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https://github.com/physwizz/a155-U-u1.git
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352 lines
11 KiB
C
352 lines
11 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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/*
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* Copyright (c) 2019 MediaTek Inc.
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*/
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/*
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* GenieZone (hypervisor-based seucrity platform) enables hardware protected
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* and isolated security execution environment, includes
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* 1. GZ hypervisor
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* 2. Hypervisor-TEE OS (built-in Trusty OS)
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* 3. Drivers (ex: debug, communication and interrupt) for GZ and
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* hypervisor-TEE OS
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* 4. GZ and hypervisor-TEE and GZ framework (supporting multiple TEE
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* ecosystem, ex: M-TEE, Trusty, GlobalPlatform, ...)
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*/
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/*
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* Mediatek GenieZone v1.2.0127
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* Header files for KREE memory related functions.
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*/
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#ifndef __KREE_MEM_H__
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#define __KREE_MEM_H__
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#if IS_ENABLED(CONFIG_MTK_IN_HOUSE_TEE_SUPPORT) \
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|| IS_ENABLED(CONFIG_MTK_ENABLE_GENIEZONE)
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#include <tz_cross/trustzone.h>
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#include <tz_cross/gz_version.h>
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#define KREE_SESSION_HANDLE_NULL ((KREE_SESSION_HANDLE)0)
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#define KREE_SESSION_HANDLE_FAIL ((KREE_SESSION_HANDLE)-1)
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/**
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* Memory handle define
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*
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* Handle is used to communicate with normal world:
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* 1. Memory information can not expose to normal world. (Major, important!)
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* 2. Too much information, and thet can be grouped by handle.
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*
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* All kinds of memory use the same handle define.
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* According to their different purpose, they are redefined to specific name.
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* Just for easy programming.
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*/
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/* / KREE session handle type. */
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typedef int32_t KREE_SESSION_HANDLE;
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/* Shared memory handle define */
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typedef uint32_t KREE_SHAREDMEM_HANDLE;
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/* Secure memory handle define */
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typedef uint32_t KREE_SECUREMEM_HANDLE;
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/* Secure chunk memory handle define */
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typedef uint32_t KREE_SECURECM_HANDLE;
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/* Release Secure chunk memory handle define */
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typedef uint32_t KREE_RELEASECM_HANDLE;
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/* ION memory handle define */
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typedef uint32_t KREE_ION_HANDLE;
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typedef uint32_t *KREE_ION_HANDLE_PTR;
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/**
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* Shared memory parameter
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*
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* It defines the types for shared memory.
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*
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* @param buffer A pointer to shared memory buffer
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* @param size shared memory size in bytes
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*/
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struct kree_shared_mem_param {
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uint32_t size;
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uint32_t region_id;
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void *buffer;
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void *mapAry;
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};
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#define KREE_SHAREDMEM_PARAM struct kree_shared_mem_param
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/**
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* compress a PA array by run-length coding
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*
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* It defines the types for shared memory.
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*
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* @param high high bit of start PA address
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* @param low low bit of start PA address
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* @param size run length size
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*/
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struct KREE_SHM_RUNLENGTH_ENTRY {
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uint32_t high; /* (uint64_t) start PA address = high | low */
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uint32_t low;
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uint32_t size;
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};
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struct KREE_SHM_RUNLENGTH_LIST {
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struct KREE_SHM_RUNLENGTH_ENTRY entry;
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struct KREE_SHM_RUNLENGTH_LIST *next;
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};
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/**
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* Shared memory
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*
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* A shared memory is normal memory, which can be seen by Normal world and
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* Secure world.
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* It is used to create the comminicattion between two worlds.
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* Currently, zero-copy data transfer is supportted, for simple and efficient
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* design.
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*
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* The shared memory lifetime:
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* 1. CA (Client Application at REE) prepares memory
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* 2. CA registers it to TEE scope.
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* 3. A handle is returned. CA can use it to communicate with TEE.
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* 4. If shared memory is not used, CA unregisters it.
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* 5. CA frees memory.
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*
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* Because it is zero-copy shared memory, the memory characteritics is
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* inherited. If the shared memory will be used for HW, CA must allocate
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* physical continuous memory.
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*
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* Note: Because shared memory can be seen by both Normal and Secure world.
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* It is a possible weakpoint to bed attacked or leak secure data.
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*
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* Note: ONLY support memory allocated by kmalloc!!!
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*/
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/**
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* Register shared memory
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*
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* @param session The session handle.
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* @param shm_handle [out] A pointer to shared memory handle.
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* @param param A pointer to shared memory parameters.
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* @return return code.
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*/
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TZ_RESULT KREE_RegisterSharedmem(KREE_SESSION_HANDLE session,
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KREE_SHAREDMEM_HANDLE *shm_handle,
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KREE_SHAREDMEM_PARAM *param);
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/**
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* Unregister shared memory
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*
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* @param session The session handle.
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* @param shm_handle The shared memory handle.
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* @return return code.
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*/
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TZ_RESULT KREE_UnregisterSharedmem(KREE_SESSION_HANDLE session,
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KREE_SHAREDMEM_HANDLE shm_handle);
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/**
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* Secure memory
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*
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* A secure memory can be seen only in Secure world.
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* Secure memory, here, is defined as external memory (ex: DRAM) protected
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* by trustzone.
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* It can protect from software attack very well, but can not protect from
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* physical attack, like memory probe.
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* CA (Client Application at REE) can ask TEE for a secure buffer, then
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* control it:
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* to reference, or to free...etc.
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*
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* Secure memory spec.:
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* 1. Protected by trustzone (NS = 0).
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* 2. External memory (ex: external DRAM).
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* 3. With cache.
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*/
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/**
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* Secure memory allocation
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*
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* Allocate one memory.
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* If memory is allocated successfully, a handle will be provided.
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*
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* Memory lifetime:
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* 1. Allocate memory, and get the handle.
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* 2. If other process wants to use the same memory, reference it.
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* 3. If they stop to use it, unreference it.
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* 4. Free it (by unreference), if it is not used.
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*
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* Simple rules:
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* 1. start by allocate, end by unreference (for free).
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* 2. start by reference, end by unreference.
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*
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* @param session The session handle.
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* @param mem_handle [out] A pointer to secure memory handle.
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* @param alignment Memory alignment in bytes.
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* @param size The size of the buffer to be allocated in bytes.
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* @return return code.
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*/
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TZ_RESULT KREE_AllocSecuremem(KREE_SESSION_HANDLE session,
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KREE_SECUREMEM_HANDLE *mem_handle,
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uint32_t alignment, uint32_t size);
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/**
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* Zeroed secure memory allocation
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*
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* Same as KREE_AllocSecuremem() but the content is initialized as zero.
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*
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* @param session The session handle.
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* @param mem_handle [out] A pointer to secure memory handle.
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* @param alignment Memory alignment in bytes.
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* @param size The size of the buffer to be allocated in bytes.
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* @return return code.
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*/
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TZ_RESULT KREE_ZallocSecuremem(KREE_SESSION_HANDLE session,
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KREE_SECUREMEM_HANDLE *mem_handle,
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uint32_t alignment, uint32_t size);
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/**
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* Secure memory allocation With Tag
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*
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* Same as KREE_AllocSecuremem() but with one additional tag for debugging.
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*
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* @param session The session handle.
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* @param mem_handle [out] A pointer to secure memory handle.
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* @param alignment Memory alignment in bytes.
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* @param size The size of the buffer to be allocated in bytes.
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& @param tag The string for marking the allocation
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* @return return code.
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*/
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/*fix mtee sync*/
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TZ_RESULT KREE_AllocSecurememWithTag(KREE_SESSION_HANDLE session,
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KREE_SECUREMEM_HANDLE *mem_handle,
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uint32_t alignment, uint32_t size,
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const char *tag);
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/**
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* Zeroed secure memory allocation with tag
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*
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* Same as KREE_AllocSecurememWithTag() but the content is initialized as zero.
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*
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* @param session The session handle.
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* @param mem_handle [out] A pointer to secure memory handle.
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* @param alignment Memory alignment in bytes.
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* @param size The size of the buffer to be allocated in bytes.
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* @return return code.
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*/
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TZ_RESULT KREE_ZallocSecurememWithTag(KREE_SESSION_HANDLE session,
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KREE_SECUREMEM_HANDLE *mem_handle,
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uint32_t alignment, uint32_t size,
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const char *tag);
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/**
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* Secure memory reference
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*
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* Reference memory.
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* Referen count will be increased by 1 after reference.
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*
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* Reference lifetime:
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* 1. Reference the memory before using it, if the memory is allocated by
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* other process.
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* 2. Unreference it if it is not used.
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*
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* @param session The session handle.
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* @param mem_handle The secure memory handle.
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* @param return return code.
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*/
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TZ_RESULT KREE_ReferenceSecuremem(KREE_SESSION_HANDLE session,
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KREE_SECUREMEM_HANDLE mem_handle);
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/**
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* Secure memory unreference
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*
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* Unreference memory.
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* Reference count will be decreased by 1 after unreference.
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* Once reference count is zero, memory will be freed.
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*
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* @param session The session handle.
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* @param mem_handle The secure memory handle.
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* @param return return code.
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*/
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TZ_RESULT KREE_UnreferenceSecuremem(KREE_SESSION_HANDLE session,
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KREE_SECUREMEM_HANDLE mem_handle);
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/**
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* Secure chunk memory release
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*
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* Release secure chunk memory for normal world usage.
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*
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* @param session The session handle.
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* @param size [out] The pointer to released size in bytes.
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* @param return return code.
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*/
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TZ_RESULT KREE_ReleaseSecureMultichunkmem(KREE_SESSION_HANDLE session,
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KREE_SHAREDMEM_HANDLE cm_handle);
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TZ_RESULT KREE_ReleaseSecureMultichunkmem_basic(KREE_SESSION_HANDLE session,
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KREE_SHAREDMEM_HANDLE cm_handle);
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/**
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* Secure chunk memory append
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*
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* Append secure chunk memory back to secure world.
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*
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* @param session The session handle.
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* @param return return code.
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*/
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TZ_RESULT KREE_AppendSecureMultichunkmem(KREE_SESSION_HANDLE session,
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KREE_SHAREDMEM_HANDLE *cm_handle,
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KREE_SHAREDMEM_PARAM *param);
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TZ_RESULT KREE_AppendSecureMultichunkmem_basic(KREE_SESSION_HANDLE session,
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KREE_SHAREDMEM_HANDLE *cm_handle,
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KREE_SHAREDMEM_PARAM *param);
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TZ_RESULT KREE_AllocSecureMultichunkmem(KREE_SESSION_HANDLE session,
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KREE_SHAREDMEM_HANDLE chm_handle,
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KREE_SECUREMEM_HANDLE *mem_handle,
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uint32_t alignment, uint32_t size);
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TZ_RESULT KREE_ZallocSecureMultichunkmem(KREE_SESSION_HANDLE session,
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KREE_SHAREDMEM_HANDLE chm_handle,
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KREE_SECUREMEM_HANDLE *mem_handle,
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uint32_t alignment, uint32_t size);
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TZ_RESULT KREE_ReferenceSecureMultichunkmem(KREE_SESSION_HANDLE session,
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KREE_SECUREMEM_HANDLE mem_handle);
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TZ_RESULT KREE_UnreferenceSecureMultichunkmem(KREE_SESSION_HANDLE session,
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KREE_SECUREMEM_HANDLE mem_handle, uint32_t *count);
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TZ_RESULT KREE_ION_AllocChunkmem(KREE_SESSION_HANDLE session,
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KREE_SHAREDMEM_HANDLE chm_handle,
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KREE_SECUREMEM_HANDLE *secmHandle,
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uint32_t alignment,
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uint32_t size);
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TZ_RESULT KREE_ION_ZallocChunkmem(KREE_SESSION_HANDLE session,
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KREE_SHAREDMEM_HANDLE chm_handle,
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KREE_SECUREMEM_HANDLE *secmHandle,
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uint32_t alignment, uint32_t size);
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TZ_RESULT KREE_ION_ReferenceChunkmem(KREE_SESSION_HANDLE session,
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KREE_SECUREMEM_HANDLE secmHandle);
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TZ_RESULT KREE_ION_UnreferenceChunkmem(KREE_SESSION_HANDLE session,
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KREE_SECUREMEM_HANDLE secmHandle);
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/*only for test*/
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TZ_RESULT KREE_QueryChunkmem_TEST(KREE_SESSION_HANDLE session,
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KREE_SECUREMEM_HANDLE secmHandle, uint32_t cmd);
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TZ_RESULT KREE_ION_QueryChunkmem_TEST(KREE_SESSION_HANDLE session,
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KREE_SECUREMEM_HANDLE secmHandle, uint32_t cmd);
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TZ_RESULT KREE_ConfigSecureMultiChunkMemInfo(KREE_SESSION_HANDLE session,
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uint64_t pa, uint32_t size,
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uint32_t region_id);
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#endif /* CONFIG_MTK_IN_HOUSE_TEE_SUPPORT || CONFIG_MTK_ENABLE_GENIEZONE*/
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#endif /* __KREE_MEM_H__ */
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