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path: root/drivers/firmware/qcom_scm-32.c
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/* Copyright (c) 2010,2015, The Linux Foundation. All rights reserved.
 * Copyright (C) 2015 Linaro Ltd.
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 and
 * only version 2 as published by the Free Software Foundation.
 *
 * 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.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
 * 02110-1301, USA.
 */

#include <linux/slab.h>
#include <linux/io.h>
#include <linux/module.h>
#include <linux/mutex.h>
#include <linux/errno.h>
#include <linux/err.h>
#include <linux/qcom_scm.h>
#include <linux/dma-mapping.h>

#include "qcom_scm.h"

#define QCOM_SCM_FLAG_COLDBOOT_CPU0	0x00
#define QCOM_SCM_FLAG_COLDBOOT_CPU1	0x01
#define QCOM_SCM_FLAG_COLDBOOT_CPU2	0x08
#define QCOM_SCM_FLAG_COLDBOOT_CPU3	0x20

#define QCOM_SCM_FLAG_WARMBOOT_CPU0	0x04
#define QCOM_SCM_FLAG_WARMBOOT_CPU1	0x02
#define QCOM_SCM_FLAG_WARMBOOT_CPU2	0x10
#define QCOM_SCM_FLAG_WARMBOOT_CPU3	0x40

struct qcom_scm_entry {
	int flag;
	void *entry;
};

static struct qcom_scm_entry qcom_scm_wb[] = {
	{ .flag = QCOM_SCM_FLAG_WARMBOOT_CPU0 },
	{ .flag = QCOM_SCM_FLAG_WARMBOOT_CPU1 },
	{ .flag = QCOM_SCM_FLAG_WARMBOOT_CPU2 },
	{ .flag = QCOM_SCM_FLAG_WARMBOOT_CPU3 },
};

static DEFINE_MUTEX(qcom_scm_lock);

/**
 * struct qcom_scm_command - one SCM command buffer
 * @len: total available memory for command and response
 * @buf_offset: start of command buffer
 * @resp_hdr_offset: start of response buffer
 * @id: command to be executed
 * @buf: buffer returned from qcom_scm_get_command_buffer()
 *
 * An SCM command is laid out in memory as follows:
 *
 *	------------------- <--- struct qcom_scm_command
 *	| command header  |
 *	------------------- <--- qcom_scm_get_command_buffer()
 *	| command buffer  |
 *	------------------- <--- struct qcom_scm_response and
 *	| response header |      qcom_scm_command_to_response()
 *	------------------- <--- qcom_scm_get_response_buffer()
 *	| response buffer |
 *	-------------------
 *
 * There can be arbitrary padding between the headers and buffers so
 * you should always use the appropriate qcom_scm_get_*_buffer() routines
 * to access the buffers in a safe manner.
 */
struct qcom_scm_command {
	__le32 len;
	__le32 buf_offset;
	__le32 resp_hdr_offset;
	__le32 id;
	__le32 buf[0];
};

/**
 * struct qcom_scm_response - one SCM response buffer
 * @len: total available memory for response
 * @buf_offset: start of response data relative to start of qcom_scm_response
 * @is_complete: indicates if the command has finished processing
 */
struct qcom_scm_response {
	__le32 len;
	__le32 buf_offset;
	__le32 is_complete;
};

/**
 * qcom_scm_command_to_response() - Get a pointer to a qcom_scm_response
 * @cmd: command
 *
 * Returns a pointer to a response for a command.
 */
static inline struct qcom_scm_response *qcom_scm_command_to_response(
		const struct qcom_scm_command *cmd)
{
	return (void *)cmd + le32_to_cpu(cmd->resp_hdr_offset);
}

/**
 * qcom_scm_get_command_buffer() - Get a pointer to a command buffer
 * @cmd: command
 *
 * Returns a pointer to the command buffer of a command.
 */
static inline void *qcom_scm_get_command_buffer(const struct qcom_scm_command *cmd)
{
	return (void *)cmd->buf;
}

/**
 * qcom_scm_get_response_buffer() - Get a pointer to a response buffer
 * @rsp: response
 *
 * Returns a pointer to a response buffer of a response.
 */
static inline void *qcom_scm_get_response_buffer(const struct qcom_scm_response *rsp)
{
	return (void *)rsp + le32_to_cpu(rsp->buf_offset);
}

static u32 smc(u32 cmd_addr)
{
	int context_id;
	register u32 r0 asm("r0") = 1;
	register u32 r1 asm("r1") = (u32)&context_id;
	register u32 r2 asm("r2") = cmd_addr;
	do {
		asm volatile(
			__asmeq("%0", "r0")
			__asmeq("%1", "r0")
			__asmeq("%2", "r1")
			__asmeq("%3", "r2")
#ifdef REQUIRES_SEC
			".arch_extension sec\n"
#endif
			"smc	#0	@ switch to secure world\n"
			: "=r" (r0)
			: "r" (r0), "r" (r1), "r" (r2)
			: "r3", "r12");
	} while (r0 == QCOM_SCM_INTERRUPTED);

	return r0;
}

/**
 * qcom_scm_call() - Send an SCM command
 * @dev: struct device
 * @svc_id: service identifier
 * @cmd_id: command identifier
 * @cmd_buf: command buffer
 * @cmd_len: length of the command buffer
 * @resp_buf: response buffer
 * @resp_len: length of the response buffer
 *
 * Sends a command to the SCM and waits for the command to finish processing.
 *
 * A note on cache maintenance:
 * Note that any buffers that are expected to be accessed by the secure world
 * must be flushed before invoking qcom_scm_call and invalidated in the cache
 * immediately after qcom_scm_call returns. Cache maintenance on the command
 * and response buffers is taken care of by qcom_scm_call; however, callers are
 * responsible for any other cached buffers passed over to the secure world.
 */
static int qcom_scm_call(struct device *dev, u32 svc_id, u32 cmd_id,
			 const void *cmd_buf, size_t cmd_len, void *resp_buf,
			 size_t resp_len)
{
	int ret;
	struct qcom_scm_command *cmd;
	struct qcom_scm_response *rsp;
	size_t alloc_len = sizeof(*cmd) + cmd_len + sizeof(*rsp) + resp_len;
	dma_addr_t cmd_phys;

	cmd = kzalloc(PAGE_ALIGN(alloc_len), GFP_KERNEL);
	if (!cmd)
		return -ENOMEM;

	cmd->len = cpu_to_le32(alloc_len);
	cmd->buf_offset = cpu_to_le32(sizeof(*cmd));
	cmd->resp_hdr_offset = cpu_to_le32(sizeof(*cmd) + cmd_len);

	cmd->id = cpu_to_le32((svc_id << 10) | cmd_id);
	if (cmd_buf)
		memcpy(qcom_scm_get_command_buffer(cmd), cmd_buf, cmd_len);

	rsp = qcom_scm_command_to_response(cmd);

	cmd_phys = dma_map_single(dev, cmd, alloc_len, DMA_TO_DEVICE);
	if (dma_mapping_error(dev, cmd_phys)) {
		kfree(cmd);
		return -ENOMEM;
	}

	mutex_lock(&qcom_scm_lock);
	ret = smc(cmd_phys);
	if (ret < 0)
		ret = qcom_scm_remap_error(ret);
	mutex_unlock(&qcom_scm_lock);
	if (ret)
		goto out;

	do {
		dma_sync_single_for_cpu(dev, cmd_phys + sizeof(*cmd) + cmd_len,
					sizeof(*rsp), DMA_FROM_DEVICE);
	} while (!rsp->is_complete);

	if (resp_buf) {
		dma_sync_single_for_cpu(dev, cmd_phys + sizeof(*cmd) + cmd_len +
					le32_to_cpu(rsp->buf_offset),
					resp_len, DMA_FROM_DEVICE);
		memcpy(resp_buf, qcom_scm_get_response_buffer(rsp),
		       resp_len);
	}
out:
	dma_unmap_single(dev, cmd_phys, alloc_len, DMA_TO_DEVICE);
	kfree(cmd);
	return ret;
}

#define SCM_CLASS_REGISTER	(0x2 << 8)
#define SCM_MASK_IRQS		BIT(5)
#define SCM_ATOMIC(svc, cmd, n) (((((svc) << 10)|((cmd) & 0x3ff)) << 12) | \
				SCM_CLASS_REGISTER | \
				SCM_MASK_IRQS | \
				(n & 0xf))

/**
 * qcom_scm_call_atomic1() - Send an atomic SCM command with one argument
 * @svc_id: service identifier
 * @cmd_id: command identifier
 * @arg1: first argument
 *
 * This shall only be used with commands that are guaranteed to be
 * uninterruptable, atomic and SMP safe.
 */
static s32 qcom_scm_call_atomic1(u32 svc, u32 cmd, u32 arg1)
{
	int context_id;

	register u32 r0 asm("r0") = SCM_ATOMIC(svc, cmd, 1);
	register u32 r1 asm("r1") = (u32)&context_id;
	register u32 r2 asm("r2") = arg1;

	asm volatile(
			__asmeq("%0", "r0")
			__asmeq("%1", "r0")
			__asmeq("%2", "r1")
			__asmeq("%3", "r2")
#ifdef REQUIRES_SEC
			".arch_extension sec\n"
#endif
			"smc    #0      @ switch to secure world\n"
			: "=r" (r0)
			: "r" (r0), "r" (r1), "r" (r2)
			: "r3", "r12");
	return r0;
}

/**
 * qcom_scm_call_atomic2() - Send an atomic SCM command with two arguments
 * @svc_id:	service identifier
 * @cmd_id:	command identifier
 * @arg1:	first argument
 * @arg2:	second argument
 *
 * This shall only be used with commands that are guaranteed to be
 * uninterruptable, atomic and SMP safe.
 */
static s32 qcom_scm_call_atomic2(u32 svc, u32 cmd, u32 arg1, u32 arg2)
{
	int context_id;

	register u32 r0 asm("r0") = SCM_ATOMIC(svc, cmd, 2);
	register u32 r1 asm("r1") = (u32)&context_id;
	register u32 r2 asm("r2") = arg1;
	register u32 r3 asm("r3") = arg2;

	asm volatile(
			__asmeq("%0", "r0")
			__asmeq("%1", "r0")
			__asmeq("%2", "r1")
			__asmeq("%3", "r2")
			__asmeq("%4", "r3")
#ifdef REQUIRES_SEC
			".arch_extension sec\n"
#endif
			"smc    #0      @ switch to secure world\n"
			: "=r" (r0)
			: "r" (r0), "r" (r1), "r" (r2), "r" (r3)
			: "r12");
	return r0;
}

u32 qcom_scm_get_version(void)
{
	int context_id;
	static u32 version = -1;
	register u32 r0 asm("r0");
	register u32 r1 asm("r1");

	if (version != -1)
		return version;

	mutex_lock(&qcom_scm_lock);

	r0 = 0x1 << 8;
	r1 = (u32)&context_id;
	do {
		asm volatile(
			__asmeq("%0", "r0")
			__asmeq("%1", "r1")
			__asmeq("%2", "r0")
			__asmeq("%3", "r1")
#ifdef REQUIRES_SEC
			".arch_extension sec\n"
#endif
			"smc	#0	@ switch to secure world\n"
			: "=r" (r0), "=r" (r1)
			: "r" (r0), "r" (r1)
			: "r2", "r3", "r12");
	} while (r0 == QCOM_SCM_INTERRUPTED);

	version = r1;
	mutex_unlock(&qcom_scm_lock);

	return version;
}
EXPORT_SYMBOL(qcom_scm_get_version);

/**
 * qcom_scm_set_cold_boot_addr() - Set the cold boot address for cpus
 * @entry: Entry point function for the cpus
 * @cpus: The cpumask of cpus that will use the entry point
 *
 * Set the cold boot address of the cpus. Any cpu outside the supported
 * range would be removed from the cpu present mask.
 */
int __qcom_scm_set_cold_boot_addr(void *entry, const cpumask_t *cpus)
{
	int flags = 0;
	int cpu;
	int scm_cb_flags[] = {
		QCOM_SCM_FLAG_COLDBOOT_CPU0,
		QCOM_SCM_FLAG_COLDBOOT_CPU1,
		QCOM_SCM_FLAG_COLDBOOT_CPU2,
		QCOM_SCM_FLAG_COLDBOOT_CPU3,
	};

	if (!cpus || (cpus && cpumask_empty(cpus)))
		return -EINVAL;

	for_each_cpu(cpu, cpus) {
		if (cpu < ARRAY_SIZE(scm_cb_flags))
			flags |= scm_cb_flags[cpu];
		else
			set_cpu_present(cpu, false);
	}

	return qcom_scm_call_atomic2(QCOM_SCM_SVC_BOOT, QCOM_SCM_BOOT_ADDR,
				    flags, virt_to_phys(entry));
}

/**
 * qcom_scm_set_warm_boot_addr() - Set the warm boot address for cpus
 * @entry: Entry point function for the cpus
 * @cpus: The cpumask of cpus that will use the entry point
 *
 * Set the Linux entry point for the SCM to transfer control to when coming
 * out of a power down. CPU power down may be executed on cpuidle or hotplug.
 */
int __qcom_scm_set_warm_boot_addr(struct device *dev, void *entry,
				  const cpumask_t *cpus)
{
	int ret;
	int flags = 0;
	int cpu;
	struct {
		__le32 flags;
		__le32 addr;
	} cmd;

	/*
	 * Reassign only if we are switching from hotplug entry point
	 * to cpuidle entry point or vice versa.
	 */
	for_each_cpu(cpu, cpus) {
		if (entry == qcom_scm_wb[cpu].entry)
			continue;
		flags |= qcom_scm_wb[cpu].flag;
	}

	/* No change in entry function */
	if (!flags)
		return 0;

	cmd.addr = cpu_to_le32(virt_to_phys(entry));
	cmd.flags = cpu_to_le32(flags);
	ret = qcom_scm_call(dev, QCOM_SCM_SVC_BOOT, QCOM_SCM_BOOT_ADDR,
			    &cmd, sizeof(cmd), NULL, 0);
	if (!ret) {
		for_each_cpu(cpu, cpus)
			qcom_scm_wb[cpu].entry = entry;
	}

	return ret;
}

/**
 * qcom_scm_cpu_power_down() - Power down the cpu
 * @flags - Flags to flush cache
 *
 * This is an end point to power down cpu. If there was a pending interrupt,
 * the control would return from this function, otherwise, the cpu jumps to the
 * warm boot entry point set for this cpu upon reset.
 */
void __qcom_scm_cpu_power_down(u32 flags)
{
	qcom_scm_call_atomic1(QCOM_SCM_SVC_BOOT, QCOM_SCM_CMD_TERMINATE_PC,
			flags & QCOM_SCM_FLUSH_FLAG_MASK);
}

int __qcom_scm_is_call_available(struct device *dev, u32 svc_id, u32 cmd_id)
{
	int ret;
	__le32 svc_cmd = cpu_to_le32((svc_id << 10) | cmd_id);
	__le32 ret_val = 0;

	ret = qcom_scm_call(dev, QCOM_SCM_SVC_INFO, QCOM_IS_CALL_AVAIL_CMD,
			    &svc_cmd, sizeof(svc_cmd), &ret_val,
			    sizeof(ret_val));
	if (ret)
		return ret;

	return le32_to_cpu(ret_val);
}

int __qcom_scm_hdcp_req(struct device *dev, struct qcom_scm_hdcp_req *req,
			u32 req_cnt, u32 *resp)
{
	if (req_cnt > QCOM_SCM_HDCP_MAX_REQ_CNT)
		return -ERANGE;

	return qcom_scm_call(dev, QCOM_SCM_SVC_HDCP, QCOM_SCM_CMD_HDCP,
		req, req_cnt * sizeof(*req), resp, sizeof(*resp));
}

void __qcom_scm_init(void)
{
}

bool __qcom_scm_pas_supported(struct device *dev, u32 peripheral)
{
	__le32 out;
	__le32 in;
	int ret;

	in = cpu_to_le32(peripheral);
	ret = qcom_scm_call(dev, QCOM_SCM_SVC_PIL,
			    QCOM_SCM_PAS_IS_SUPPORTED_CMD,
			    &in, sizeof(in),
			    &out, sizeof(out));

	return ret ? false : !!out;
}

int __qcom_scm_pas_init_image(struct device *dev, u32 peripheral,
			      dma_addr_t metadata_phys)
{
	__le32 scm_ret;
	int ret;
	struct {
		__le32 proc;
		__le32 image_addr;
	} request;

	request.proc = cpu_to_le32(peripheral);
	request.image_addr = cpu_to_le32(metadata_phys);

	ret = qcom_scm_call(dev, QCOM_SCM_SVC_PIL,
			    QCOM_SCM_PAS_INIT_IMAGE_CMD,
			    &request, sizeof(request),
			    &scm_ret, sizeof(scm_ret));

	return ret ? : le32_to_cpu(scm_ret);
}

int __qcom_scm_pas_mem_setup(struct device *dev, u32 peripheral,
			     phys_addr_t addr, phys_addr_t size)
{
	__le32 scm_ret;
	int ret;
	struct {
		__le32 proc;
		__le32 addr;
		__le32 len;
	} request;

	request.proc = cpu_to_le32(peripheral);
	request.addr = cpu_to_le32(addr);
	request.len = cpu_to_le32(size);

	ret = qcom_scm_call(dev, QCOM_SCM_SVC_PIL,
			    QCOM_SCM_PAS_MEM_SETUP_CMD,
			    &request, sizeof(request),
			    &scm_ret, sizeof(scm_ret));

	return ret ? : le32_to_cpu(scm_ret);
}

int __qcom_scm_pas_auth_and_reset(struct device *dev, u32 peripheral)
{
	__le32 out;
	__le32 in;
	int ret;

	in = cpu_to_le32(peripheral);
	ret = qcom_scm_call(dev, QCOM_SCM_SVC_PIL,
			    QCOM_SCM_PAS_AUTH_AND_RESET_CMD,
			    &in, sizeof(in),
			    &out, sizeof(out));

	return ret ? : le32_to_cpu(out);
}

int __qcom_scm_pas_shutdown(struct device *dev, u32 peripheral)
{
	__le32 out;
	__le32 in;
	int ret;

	in = cpu_to_le32(peripheral);
	ret = qcom_scm_call(dev, QCOM_SCM_SVC_PIL,
			    QCOM_SCM_PAS_SHUTDOWN_CMD,
			    &in, sizeof(in),
			    &out, sizeof(out));

	return ret ? : le32_to_cpu(out);
}

int __qcom_scm_pas_mss_reset(struct device *dev, bool reset)
{
	__le32 out;
	__le32 in = cpu_to_le32(reset);
	int ret;

	ret = qcom_scm_call(dev, QCOM_SCM_SVC_PIL, QCOM_SCM_PAS_MSS_RESET,
			&in, sizeof(in),
			&out, sizeof(out));

	return ret ? : le32_to_cpu(out);
}

int __qcom_scm_set_dload_mode(struct device *dev, bool enable)
{
	return qcom_scm_call_atomic2(QCOM_SCM_SVC_BOOT, QCOM_SCM_SET_DLOAD_MODE,
				     enable ? QCOM_SCM_SET_DLOAD_MODE : 0, 0);
}

int __qcom_scm_set_remote_state(struct device *dev, u32 state, u32 id)
{
	struct {
		__le32 state;
		__le32 id;
	} req;
	__le32 scm_ret = 0;
	int ret;

	req.state = cpu_to_le32(state);
	req.id = cpu_to_le32(id);

	ret = qcom_scm_call(dev, QCOM_SCM_SVC_BOOT, QCOM_SCM_SET_REMOTE_STATE,
			    &req, sizeof(req), &scm_ret, sizeof(scm_ret));

	return ret ? : le32_to_cpu(scm_ret);
}

int __qcom_scm_assign_mem(struct device *dev, phys_addr_t mem_region,
			  size_t mem_sz, phys_addr_t src, size_t src_sz,
			  phys_addr_t dest, size_t dest_sz)
{
	return -ENODEV;
}

int __qcom_scm_restore_sec_cfg(struct device *dev, u32 device_id,
			       u32 spare)
{
	return -ENODEV;
}

int __qcom_scm_iommu_secure_ptbl_size(struct device *dev, u32 spare,
				      size_t *size)
{
	return -ENODEV;
}

int __qcom_scm_iommu_secure_ptbl_init(struct device *dev, u64 addr, u32 size,
				      u32 spare)
{
	return -ENODEV;
}

int __qcom_scm_io_readl(struct device *dev, phys_addr_t addr,
			unsigned int *val)
{
	int ret;

	ret = qcom_scm_call_atomic1(QCOM_SCM_SVC_IO, QCOM_SCM_IO_READ, addr);
	if (ret >= 0)
		*val = ret;

	return ret < 0 ? ret : 0;
}

int __qcom_scm_io_writel(struct device *dev, phys_addr_t addr, unsigned int val)
{
	return qcom_scm_call_atomic2(QCOM_SCM_SVC_IO, QCOM_SCM_IO_WRITE,
				     addr, val);
}