4fb0a5eb36
Adds a OP-TEE driver which also can be compiled as a loadable module. * Targets ARM and ARM64 * Supports using reserved memory from OP-TEE as shared memory * Probes OP-TEE version using SMCs * Accepts requests on privileged and unprivileged device * Uses OPTEE message protocol version 2 to communicate with secure world Acked-by: Andreas Dannenberg <dannenberg@ti.com> Tested-by: Jerome Forissier <jerome.forissier@linaro.org> (HiKey) Tested-by: Volodymyr Babchuk <vlad.babchuk@gmail.com> (RCAR H3) Tested-by: Scott Branden <scott.branden@broadcom.com> Reviewed-by: Javier González <javier@javigon.com> Signed-off-by: Jens Wiklander <jens.wiklander@linaro.org>
273 lines
7.2 KiB
C
273 lines
7.2 KiB
C
/*
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* Copyright (c) 2015, Linaro Limited
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*
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* This software is licensed under the terms of the GNU General Public
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* License version 2, as published by the Free Software Foundation, and
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* may be copied, distributed, and modified under those terms.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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*/
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#include <linux/device.h>
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#include <linux/slab.h>
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#include <linux/uaccess.h>
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#include "optee_private.h"
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void optee_supp_init(struct optee_supp *supp)
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{
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memset(supp, 0, sizeof(*supp));
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mutex_init(&supp->ctx_mutex);
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mutex_init(&supp->thrd_mutex);
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mutex_init(&supp->supp_mutex);
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init_completion(&supp->data_to_supp);
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init_completion(&supp->data_from_supp);
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}
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void optee_supp_uninit(struct optee_supp *supp)
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{
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mutex_destroy(&supp->ctx_mutex);
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mutex_destroy(&supp->thrd_mutex);
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mutex_destroy(&supp->supp_mutex);
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}
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/**
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* optee_supp_thrd_req() - request service from supplicant
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* @ctx: context doing the request
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* @func: function requested
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* @num_params: number of elements in @param array
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* @param: parameters for function
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*
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* Returns result of operation to be passed to secure world
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*/
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u32 optee_supp_thrd_req(struct tee_context *ctx, u32 func, size_t num_params,
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struct tee_param *param)
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{
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bool interruptable;
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struct optee *optee = tee_get_drvdata(ctx->teedev);
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struct optee_supp *supp = &optee->supp;
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u32 ret;
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/*
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* Other threads blocks here until we've copied our answer from
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* supplicant.
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*/
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while (mutex_lock_interruptible(&supp->thrd_mutex)) {
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/* See comment below on when the RPC can be interrupted. */
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mutex_lock(&supp->ctx_mutex);
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interruptable = !supp->ctx;
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mutex_unlock(&supp->ctx_mutex);
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if (interruptable)
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return TEEC_ERROR_COMMUNICATION;
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}
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/*
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* We have exclusive access now since the supplicant at this
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* point is either doing a
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* wait_for_completion_interruptible(&supp->data_to_supp) or is in
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* userspace still about to do the ioctl() to enter
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* optee_supp_recv() below.
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*/
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supp->func = func;
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supp->num_params = num_params;
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supp->param = param;
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supp->req_posted = true;
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/* Let supplicant get the data */
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complete(&supp->data_to_supp);
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/*
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* Wait for supplicant to process and return result, once we've
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* returned from wait_for_completion(data_from_supp) we have
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* exclusive access again.
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*/
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while (wait_for_completion_interruptible(&supp->data_from_supp)) {
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mutex_lock(&supp->ctx_mutex);
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interruptable = !supp->ctx;
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if (interruptable) {
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/*
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* There's no supplicant available and since the
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* supp->ctx_mutex currently is held none can
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* become available until the mutex released
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* again.
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*
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* Interrupting an RPC to supplicant is only
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* allowed as a way of slightly improving the user
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* experience in case the supplicant hasn't been
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* started yet. During normal operation the supplicant
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* will serve all requests in a timely manner and
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* interrupting then wouldn't make sense.
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*/
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supp->ret = TEEC_ERROR_COMMUNICATION;
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init_completion(&supp->data_to_supp);
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}
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mutex_unlock(&supp->ctx_mutex);
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if (interruptable)
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break;
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}
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ret = supp->ret;
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supp->param = NULL;
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supp->req_posted = false;
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/* We're done, let someone else talk to the supplicant now. */
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mutex_unlock(&supp->thrd_mutex);
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return ret;
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}
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/**
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* optee_supp_recv() - receive request for supplicant
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* @ctx: context receiving the request
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* @func: requested function in supplicant
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* @num_params: number of elements allocated in @param, updated with number
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* used elements
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* @param: space for parameters for @func
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*
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* Returns 0 on success or <0 on failure
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*/
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int optee_supp_recv(struct tee_context *ctx, u32 *func, u32 *num_params,
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struct tee_param *param)
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{
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struct tee_device *teedev = ctx->teedev;
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struct optee *optee = tee_get_drvdata(teedev);
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struct optee_supp *supp = &optee->supp;
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int rc;
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/*
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* In case two threads in one supplicant is calling this function
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* simultaneously we need to protect the data with a mutex which
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* we'll release before returning.
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*/
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mutex_lock(&supp->supp_mutex);
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if (supp->supp_next_send) {
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/*
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* optee_supp_recv() has been called again without
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* a optee_supp_send() in between. Supplicant has
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* probably been restarted before it was able to
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* write back last result. Abort last request and
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* wait for a new.
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*/
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if (supp->req_posted) {
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supp->ret = TEEC_ERROR_COMMUNICATION;
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supp->supp_next_send = false;
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complete(&supp->data_from_supp);
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}
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}
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/*
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* This is where supplicant will be hanging most of the
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* time, let's make this interruptable so we can easily
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* restart supplicant if needed.
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*/
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if (wait_for_completion_interruptible(&supp->data_to_supp)) {
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rc = -ERESTARTSYS;
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goto out;
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}
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/* We have exlusive access to the data */
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if (*num_params < supp->num_params) {
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/*
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* Not enough room for parameters, tell supplicant
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* it failed and abort last request.
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*/
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supp->ret = TEEC_ERROR_COMMUNICATION;
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rc = -EINVAL;
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complete(&supp->data_from_supp);
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goto out;
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}
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*func = supp->func;
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*num_params = supp->num_params;
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memcpy(param, supp->param,
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sizeof(struct tee_param) * supp->num_params);
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/* Allow optee_supp_send() below to do its work */
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supp->supp_next_send = true;
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rc = 0;
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out:
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mutex_unlock(&supp->supp_mutex);
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return rc;
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}
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/**
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* optee_supp_send() - send result of request from supplicant
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* @ctx: context sending result
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* @ret: return value of request
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* @num_params: number of parameters returned
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* @param: returned parameters
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*
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* Returns 0 on success or <0 on failure.
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*/
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int optee_supp_send(struct tee_context *ctx, u32 ret, u32 num_params,
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struct tee_param *param)
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{
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struct tee_device *teedev = ctx->teedev;
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struct optee *optee = tee_get_drvdata(teedev);
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struct optee_supp *supp = &optee->supp;
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size_t n;
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int rc = 0;
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/*
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* We still have exclusive access to the data since that's how we
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* left it when returning from optee_supp_read().
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*/
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/* See comment on mutex in optee_supp_read() above */
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mutex_lock(&supp->supp_mutex);
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if (!supp->supp_next_send) {
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/*
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* Something strange is going on, supplicant shouldn't
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* enter optee_supp_send() in this state
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*/
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rc = -ENOENT;
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goto out;
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}
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if (num_params != supp->num_params) {
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/*
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* Something is wrong, let supplicant restart. Next call to
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* optee_supp_recv() will give an error to the requesting
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* thread and release it.
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*/
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rc = -EINVAL;
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goto out;
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}
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/* Update out and in/out parameters */
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for (n = 0; n < num_params; n++) {
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struct tee_param *p = supp->param + n;
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switch (p->attr) {
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case TEE_IOCTL_PARAM_ATTR_TYPE_VALUE_OUTPUT:
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case TEE_IOCTL_PARAM_ATTR_TYPE_VALUE_INOUT:
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p->u.value.a = param[n].u.value.a;
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p->u.value.b = param[n].u.value.b;
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p->u.value.c = param[n].u.value.c;
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break;
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case TEE_IOCTL_PARAM_ATTR_TYPE_MEMREF_OUTPUT:
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case TEE_IOCTL_PARAM_ATTR_TYPE_MEMREF_INOUT:
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p->u.memref.size = param[n].u.memref.size;
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break;
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default:
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break;
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}
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}
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supp->ret = ret;
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/* Allow optee_supp_recv() above to do its work */
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supp->supp_next_send = false;
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/* Let the requesting thread continue */
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complete(&supp->data_from_supp);
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out:
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mutex_unlock(&supp->supp_mutex);
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return rc;
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}
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