15d9ddca6SJens Wiklander /* SPDX-License-Identifier: BSD-2-Clause */ 25d9ddca6SJens Wiklander /* 35d9ddca6SJens Wiklander * Copyright (c) 2014, STMicroelectronics International N.V. 45d9ddca6SJens Wiklander * Copyright (c) 2016-2017, Linaro Limited 55d9ddca6SJens Wiklander * Copyright (c) 2020-2021, Arm Limited 65d9ddca6SJens Wiklander */ 75d9ddca6SJens Wiklander 85d9ddca6SJens Wiklander #ifndef KERNEL_THREAD_H 95d9ddca6SJens Wiklander #define KERNEL_THREAD_H 105d9ddca6SJens Wiklander 115d9ddca6SJens Wiklander #ifndef __ASSEMBLER__ 125d9ddca6SJens Wiklander #include <types_ext.h> 135d9ddca6SJens Wiklander #include <compiler.h> 145d9ddca6SJens Wiklander #include <mm/pgt_cache.h> 155d9ddca6SJens Wiklander #endif 16891569afSJens Wiklander #include <util.h> 175d9ddca6SJens Wiklander #include <kernel/thread_arch.h> 185d9ddca6SJens Wiklander 19891569afSJens Wiklander #define THREAD_FLAGS_COPY_ARGS_ON_RETURN BIT(0) 20891569afSJens Wiklander #define THREAD_FLAGS_FOREIGN_INTR_ENABLE BIT(1) 21891569afSJens Wiklander #define THREAD_FLAGS_EXIT_ON_FOREIGN_INTR BIT(2) 22*4d028847SImre Kis #define THREAD_FLAGS_FFA_ONLY BIT(3) 23891569afSJens Wiklander 245d9ddca6SJens Wiklander #define THREAD_ID_0 0 255d9ddca6SJens Wiklander #define THREAD_ID_INVALID -1 265d9ddca6SJens Wiklander 275d9ddca6SJens Wiklander #define THREAD_RPC_MAX_NUM_PARAMS U(4) 285d9ddca6SJens Wiklander 295d9ddca6SJens Wiklander #ifndef __ASSEMBLER__ 305d9ddca6SJens Wiklander 315d9ddca6SJens Wiklander struct thread_specific_data { 325d9ddca6SJens Wiklander TAILQ_HEAD(, ts_session) sess_stack; 335d9ddca6SJens Wiklander struct ts_ctx *ctx; 345d9ddca6SJens Wiklander #ifdef CFG_CORE_FFA 355d9ddca6SJens Wiklander uint32_t rpc_target_info; 365d9ddca6SJens Wiklander #endif 375d9ddca6SJens Wiklander uint32_t abort_type; 385d9ddca6SJens Wiklander uint32_t abort_descr; 395d9ddca6SJens Wiklander vaddr_t abort_va; 405d9ddca6SJens Wiklander unsigned int abort_core; 415d9ddca6SJens Wiklander struct thread_abort_regs abort_regs; 425d9ddca6SJens Wiklander #ifdef CFG_CORE_DEBUG_CHECK_STACKS 435d9ddca6SJens Wiklander bool stackcheck_recursion; 445d9ddca6SJens Wiklander #endif 455d9ddca6SJens Wiklander unsigned int syscall_recursion; 467e75ca54SJens Wiklander #ifdef CFG_FAULT_MITIGATION 477e75ca54SJens Wiklander struct ftmn_func_arg *ftmn_arg; 487e75ca54SJens Wiklander #endif 495d9ddca6SJens Wiklander }; 505d9ddca6SJens Wiklander 51ca825890SJens Wiklander void thread_init_canaries(void); 525d9ddca6SJens Wiklander void thread_init_primary(void); 535d9ddca6SJens Wiklander void thread_init_per_cpu(void); 545d9ddca6SJens Wiklander 555d9ddca6SJens Wiklander struct thread_core_local *thread_get_core_local(void); 565d9ddca6SJens Wiklander 575d9ddca6SJens Wiklander /* 585d9ddca6SJens Wiklander * Sets the stacks to be used by the different threads. Use THREAD_ID_0 for 595d9ddca6SJens Wiklander * first stack, THREAD_ID_0 + 1 for the next and so on. 605d9ddca6SJens Wiklander * 615d9ddca6SJens Wiklander * Returns true on success and false on errors. 625d9ddca6SJens Wiklander */ 635d9ddca6SJens Wiklander bool thread_init_stack(uint32_t stack_id, vaddr_t sp); 645d9ddca6SJens Wiklander 655d9ddca6SJens Wiklander /* 665d9ddca6SJens Wiklander * Initializes thread contexts. Called in thread_init_boot_thread() if 675d9ddca6SJens Wiklander * virtualization is disabled. Virtualization subsystem calls it for 685d9ddca6SJens Wiklander * every new guest otherwise. 695d9ddca6SJens Wiklander */ 705d9ddca6SJens Wiklander void thread_init_threads(void); 715d9ddca6SJens Wiklander 725d9ddca6SJens Wiklander /* 735d9ddca6SJens Wiklander * Called by the init CPU. Sets temporary stack mode for all CPUs 745d9ddca6SJens Wiklander * (curr_thread = -1 and THREAD_CLF_TMP) and sets the temporary stack limit for 755d9ddca6SJens Wiklander * the init CPU. 765d9ddca6SJens Wiklander */ 775d9ddca6SJens Wiklander void thread_init_thread_core_local(void); 78ca825890SJens Wiklander void thread_init_core_local_stacks(void); 795d9ddca6SJens Wiklander 8093dc6b29SJens Wiklander #if defined(CFG_CORE_PAUTH) 8193dc6b29SJens Wiklander void thread_init_thread_pauth_keys(void); 8293dc6b29SJens Wiklander void thread_init_core_local_pauth_keys(void); 8393dc6b29SJens Wiklander #else 8493dc6b29SJens Wiklander static inline void thread_init_thread_pauth_keys(void) { } 8593dc6b29SJens Wiklander static inline void thread_init_core_local_pauth_keys(void) { } 8693dc6b29SJens Wiklander #endif 8793dc6b29SJens Wiklander 885d9ddca6SJens Wiklander /* 895d9ddca6SJens Wiklander * Initializes a thread to be used during boot 905d9ddca6SJens Wiklander */ 915d9ddca6SJens Wiklander void thread_init_boot_thread(void); 925d9ddca6SJens Wiklander 935d9ddca6SJens Wiklander /* 945d9ddca6SJens Wiklander * Clears the current thread id 955d9ddca6SJens Wiklander * Only supposed to be used during initialization. 965d9ddca6SJens Wiklander */ 975d9ddca6SJens Wiklander void thread_clr_boot_thread(void); 985d9ddca6SJens Wiklander 995d9ddca6SJens Wiklander /* 1005d9ddca6SJens Wiklander * Returns current thread id. 1015d9ddca6SJens Wiklander */ 1025d9ddca6SJens Wiklander short int thread_get_id(void); 1035d9ddca6SJens Wiklander 1045d9ddca6SJens Wiklander /* 1055d9ddca6SJens Wiklander * Returns current thread id, return -1 on failure. 1065d9ddca6SJens Wiklander */ 1075d9ddca6SJens Wiklander short int thread_get_id_may_fail(void); 1085d9ddca6SJens Wiklander 1095d9ddca6SJens Wiklander /* Returns Thread Specific Data (TSD) pointer. */ 1105d9ddca6SJens Wiklander struct thread_specific_data *thread_get_tsd(void); 1115d9ddca6SJens Wiklander 1125d9ddca6SJens Wiklander /* 1135d9ddca6SJens Wiklander * Sets foreign interrupts status for current thread, must only be called 1145d9ddca6SJens Wiklander * from an active thread context. 1155d9ddca6SJens Wiklander * 1165d9ddca6SJens Wiklander * enable == true -> enable foreign interrupts 1175d9ddca6SJens Wiklander * enable == false -> disable foreign interrupts 1185d9ddca6SJens Wiklander */ 1195d9ddca6SJens Wiklander void thread_set_foreign_intr(bool enable); 1205d9ddca6SJens Wiklander 1215d9ddca6SJens Wiklander /* 1225d9ddca6SJens Wiklander * Restores the foreign interrupts status (in CPSR) for current thread, must 1235d9ddca6SJens Wiklander * only be called from an active thread context. 1245d9ddca6SJens Wiklander */ 1255d9ddca6SJens Wiklander void thread_restore_foreign_intr(void); 1265d9ddca6SJens Wiklander 1275d9ddca6SJens Wiklander /* 1285d9ddca6SJens Wiklander * thread_get_exceptions() - return current exception mask 1295d9ddca6SJens Wiklander */ 1305d9ddca6SJens Wiklander uint32_t thread_get_exceptions(void); 1315d9ddca6SJens Wiklander 1325d9ddca6SJens Wiklander /* 1335d9ddca6SJens Wiklander * thread_set_exceptions() - set exception mask 1345d9ddca6SJens Wiklander * @exceptions: exception mask to set 1355d9ddca6SJens Wiklander * 1365d9ddca6SJens Wiklander * Any previous exception mask is replaced by this exception mask, that is, 1375d9ddca6SJens Wiklander * old bits are cleared and replaced by these. 1385d9ddca6SJens Wiklander */ 1395d9ddca6SJens Wiklander void thread_set_exceptions(uint32_t exceptions); 1405d9ddca6SJens Wiklander 1415d9ddca6SJens Wiklander /* 1425d9ddca6SJens Wiklander * thread_mask_exceptions() - Masks (disables) specified asynchronous exceptions 1435d9ddca6SJens Wiklander * @exceptions exceptions to mask 1445d9ddca6SJens Wiklander * @returns old exception state 1455d9ddca6SJens Wiklander */ 1465d9ddca6SJens Wiklander uint32_t thread_mask_exceptions(uint32_t exceptions); 1475d9ddca6SJens Wiklander 1485d9ddca6SJens Wiklander /* 1495d9ddca6SJens Wiklander * thread_unmask_exceptions() - Unmasks asynchronous exceptions 1505d9ddca6SJens Wiklander * @state Old asynchronous exception state to restore (returned by 1515d9ddca6SJens Wiklander * thread_mask_exceptions()) 1525d9ddca6SJens Wiklander */ 1535d9ddca6SJens Wiklander void thread_unmask_exceptions(uint32_t state); 1545d9ddca6SJens Wiklander 1555d9ddca6SJens Wiklander 1565d9ddca6SJens Wiklander static inline bool __nostackcheck thread_foreign_intr_disabled(void) 1575d9ddca6SJens Wiklander { 1585d9ddca6SJens Wiklander return !!(thread_get_exceptions() & THREAD_EXCP_FOREIGN_INTR); 1595d9ddca6SJens Wiklander } 1605d9ddca6SJens Wiklander 1615d9ddca6SJens Wiklander /* 1625d9ddca6SJens Wiklander * thread_enter_user_mode() - Enters user mode 1635d9ddca6SJens Wiklander * @a0: Passed in r/x0 for user_func 1645d9ddca6SJens Wiklander * @a1: Passed in r/x1 for user_func 1655d9ddca6SJens Wiklander * @a2: Passed in r/x2 for user_func 1665d9ddca6SJens Wiklander * @a3: Passed in r/x3 for user_func 1675d9ddca6SJens Wiklander * @user_sp: Assigned sp value in user mode 1685d9ddca6SJens Wiklander * @user_func: Function to execute in user mode 1695d9ddca6SJens Wiklander * @is_32bit: True if TA should execute in Aarch32, false if Aarch64 1705d9ddca6SJens Wiklander * @exit_status0: Pointer to opaque exit staus 0 1715d9ddca6SJens Wiklander * @exit_status1: Pointer to opaque exit staus 1 1725d9ddca6SJens Wiklander * 1735d9ddca6SJens Wiklander * This functions enters user mode with the argument described above, 1745d9ddca6SJens Wiklander * @exit_status0 and @exit_status1 are filled in by thread_unwind_user_mode() 1755d9ddca6SJens Wiklander * when returning back to the caller of this function through an exception 1765d9ddca6SJens Wiklander * handler. 1775d9ddca6SJens Wiklander * 1785d9ddca6SJens Wiklander * @Returns what's passed in "ret" to thread_unwind_user_mode() 1795d9ddca6SJens Wiklander */ 1805d9ddca6SJens Wiklander uint32_t thread_enter_user_mode(unsigned long a0, unsigned long a1, 1815d9ddca6SJens Wiklander unsigned long a2, unsigned long a3, unsigned long user_sp, 1825d9ddca6SJens Wiklander unsigned long entry_func, bool is_32bit, 1835d9ddca6SJens Wiklander uint32_t *exit_status0, uint32_t *exit_status1); 1845d9ddca6SJens Wiklander 1855d9ddca6SJens Wiklander /* 1865d9ddca6SJens Wiklander * thread_unwind_user_mode() - Unwinds kernel stack from user entry 1875d9ddca6SJens Wiklander * @ret: Value to return from thread_enter_user_mode() 1885d9ddca6SJens Wiklander * @exit_status0: Exit status 0 1895d9ddca6SJens Wiklander * @exit_status1: Exit status 1 1905d9ddca6SJens Wiklander * 1915d9ddca6SJens Wiklander * This is the function that exception handlers can return into 1925d9ddca6SJens Wiklander * to resume execution in kernel mode instead of user mode. 1935d9ddca6SJens Wiklander * 1945d9ddca6SJens Wiklander * This function is closely coupled with thread_enter_user_mode() since it 1955d9ddca6SJens Wiklander * need to restore registers saved by thread_enter_user_mode() and when it 1965d9ddca6SJens Wiklander * returns make it look like thread_enter_user_mode() just returned. It is 1975d9ddca6SJens Wiklander * expected that the stack pointer is where thread_enter_user_mode() left 1985d9ddca6SJens Wiklander * it. The stack will be unwound and the function will return to where 1995d9ddca6SJens Wiklander * thread_enter_user_mode() was called from. Exit_status0 and exit_status1 2005d9ddca6SJens Wiklander * are filled in the corresponding pointers supplied to 2015d9ddca6SJens Wiklander * thread_enter_user_mode(). 2025d9ddca6SJens Wiklander */ 2035d9ddca6SJens Wiklander void thread_unwind_user_mode(uint32_t ret, uint32_t exit_status0, 2045d9ddca6SJens Wiklander uint32_t exit_status1); 2055d9ddca6SJens Wiklander 2065d9ddca6SJens Wiklander /* 2075d9ddca6SJens Wiklander * Returns the start address (bottom) of the stack for the current thread, 2085d9ddca6SJens Wiklander * zero if there is no current thread. 2095d9ddca6SJens Wiklander */ 2105d9ddca6SJens Wiklander vaddr_t thread_stack_start(void); 2115d9ddca6SJens Wiklander 2125d9ddca6SJens Wiklander 2135d9ddca6SJens Wiklander /* Returns the stack size for the current thread */ 2145d9ddca6SJens Wiklander size_t thread_stack_size(void); 2155d9ddca6SJens Wiklander 2165d9ddca6SJens Wiklander /* 2175d9ddca6SJens Wiklander * Returns the start (top, lowest address) and end (bottom, highest address) of 2185d9ddca6SJens Wiklander * the current stack (thread, temporary or abort stack). 2195d9ddca6SJens Wiklander * When CFG_CORE_DEBUG_CHECK_STACKS=y, the @hard parameter tells if the hard or 2205d9ddca6SJens Wiklander * soft limits are queried. The difference between soft and hard is that for the 2215d9ddca6SJens Wiklander * latter, the stack start includes some additional space to let any function 2225d9ddca6SJens Wiklander * overflow the soft limit and still be able to print a stack dump in this case. 2235d9ddca6SJens Wiklander */ 2245d9ddca6SJens Wiklander bool get_stack_limits(vaddr_t *start, vaddr_t *end, bool hard); 2255d9ddca6SJens Wiklander 2265d9ddca6SJens Wiklander static inline bool __nostackcheck get_stack_soft_limits(vaddr_t *start, 2275d9ddca6SJens Wiklander vaddr_t *end) 2285d9ddca6SJens Wiklander { 2295d9ddca6SJens Wiklander return get_stack_limits(start, end, false); 2305d9ddca6SJens Wiklander } 2315d9ddca6SJens Wiklander 2325d9ddca6SJens Wiklander static inline bool __nostackcheck get_stack_hard_limits(vaddr_t *start, 2335d9ddca6SJens Wiklander vaddr_t *end) 2345d9ddca6SJens Wiklander { 2355d9ddca6SJens Wiklander return get_stack_limits(start, end, true); 2365d9ddca6SJens Wiklander } 2375d9ddca6SJens Wiklander 2385d9ddca6SJens Wiklander bool thread_is_in_normal_mode(void); 2395d9ddca6SJens Wiklander 2405d9ddca6SJens Wiklander /* 2415d9ddca6SJens Wiklander * Returns true if previous exeception also was in abort mode. 2425d9ddca6SJens Wiklander * 2435d9ddca6SJens Wiklander * Note: it's only valid to call this function from an abort exception 2445d9ddca6SJens Wiklander * handler before interrupts has been re-enabled. 2455d9ddca6SJens Wiklander */ 2465d9ddca6SJens Wiklander bool thread_is_from_abort_mode(void); 2475d9ddca6SJens Wiklander 2485d9ddca6SJens Wiklander /** 2495d9ddca6SJens Wiklander * Allocates data for payload buffers. 2505d9ddca6SJens Wiklander * 2515d9ddca6SJens Wiklander * @size: size in bytes of payload buffer 2525d9ddca6SJens Wiklander * 2535d9ddca6SJens Wiklander * @returns mobj that describes allocated buffer or NULL on error 2545d9ddca6SJens Wiklander */ 2555d9ddca6SJens Wiklander struct mobj *thread_rpc_alloc_payload(size_t size); 2565d9ddca6SJens Wiklander 2575d9ddca6SJens Wiklander /** 2585d9ddca6SJens Wiklander * Free physical memory previously allocated with thread_rpc_alloc_payload() 2595d9ddca6SJens Wiklander * 2605d9ddca6SJens Wiklander * @mobj: mobj that describes the buffer 2615d9ddca6SJens Wiklander */ 2625d9ddca6SJens Wiklander void thread_rpc_free_payload(struct mobj *mobj); 2635d9ddca6SJens Wiklander 2645d9ddca6SJens Wiklander /** 2655d9ddca6SJens Wiklander * Allocate data for payload buffers only shared with the non-secure kernel 2665d9ddca6SJens Wiklander * 2675d9ddca6SJens Wiklander * @size: size in bytes of payload buffer 2685d9ddca6SJens Wiklander * 2695d9ddca6SJens Wiklander * @returns mobj that describes allocated buffer or NULL on error 2705d9ddca6SJens Wiklander */ 2715d9ddca6SJens Wiklander struct mobj *thread_rpc_alloc_kernel_payload(size_t size); 2725d9ddca6SJens Wiklander 2735d9ddca6SJens Wiklander /** 2745d9ddca6SJens Wiklander * Free physical memory previously allocated with 2755d9ddca6SJens Wiklander * thread_rpc_alloc_kernel_payload() 2765d9ddca6SJens Wiklander * 2775d9ddca6SJens Wiklander * @mobj: mobj that describes the buffer 2785d9ddca6SJens Wiklander */ 2795d9ddca6SJens Wiklander void thread_rpc_free_kernel_payload(struct mobj *mobj); 2805d9ddca6SJens Wiklander 2815d9ddca6SJens Wiklander struct thread_param_memref { 2825d9ddca6SJens Wiklander size_t offs; 2835d9ddca6SJens Wiklander size_t size; 2845d9ddca6SJens Wiklander struct mobj *mobj; 2855d9ddca6SJens Wiklander }; 2865d9ddca6SJens Wiklander 2875d9ddca6SJens Wiklander struct thread_param_value { 2885d9ddca6SJens Wiklander uint64_t a; 2895d9ddca6SJens Wiklander uint64_t b; 2905d9ddca6SJens Wiklander uint64_t c; 2915d9ddca6SJens Wiklander }; 2925d9ddca6SJens Wiklander 2935d9ddca6SJens Wiklander /* 2945d9ddca6SJens Wiklander * Note that there's some arithmetics done on the value so it's important 2955d9ddca6SJens Wiklander * to keep in IN, OUT, INOUT order. 2965d9ddca6SJens Wiklander */ 2975d9ddca6SJens Wiklander enum thread_param_attr { 2985d9ddca6SJens Wiklander THREAD_PARAM_ATTR_NONE = 0, 2995d9ddca6SJens Wiklander THREAD_PARAM_ATTR_VALUE_IN, 3005d9ddca6SJens Wiklander THREAD_PARAM_ATTR_VALUE_OUT, 3015d9ddca6SJens Wiklander THREAD_PARAM_ATTR_VALUE_INOUT, 3025d9ddca6SJens Wiklander THREAD_PARAM_ATTR_MEMREF_IN, 3035d9ddca6SJens Wiklander THREAD_PARAM_ATTR_MEMREF_OUT, 3045d9ddca6SJens Wiklander THREAD_PARAM_ATTR_MEMREF_INOUT, 3055d9ddca6SJens Wiklander }; 3065d9ddca6SJens Wiklander 3075d9ddca6SJens Wiklander struct thread_param { 3085d9ddca6SJens Wiklander enum thread_param_attr attr; 3095d9ddca6SJens Wiklander union { 3105d9ddca6SJens Wiklander struct thread_param_memref memref; 3115d9ddca6SJens Wiklander struct thread_param_value value; 3125d9ddca6SJens Wiklander } u; 3135d9ddca6SJens Wiklander }; 3145d9ddca6SJens Wiklander 3155d9ddca6SJens Wiklander #define THREAD_PARAM_MEMREF(_direction, _mobj, _offs, _size) \ 3165d9ddca6SJens Wiklander (struct thread_param){ \ 3175d9ddca6SJens Wiklander .attr = THREAD_PARAM_ATTR_MEMREF_ ## _direction, .u.memref = { \ 3185d9ddca6SJens Wiklander .mobj = (_mobj), .offs = (_offs), .size = (_size) } \ 3195d9ddca6SJens Wiklander } 3205d9ddca6SJens Wiklander 3215d9ddca6SJens Wiklander #define THREAD_PARAM_VALUE(_direction, _a, _b, _c) \ 3225d9ddca6SJens Wiklander (struct thread_param){ \ 3235d9ddca6SJens Wiklander .attr = THREAD_PARAM_ATTR_VALUE_ ## _direction, .u.value = { \ 3245d9ddca6SJens Wiklander .a = (_a), .b = (_b), .c = (_c) } \ 3255d9ddca6SJens Wiklander } 3265d9ddca6SJens Wiklander 3275d9ddca6SJens Wiklander /** 3285d9ddca6SJens Wiklander * Does an RPC using a preallocated argument buffer 3295d9ddca6SJens Wiklander * @cmd: RPC cmd 3305d9ddca6SJens Wiklander * @num_params: number of parameters 3315d9ddca6SJens Wiklander * @params: RPC parameters 3325d9ddca6SJens Wiklander * @returns RPC return value 3335d9ddca6SJens Wiklander */ 3345d9ddca6SJens Wiklander uint32_t thread_rpc_cmd(uint32_t cmd, size_t num_params, 3355d9ddca6SJens Wiklander struct thread_param *params); 3365d9ddca6SJens Wiklander 3375d9ddca6SJens Wiklander /** 3385d9ddca6SJens Wiklander * Allocate data for payload buffers. 3395d9ddca6SJens Wiklander * Buffer is exported to user mode applications. 3405d9ddca6SJens Wiklander * 3415d9ddca6SJens Wiklander * @size: size in bytes of payload buffer 3425d9ddca6SJens Wiklander * 3435d9ddca6SJens Wiklander * @returns mobj that describes allocated buffer or NULL on error 3445d9ddca6SJens Wiklander */ 3455d9ddca6SJens Wiklander struct mobj *thread_rpc_alloc_global_payload(size_t size); 3465d9ddca6SJens Wiklander 3475d9ddca6SJens Wiklander /** 3485d9ddca6SJens Wiklander * Free physical memory previously allocated with 3495d9ddca6SJens Wiklander * thread_rpc_alloc_global_payload() 3505d9ddca6SJens Wiklander * 3515d9ddca6SJens Wiklander * @mobj: mobj that describes the buffer 3525d9ddca6SJens Wiklander */ 3535d9ddca6SJens Wiklander void thread_rpc_free_global_payload(struct mobj *mobj); 3545d9ddca6SJens Wiklander 3555d9ddca6SJens Wiklander /* 3565d9ddca6SJens Wiklander * enum thread_shm_type - type of non-secure shared memory 3575d9ddca6SJens Wiklander * @THREAD_SHM_TYPE_APPLICATION - user space application shared memory 3585d9ddca6SJens Wiklander * @THREAD_SHM_TYPE_KERNEL_PRIVATE - kernel private shared memory 3595d9ddca6SJens Wiklander * @THREAD_SHM_TYPE_GLOBAL - user space and kernel shared memory 3605d9ddca6SJens Wiklander */ 3615d9ddca6SJens Wiklander enum thread_shm_type { 3625d9ddca6SJens Wiklander THREAD_SHM_TYPE_APPLICATION, 3635d9ddca6SJens Wiklander THREAD_SHM_TYPE_KERNEL_PRIVATE, 3645d9ddca6SJens Wiklander THREAD_SHM_TYPE_GLOBAL, 3655d9ddca6SJens Wiklander }; 3665d9ddca6SJens Wiklander 3675d9ddca6SJens Wiklander /* 3685d9ddca6SJens Wiklander * enum thread_shm_cache_user - user of a cache allocation 3695d9ddca6SJens Wiklander * @THREAD_SHM_CACHE_USER_SOCKET - socket communication 3705d9ddca6SJens Wiklander * @THREAD_SHM_CACHE_USER_FS - filesystem access 3715d9ddca6SJens Wiklander * @THREAD_SHM_CACHE_USER_I2C - I2C communication 3725d9ddca6SJens Wiklander * 3735d9ddca6SJens Wiklander * To ensure that each user of the shared memory cache doesn't interfere 3745d9ddca6SJens Wiklander * with each other a unique ID per user is used. 3755d9ddca6SJens Wiklander */ 3765d9ddca6SJens Wiklander enum thread_shm_cache_user { 3775d9ddca6SJens Wiklander THREAD_SHM_CACHE_USER_SOCKET, 3785d9ddca6SJens Wiklander THREAD_SHM_CACHE_USER_FS, 3795d9ddca6SJens Wiklander THREAD_SHM_CACHE_USER_I2C, 3805d9ddca6SJens Wiklander }; 3815d9ddca6SJens Wiklander 3825d9ddca6SJens Wiklander /* 3835d9ddca6SJens Wiklander * Returns a pointer to the cached RPC memory. Each thread and @user tuple 3845d9ddca6SJens Wiklander * has a unique cache. The pointer is guaranteed to point to a large enough 3855d9ddca6SJens Wiklander * area or to be NULL. 3865d9ddca6SJens Wiklander */ 3875d9ddca6SJens Wiklander void *thread_rpc_shm_cache_alloc(enum thread_shm_cache_user user, 3885d9ddca6SJens Wiklander enum thread_shm_type shm_type, 3895d9ddca6SJens Wiklander size_t size, struct mobj **mobj); 3905d9ddca6SJens Wiklander 3915d9ddca6SJens Wiklander #endif /*__ASSEMBLER__*/ 3925d9ddca6SJens Wiklander 3935d9ddca6SJens Wiklander #endif /*KERNEL_THREAD_H*/ 394