379 lines
15 KiB
C
379 lines
15 KiB
C
/*******************************************************************************
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Copyright (c) 2006-2015 Cadence Design Systems Inc.
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Permission is hereby granted, free of charge, to any person obtaining
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a copy of this software and associated documentation files (the
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"Software"), to deal in the Software without restriction, including
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without limitation the rights to use, copy, modify, merge, publish,
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distribute, sublicense, and/or sell copies of the Software, and to
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permit persons to whom the Software is furnished to do so, subject to
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the following conditions:
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The above copyright notice and this permission notice shall be included
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in all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
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IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
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CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
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TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
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SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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--------------------------------------------------------------------------------
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XTENSA CONTEXT FRAMES AND MACROS FOR RTOS ASSEMBLER SOURCES
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This header contains definitions and macros for use primarily by Xtensa
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RTOS assembly coded source files. It includes and uses the Xtensa hardware
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abstraction layer (HAL) to deal with config specifics. It may also be
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included in C source files.
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!! Supports only Xtensa Exception Architecture 2 (XEA2). XEA1 not supported. !!
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NOTE: The Xtensa architecture requires stack pointer alignment to 16 bytes.
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*******************************************************************************/
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#ifndef XTENSA_CONTEXT_H
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#define XTENSA_CONTEXT_H
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#ifdef __ASSEMBLER__
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#include <xtensa/coreasm.h>
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#endif
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#include <xtensa/config/tie.h>
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#include <xtensa/corebits.h>
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#include <xtensa/config/system.h>
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#include <xtensa/xtruntime-frames.h>
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/* Align a value up to nearest n-byte boundary, where n is a power of 2. */
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#define ALIGNUP(n, val) (((val) + (n)-1) & -(n))
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/*
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-------------------------------------------------------------------------------
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Macros that help define structures for both C and assembler.
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-------------------------------------------------------------------------------
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*/
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#ifdef STRUCT_BEGIN
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#undef STRUCT_BEGIN
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#undef STRUCT_FIELD
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#undef STRUCT_AFIELD
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#undef STRUCT_END
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#endif
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#if defined(_ASMLANGUAGE) || defined(__ASSEMBLER__)
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#define STRUCT_BEGIN .pushsection .text; .struct 0
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#define STRUCT_FIELD(ctype,size,asname,name) asname: .space size
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#define STRUCT_AFIELD(ctype,size,asname,name,n) asname: .space (size)*(n)
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#define STRUCT_END(sname) sname##Size:; .popsection
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#else
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#define STRUCT_BEGIN typedef struct {
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#define STRUCT_FIELD(ctype,size,asname,name) ctype name;
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#define STRUCT_AFIELD(ctype,size,asname,name,n) ctype name[n];
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#define STRUCT_END(sname) } sname;
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#endif //_ASMLANGUAGE || __ASSEMBLER__
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/*
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-------------------------------------------------------------------------------
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INTERRUPT/EXCEPTION STACK FRAME FOR A THREAD OR NESTED INTERRUPT
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A stack frame of this structure is allocated for any interrupt or exception.
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It goes on the current stack. If the RTOS has a system stack for handling
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interrupts, every thread stack must allow space for just one interrupt stack
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frame, then nested interrupt stack frames go on the system stack.
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The frame includes basic registers (explicit) and "extra" registers introduced
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by user TIE or the use of the MAC16 option in the user's Xtensa config.
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The frame size is minimized by omitting regs not applicable to user's config.
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For Windowed ABI, this stack frame includes the interruptee's base save area,
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another base save area to manage gcc nested functions, and a little temporary
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space to help manage the spilling of the register windows.
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-------------------------------------------------------------------------------
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*/
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STRUCT_BEGIN
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STRUCT_FIELD (long, 4, XT_STK_EXIT, exit) /* exit point for dispatch */
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STRUCT_FIELD (long, 4, XT_STK_PC, pc) /* return PC */
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STRUCT_FIELD (long, 4, XT_STK_PS, ps) /* return PS */
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STRUCT_FIELD (long, 4, XT_STK_A0, a0)
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STRUCT_FIELD (long, 4, XT_STK_A1, a1) /* stack pointer before interrupt */
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STRUCT_FIELD (long, 4, XT_STK_A2, a2)
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STRUCT_FIELD (long, 4, XT_STK_A3, a3)
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STRUCT_FIELD (long, 4, XT_STK_A4, a4)
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STRUCT_FIELD (long, 4, XT_STK_A5, a5)
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STRUCT_FIELD (long, 4, XT_STK_A6, a6)
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STRUCT_FIELD (long, 4, XT_STK_A7, a7)
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STRUCT_FIELD (long, 4, XT_STK_A8, a8)
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STRUCT_FIELD (long, 4, XT_STK_A9, a9)
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STRUCT_FIELD (long, 4, XT_STK_A10, a10)
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STRUCT_FIELD (long, 4, XT_STK_A11, a11)
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STRUCT_FIELD (long, 4, XT_STK_A12, a12)
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STRUCT_FIELD (long, 4, XT_STK_A13, a13)
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STRUCT_FIELD (long, 4, XT_STK_A14, a14)
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STRUCT_FIELD (long, 4, XT_STK_A15, a15)
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STRUCT_FIELD (long, 4, XT_STK_SAR, sar)
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STRUCT_FIELD (long, 4, XT_STK_EXCCAUSE, exccause)
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STRUCT_FIELD (long, 4, XT_STK_EXCVADDR, excvaddr)
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#if XCHAL_HAVE_LOOPS
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STRUCT_FIELD (long, 4, XT_STK_LBEG, lbeg)
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STRUCT_FIELD (long, 4, XT_STK_LEND, lend)
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STRUCT_FIELD (long, 4, XT_STK_LCOUNT, lcount)
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#endif
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#ifndef __XTENSA_CALL0_ABI__
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/* Temporary space for saving stuff during window spill */
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STRUCT_FIELD (long, 4, XT_STK_TMP0, tmp0)
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STRUCT_FIELD (long, 4, XT_STK_TMP1, tmp1)
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STRUCT_FIELD (long, 4, XT_STK_TMP2, tmp2)
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#endif
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#ifdef XT_USE_SWPRI
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/* Storage for virtual priority mask */
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STRUCT_FIELD (long, 4, XT_STK_VPRI, vpri)
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#endif
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#ifdef XT_USE_OVLY
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/* Storage for overlay state */
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STRUCT_FIELD (long, 4, XT_STK_OVLY, ovly)
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#endif
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STRUCT_END(XtExcFrame)
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#if defined(_ASMLANGUAGE) || defined(__ASSEMBLER__)
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#define XT_STK_NEXT1 XtExcFrameSize
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#else
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#define XT_STK_NEXT1 sizeof(XtExcFrame)
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#endif
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/* Allocate extra storage if needed */
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#if XCHAL_EXTRA_SA_SIZE != 0
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#if XCHAL_EXTRA_SA_ALIGN <= 16
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#define XT_STK_EXTRA ALIGNUP(XCHAL_EXTRA_SA_ALIGN, XT_STK_NEXT1)
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#else
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/* If need more alignment than stack, add space for dynamic alignment */
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#define XT_STK_EXTRA (ALIGNUP(XCHAL_EXTRA_SA_ALIGN, XT_STK_NEXT1) + XCHAL_EXTRA_SA_ALIGN)
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#endif
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#define XT_STK_NEXT2 (XT_STK_EXTRA + XCHAL_EXTRA_SA_SIZE)
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#else
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#define XT_STK_NEXT2 XT_STK_NEXT1
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#endif
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/*
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-------------------------------------------------------------------------------
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This is the frame size. Add space for 4 registers (interruptee's base save
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area) and some space for gcc nested functions if any.
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-------------------------------------------------------------------------------
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*/
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#define XT_STK_FRMSZ (ALIGNUP(0x10, XT_STK_NEXT2) + 0x20)
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/*
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-------------------------------------------------------------------------------
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SOLICITED STACK FRAME FOR A THREAD
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A stack frame of this structure is allocated whenever a thread enters the
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RTOS kernel intentionally (and synchronously) to submit to thread scheduling.
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It goes on the current thread's stack.
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The solicited frame only includes registers that are required to be preserved
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by the callee according to the compiler's ABI conventions, some space to save
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the return address for returning to the caller, and the caller's PS register.
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For Windowed ABI, this stack frame includes the caller's base save area.
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Note on XT_SOL_EXIT field:
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It is necessary to distinguish a solicited from an interrupt stack frame.
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This field corresponds to XT_STK_EXIT in the interrupt stack frame and is
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always at the same offset (0). It can be written with a code (usually 0)
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to distinguish a solicted frame from an interrupt frame. An RTOS port may
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opt to ignore this field if it has another way of distinguishing frames.
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-------------------------------------------------------------------------------
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*/
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STRUCT_BEGIN
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#ifdef __XTENSA_CALL0_ABI__
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STRUCT_FIELD (long, 4, XT_SOL_EXIT, exit)
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STRUCT_FIELD (long, 4, XT_SOL_PC, pc)
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STRUCT_FIELD (long, 4, XT_SOL_PS, ps)
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STRUCT_FIELD (long, 4, XT_SOL_NEXT, next)
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STRUCT_FIELD (long, 4, XT_SOL_A12, a12) /* should be on 16-byte alignment */
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STRUCT_FIELD (long, 4, XT_SOL_A13, a13)
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STRUCT_FIELD (long, 4, XT_SOL_A14, a14)
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STRUCT_FIELD (long, 4, XT_SOL_A15, a15)
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#else
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STRUCT_FIELD (long, 4, XT_SOL_EXIT, exit)
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STRUCT_FIELD (long, 4, XT_SOL_PC, pc)
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STRUCT_FIELD (long, 4, XT_SOL_PS, ps)
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STRUCT_FIELD (long, 4, XT_SOL_NEXT, next)
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STRUCT_FIELD (long, 4, XT_SOL_A0, a0) /* should be on 16-byte alignment */
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STRUCT_FIELD (long, 4, XT_SOL_A1, a1)
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STRUCT_FIELD (long, 4, XT_SOL_A2, a2)
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STRUCT_FIELD (long, 4, XT_SOL_A3, a3)
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#endif
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STRUCT_END(XtSolFrame)
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/* Size of solicited stack frame */
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#define XT_SOL_FRMSZ ALIGNUP(0x10, XtSolFrameSize)
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/*
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-------------------------------------------------------------------------------
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CO-PROCESSOR STATE SAVE AREA FOR A THREAD
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The RTOS must provide an area per thread to save the state of co-processors
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when that thread does not have control. Co-processors are context-switched
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lazily (on demand) only when a new thread uses a co-processor instruction,
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otherwise a thread retains ownership of the co-processor even when it loses
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control of the processor. An Xtensa co-processor exception is triggered when
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any co-processor instruction is executed by a thread that is not the owner,
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and the context switch of that co-processor is then peformed by the handler.
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Ownership represents which thread's state is currently in the co-processor.
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Co-processors may not be used by interrupt or exception handlers. If an
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co-processor instruction is executed by an interrupt or exception handler,
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the co-processor exception handler will trigger a kernel panic and freeze.
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This restriction is introduced to reduce the overhead of saving and restoring
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co-processor state (which can be quite large) and in particular remove that
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overhead from interrupt handlers.
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The co-processor state save area may be in any convenient per-thread location
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such as in the thread control block or above the thread stack area. It need
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not be in the interrupt stack frame since interrupts don't use co-processors.
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Along with the save area for each co-processor, two bitmasks with flags per
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co-processor (laid out as in the CPENABLE reg) help manage context-switching
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co-processors as efficiently as possible:
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XT_CPENABLE
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The contents of a non-running thread's CPENABLE register.
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It represents the co-processors owned (and whose state is still needed)
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by the thread. When a thread is preempted, its CPENABLE is saved here.
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When a thread solicits a context-swtich, its CPENABLE is cleared - the
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compiler has saved the (caller-saved) co-proc state if it needs to.
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When a non-running thread loses ownership of a CP, its bit is cleared.
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When a thread runs, it's XT_CPENABLE is loaded into the CPENABLE reg.
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Avoids co-processor exceptions when no change of ownership is needed.
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XT_CPSTORED
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A bitmask with the same layout as CPENABLE, a bit per co-processor.
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Indicates whether the state of each co-processor is saved in the state
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save area. When a thread enters the kernel, only the state of co-procs
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still enabled in CPENABLE is saved. When the co-processor exception
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handler assigns ownership of a co-processor to a thread, it restores
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the saved state only if this bit is set, and clears this bit.
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XT_CP_CS_ST
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A bitmask with the same layout as CPENABLE, a bit per co-processor.
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Indicates whether callee-saved state is saved in the state save area.
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Callee-saved state is saved by itself on a solicited context switch,
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and restored when needed by the coprocessor exception handler.
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Unsolicited switches will cause the entire coprocessor to be saved
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when necessary.
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XT_CP_ASA
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Pointer to the aligned save area. Allows it to be aligned more than
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the overall save area (which might only be stack-aligned or TCB-aligned).
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Especially relevant for Xtensa cores configured with a very large data
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path that requires alignment greater than 16 bytes (ABI stack alignment).
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-------------------------------------------------------------------------------
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*/
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#if XCHAL_CP_NUM > 0
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/* Offsets of each coprocessor save area within the 'aligned save area': */
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#define XT_CP0_SA 0
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#define XT_CP1_SA ALIGNUP(XCHAL_CP1_SA_ALIGN, XT_CP0_SA + XCHAL_CP0_SA_SIZE)
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#define XT_CP2_SA ALIGNUP(XCHAL_CP2_SA_ALIGN, XT_CP1_SA + XCHAL_CP1_SA_SIZE)
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#define XT_CP3_SA ALIGNUP(XCHAL_CP3_SA_ALIGN, XT_CP2_SA + XCHAL_CP2_SA_SIZE)
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#define XT_CP4_SA ALIGNUP(XCHAL_CP4_SA_ALIGN, XT_CP3_SA + XCHAL_CP3_SA_SIZE)
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#define XT_CP5_SA ALIGNUP(XCHAL_CP5_SA_ALIGN, XT_CP4_SA + XCHAL_CP4_SA_SIZE)
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#define XT_CP6_SA ALIGNUP(XCHAL_CP6_SA_ALIGN, XT_CP5_SA + XCHAL_CP5_SA_SIZE)
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#define XT_CP7_SA ALIGNUP(XCHAL_CP7_SA_ALIGN, XT_CP6_SA + XCHAL_CP6_SA_SIZE)
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#define XT_CP_SA_SIZE ALIGNUP(16, XT_CP7_SA + XCHAL_CP7_SA_SIZE)
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/* Offsets within the overall save area: */
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#define XT_CPENABLE 0 /* (2 bytes) coprocessors active for this thread */
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#define XT_CPSTORED 2 /* (2 bytes) coprocessors saved for this thread */
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#define XT_CP_CS_ST 4 /* (2 bytes) coprocessor callee-saved regs stored for this thread */
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#define XT_CP_ASA 8 /* (4 bytes) ptr to aligned save area */
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/* Overall size allows for dynamic alignment: */
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#define XT_CP_SIZE (12 + XT_CP_SA_SIZE + XCHAL_TOTAL_SA_ALIGN)
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#else
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#define XT_CP_SIZE 0
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#endif
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/*
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Macro to get the current core ID. Only uses the reg given as an argument.
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Reading PRID on the ESP108 architecture gives us 0xCDCD on the PRO processor
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and 0xABAB on the APP CPU. We distinguish between the two by simply checking
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bit 1: it's 1 on the APP and 0 on the PRO processor.
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*/
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#ifdef __ASSEMBLER__
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.macro getcoreid reg
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rsr.prid \reg
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extui \reg,\reg,13,1
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.endm
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#endif
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/*
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-------------------------------------------------------------------------------
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MACROS TO HANDLE ABI SPECIFICS OF FUNCTION ENTRY AND RETURN
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Convenient where the frame size requirements are the same for both ABIs.
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ENTRY(sz), RET(sz) are for framed functions (have locals or make calls).
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ENTRY0, RET0 are for frameless functions (no locals, no calls).
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where size = size of stack frame in bytes (must be >0 and aligned to 16).
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For framed functions the frame is created and the return address saved at
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base of frame (Call0 ABI) or as determined by hardware (Windowed ABI).
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For frameless functions, there is no frame and return address remains in a0.
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Note: Because CPP macros expand to a single line, macros requiring multi-line
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expansions are implemented as assembler macros.
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-------------------------------------------------------------------------------
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*/
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#ifdef __ASSEMBLER__
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#ifdef __XTENSA_CALL0_ABI__
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/* Call0 */
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#define ENTRY(sz) entry1 sz
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.macro entry1 size=0x10
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addi sp, sp, -\size
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s32i a0, sp, 0
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.endm
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#define ENTRY0
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#define RET(sz) ret1 sz
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.macro ret1 size=0x10
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l32i a0, sp, 0
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addi sp, sp, \size
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ret
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.endm
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#define RET0 ret
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#else
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/* Windowed */
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#define ENTRY(sz) entry sp, sz
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#define ENTRY0 entry sp, 0x10
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#define RET(sz) retw
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#define RET0 retw
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#endif
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#endif
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#endif /* XTENSA_CONTEXT_H */
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