/**************************************************************************/ /* Copyright (c) Cadence Design Systems, Inc. */ /* */ /* Permission is hereby granted, free of charge, to any person obtaining */ /* a copy of this software and associated documentation files (the */ /* "Software"), to deal in the Software without restriction, including */ /* without limitation the rights to use, copy, modify, merge, publish, */ /* distribute, sublicense, and/or sell copies of the Software, and to */ /* permit persons to whom the Software is furnished to do so, subject to */ /* the following conditions: */ /* */ /* The above copyright notice and this permission notice shall be */ /* included in all copies or substantial portions of the Software. */ /* */ /* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */ /* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */ /* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. */ /* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */ /* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */ /* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */ /* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /**************************************************************************/ /************************************************************************** RTOS-SPECIFIC INFORMATION FOR XTENSA RTOS ASSEMBLER SOURCES This header is the primary glue between generic Xtensa RTOS support sources and a specific RTOS port for Xtensa. It contains definitions and macros for use primarily by Xtensa assembly coded source files. Macros in this header map callouts from generic Xtensa files to specific RTOS functions. It may also be included in C source files. Xtensa RTOS ports support all RTOS-compatible configurations of the Xtensa architecture, using the Xtensa hardware abstraction layer (HAL) to deal with configuration specifics. Should be included by all Xtensa generic and RTOS port-specific sources. ***************************************************************************/ #ifndef XTENSA_RTOS_H #define XTENSA_RTOS_H #ifdef __ASSEMBLER__ #include #else #include #include #endif #include #include #include /* Include any RTOS specific definitions that are needed by this header. */ #ifdef TX_INCLUDE_USER_DEFINE_FILE #include "tx_user.h" #endif /* Name of RTOS (for messages). */ #define XT_RTOS_NAME ThreadX /* Check some Xtensa configuration requirements and report error if not met. Error messages can be customize to the RTOS port. */ #if !XCHAL_HAVE_XEA2 && !XCHAL_HAVE_XEA3 #error "ThreadX/Xtensa requires Xtensa Exception Architecture v2 (XEA2) or higher." #endif /*************************************************************************** RTOS CALLOUT MACROS MAPPED TO RTOS PORT-SPECIFIC FUNCTIONS. Define callout macros used in generic Xtensa code to interact with the RTOS. The macros are simply the function names for use in calls from assembler code. Some of these functions may call back to generic functions in xtensa_context.h . ***************************************************************************/ /* Inform RTOS of entry into an interrupt handler that will affect it. Allows RTOS to manage switch to any system stack and count nesting level. Called after minimal context has been saved, with interrupts disabled. RTOS port can call0 _xt_context_save to save the rest of the context. May only be called from assembly code by the 'call0' instruction. */ // void XT_RTOS_INT_ENTER(void) #define XT_RTOS_INT_ENTER _tx_thread_context_save /* Inform RTOS of completion of an interrupt handler, and give control to RTOS to perform thread/task scheduling, switch back from any system stack and restore the context, and return to the exit dispatcher saved in the stack frame at XT_STK_EXIT. RTOS port can call0 _xt_context_restore to save the context saved in XT_RTOS_INT_ENTER via _xt_context_save, leaving only a minimal part of the context to be restored by the exit dispatcher. This function does not return to the place it was called from. May only be called from assembly code by the 'call0' instruction. */ // void XT_RTOS_INT_EXIT(void) #define XT_RTOS_INT_EXIT _tx_thread_context_restore /* Convenience macros to disable and enable interrupts. */ #if XCHAL_HAVE_XEA3 #define XT_INTS_DISABLE(reg) movi reg, PS_DI; xps reg, reg #define XT_INTS_ENABLE(reg) wsr reg, PS; rsync #else #define XT_INTS_DISABLE(reg) rsil reg, XCHAL_EXCM_LEVEL #define XT_INTS_ENABLE(reg) wsr reg, PS; rsync #endif /* Inform RTOS of the occurrence of a tick timer interrupt. If RTOS has no tick timer, leave XT_RTOS_TIMER_INT undefined. May be coded in or called from C or assembly, per ABI conventions. */ #ifndef TX_NO_TIMER // void XT_RTOS_TIMER_INT(void) #define XT_RTOS_TIMER_INT _tx_timer_interrupt #endif /* Return in a15 the base address of the co-processor state save area for the thread that triggered a co-processor exception, or 0 if no thread was running. The state save area is structured as defined in xtensa_context.h and has size XT_CP_SIZE. Co-processor instructions should only be used in thread code, never in interrupt handlers or the RTOS kernel. May only be called from assembly code and by the 'call0' instruction. A result of 0 indicates an unrecoverable error. The implementation may use only a2-4, a15 (all other regs must be preserved). */ // void* XT_RTOS_CP_STATE(void) #define XT_RTOS_CP_STATE _tx_thread_coproc_state /*************************************************************************** HOOKS TO DYNAMICALLY INSTALL INTERRUPT AND EXCEPTION HANDLERS PER LEVEL. This Xtensa RTOS port provides hooks for dynamically installing exception and interrupt handlers to facilitate automated testing where each test case can install its own handler for user exceptions and each interrupt priority (level). This consists of an array of function pointers indexed by interrupt priority, with index 0 being the user exception handler hook. Each entry in the array is initially 0, and may be replaced by a function pointer of type XT_INTEXC_HOOK. A handler may be uninstalled by installing 0. The handler for low and medium priority obeys ABI conventions so may be coded in C. For the exception handler, the cause is the contents of the EXCCAUSE reg, and the result is -1 if handled, else the cause (still needs handling). For interrupt handlers, the cause is a mask of pending enabled interrupts at that level, and the result is the same mask with the bits for the handled interrupts cleared (those not cleared still need handling). This allows a test case to either pre-handle or override the default handling for the exception or interrupt level (see xtensa_vectors.S). High priority handlers (including NMI) must be coded in assembly, are always called by 'call0' regardless of ABI, must preserve all registers except a0, and must not use or modify the interrupted stack. The hook argument 'cause' is not passed and the result is ignored, so as not to burden the caller with saving and restoring a2 (it assumes only one interrupt per level - see the discussion in high priority interrupts in xtensa_vectors.S). The handler therefore should be coded to prototype 'void h(void)' even though it plugs into an array of handlers of prototype 'uint32_t h(uint32_t)'. To enable interrupt/exception hooks, compile the RTOS with '-DXT_INTEXC_HOOKS'. ***************************************************************************/ #define XT_INTEXC_HOOK_NUM (1 + XCHAL_NUM_INTLEVELS + XCHAL_HAVE_NMI) #ifndef __ASSEMBLER__ typedef uint32_t (*XT_INTEXC_HOOK)(uint32_t cause); extern volatile XT_INTEXC_HOOK _xt_intexc_hooks[XT_INTEXC_HOOK_NUM]; #endif /*************************************************************************** CONVENIENCE INCLUSIONS. Ensures RTOS specific files need only include this one Xtensa-generic header. These headers are included last so they can use the RTOS definitions above. ***************************************************************************/ #include "xtensa_context.h" #ifdef XT_RTOS_TIMER_INT #include "xtensa_timer.h" #endif #endif /* XTENSA_RTOS_H */