 = 380, + SC_R_ISI_CH4 = 381, + SC_R_ISI_CH5 = 382, + SC_R_ISI_CH6 = 383, + SC_R_ISI_CH7 = 384, + SC_R_MJPEG_DEC_S0 = 385, + SC_R_MJPEG_DEC_S1 = 386, + SC_R_MJPEG_DEC_S2 = 387, + SC_R_MJPEG_DEC_S3 = 388, + SC_R_MJPEG_ENC_S0 = 389, + SC_R_MJPEG_ENC_S1 = 390, + SC_R_MJPEG_ENC_S2 = 391, + SC_R_MJPEG_ENC_S3 = 392, + SC_R_MIPI_0 = 393, + SC_R_MIPI_0_PWM_0 = 394, + SC_R_MIPI_0_I2C_0 = 395, + SC_R_MIPI_0_I2C_1 = 396, + SC_R_MIPI_1 = 397, + SC_R_MIPI_1_PWM_0 = 398, + SC_R_MIPI_1_I2C_0 = 399, + SC_R_MIPI_1_I2C_1 = 400, + SC_R_CSI_0 = 401, + SC_R_CSI_0_PWM_0 = 402, + SC_R_CSI_0_I2C_0 = 403, + SC_R_CSI_1 = 404, + SC_R_CSI_1_PWM_0 = 405, + SC_R_CSI_1_I2C_0 = 406, + SC_R_HDMI = 407, + SC_R_HDMI_I2S = 408, + SC_R_HDMI_I2C_0 = 409, + SC_R_HDMI_PLL_0 = 410, + SC_R_HDMI_RX = 411, + SC_R_HDMI_RX_BYPASS = 412, + SC_R_HDMI_RX_I2C_0 = 413, + SC_R_ASRC_0 = 414, + SC_R_ESAI_0 = 415, + SC_R_SPDIF_0 = 416, + SC_R_SPDIF_1 = 417, + SC_R_SAI_3 = 418, + SC_R_SAI_4 = 419, + SC_R_SAI_5 = 420, + SC_R_GPT_5 = 421, + SC_R_GPT_6 = 422, + SC_R_GPT_7 = 423, + SC_R_GPT_8 = 424, + SC_R_GPT_9 = 425, + SC_R_GPT_10 = 426, + SC_R_DMA_2_CH5 = 427, + SC_R_DMA_2_CH6 = 428, + SC_R_DMA_2_CH7 = 429, + SC_R_DMA_2_CH8 = 430, + SC_R_DMA_2_CH9 = 431, + SC_R_DMA_2_CH10 = 432, + SC_R_DMA_2_CH11 = 433, + SC_R_DMA_2_CH12 = 434, + SC_R_DMA_2_CH13 = 435, + SC_R_DMA_2_CH14 = 436, + SC_R_DMA_2_CH15 = 437, + SC_R_DMA_2_CH16 = 438, + SC_R_DMA_2_CH17 = 439, + SC_R_DMA_2_CH18 = 440, + SC_R_DMA_2_CH19 = 441, + SC_R_DMA_2_CH20 = 442, + SC_R_DMA_2_CH21 = 443, + SC_R_DMA_2_CH22 = 444, + SC_R_DMA_2_CH23 = 445, + SC_R_DMA_2_CH24 = 446, + SC_R_DMA_2_CH25 = 447, + SC_R_DMA_2_CH26 = 448, + SC_R_DMA_2_CH27 = 449, + SC_R_DMA_2_CH28 = 450, + SC_R_DMA_2_CH29 = 451, + SC_R_DMA_2_CH30 = 452, + SC_R_DMA_2_CH31 = 453, + SC_R_ASRC_1 = 454, + SC_R_ESAI_1 = 455, + SC_R_SAI_6 = 456, + SC_R_SAI_7 = 457, + SC_R_AMIX = 458, + SC_R_MQS_0 = 459, + SC_R_DMA_3_CH0 = 460, + SC_R_DMA_3_CH1 = 461, + SC_R_DMA_3_CH2 = 462, + SC_R_DMA_3_CH3 = 463, + SC_R_DMA_3_CH4 = 464, + SC_R_DMA_3_CH5 = 465, + SC_R_DMA_3_CH6 = 466, + SC_R_DMA_3_CH7 = 467, + SC_R_DMA_3_CH8 = 468, + SC_R_DMA_3_CH9 = 469, + SC_R_DMA_3_CH10 = 470, + SC_R_DMA_3_CH11 = 471, + SC_R_DMA_3_CH12 = 472, + SC_R_DMA_3_CH13 = 473, + SC_R_DMA_3_CH14 = 474, + SC_R_DMA_3_CH15 = 475, + SC_R_DMA_3_CH16 = 476, + SC_R_DMA_3_CH17 = 477, + SC_R_DMA_3_CH18 = 478, + SC_R_DMA_3_CH19 = 479, + SC_R_DMA_3_CH20 = 480, + SC_R_DMA_3_CH21 = 481, + SC_R_DMA_3_CH22 = 482, + SC_R_DMA_3_CH23 = 483, + SC_R_DMA_3_CH24 = 484, + SC_R_DMA_3_CH25 = 485, + SC_R_DMA_3_CH26 = 486, + SC_R_DMA_3_CH27 = 487, + SC_R_DMA_3_CH28 = 488, + SC_R_DMA_3_CH29 = 489, + SC_R_DMA_3_CH30 = 490, + SC_R_DMA_3_CH31 = 491, + SC_R_AUDIO_PLL_1 = 492, + SC_R_AUDIO_CLK_0 = 493, + SC_R_AUDIO_CLK_1 = 494, + SC_R_MCLK_OUT_0 = 495, + SC_R_MCLK_OUT_1 = 496, + SC_R_PMIC_0 = 497, + SC_R_PMIC_1 = 498, + SC_R_SECO = 499, + SC_R_CAAM_JR1 = 500, + SC_R_CAAM_JR2 = 501, + SC_R_CAAM_JR3 = 502, + SC_R_SECO_MU_2 = 503, + SC_R_SECO_MU_3 = 504, + SC_R_SECO_MU_4 = 505, + SC_R_HDMI_RX_PWM_0 = 506, + SC_R_A35 = 507, + SC_R_A35_0 = 508, + SC_R_A35_1 = 509, + SC_R_A35_2 = 510, + SC_R_A35_3 = 511, + SC_R_DSP = 512, + SC_R_DSP_RAM = 513, + SC_R_CAAM_JR1_OUT = 514, + SC_R_CAAM_JR2_OUT = 515, + SC_R_CAAM_JR3_OUT = 516, + SC_R_VPU_DEC_0 = 517, + SC_R_VPU_ENC_0 = 518, + SC_R_CAAM_JR0 = 519, + SC_R_CAAM_JR0_OUT = 520, + SC_R_PMIC_2 = 521, + SC_R_DBLOGIC = 522, + SC_R_HDMI_PLL_1 = 523, + SC_R_BOARD_R0 = 524, + SC_R_BOARD_R1 = 525, + SC_R_BOARD_R2 = 526, + SC_R_BOARD_R3 = 527, + SC_R_BOARD_R4 = 528, + SC_R_BOARD_R5 = 529, + SC_R_BOARD_R6 = 530, + SC_R_BOARD_R7 = 531, + SC_R_MJPEG_DEC_MP = 532, + SC_R_MJPEG_ENC_MP = 533, + SC_R_VPU_TS_0 = 534, + SC_R_VPU_MU_0 = 535, + SC_R_VPU_MU_1 = 536, + SC_R_VPU_MU_2 = 537, + SC_R_VPU_MU_3 = 538, + SC_R_VPU_ENC_1 = 539, + SC_R_VPU = 540, + SC_R_LAST +} sc_rsrc_t; + +/* NOTE - please add by replacing some of the UNUSED from above! */ + +/*! + * This type is used to indicate a control. + */ +typedef enum sc_ctrl_e { + + SC_C_TEMP = 0, + SC_C_TEMP_HI = 1, + SC_C_TEMP_LOW = 2, + SC_C_PXL_LINK_MST1_ADDR = 3, + SC_C_PXL_LINK_MST2_ADDR = 4, + SC_C_PXL_LINK_MST_ENB = 5, + SC_C_PXL_LINK_MST1_ENB = 6, + SC_C_PXL_LINK_MST2_ENB = 7, + SC_C_PXL_LINK_SLV1_ADDR = 8, + SC_C_PXL_LINK_SLV2_ADDR = 9, + SC_C_PXL_LINK_MST_VLD = 10, + SC_C_PXL_LINK_MST1_VLD = 11, + SC_C_PXL_LINK_MST2_VLD = 12, + SC_C_SINGLE_MODE = 13, + SC_C_ID = 14, + SC_C_PXL_CLK_POLARITY = 15, + SC_C_LINESTATE = 16, + SC_C_PCIE_G_RST = 17, + SC_C_PCIE_BUTTON_RST = 18, + SC_C_PCIE_PERST = 19, + SC_C_PHY_RESET = 20, + SC_C_PXL_LINK_RATE_CORRECTION = 21, + SC_C_PANIC = 22, + SC_C_PRIORITY_GROUP = 23, + SC_C_TXCLK = 24, + SC_C_CLKDIV = 25, + SC_C_DISABLE_50 = 26, + SC_C_DISABLE_125 = 27, + SC_C_SEL_125 = 28, + SC_C_MODE = 29, + SC_C_SYNC_CTRL0 = 30, + SC_C_KACHUNK_CNT = 31, + SC_C_KACHUNK_SEL = 32, + SC_C_SYNC_CTRL1 = 33, + SC_C_DPI_RESET = 34, + SC_C_MIPI_RESET = 35, + SC_C_DUAL_MODE = 36, + SC_C_VOLTAGE = 37, + SC_C_PXL_LINK_SEL = 38, + SC_C_OFS_SEL = 39, + SC_C_OFS_AUDIO = 40, + SC_C_OFS_PERIPH = 41, + SC_C_OFS_IRQ = 42, + SC_C_RST0 = 43, + SC_C_RST1 = 44, + SC_C_LAST +} 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 a true/false boolean. + */ +typedef enum { false = 0, true = 1 } bool; + + /*! + * 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 */ |