From: Jeroen Domburg <git@j0h.nl>
Date: Wed, 26 Oct 2016 04:23:35 +0000 (+0800)
Subject: Remove superfluous backup files
X-Git-Tag: v1.0~100^2~3
X-Git-Url: https://granicus.if.org/sourcecode?a=commitdiff_plain;h=bb1efe50c3c86c6d466834cef8f5110c0163f404;p=esp-idf

Remove superfluous backup files
---

diff --git a/components/freertos/xtensa_vectors.S-new b/components/freertos/xtensa_vectors.S-new
deleted file mode 100644
index 88349eee9f..0000000000
--- a/components/freertos/xtensa_vectors.S-new
+++ /dev/null
@@ -1,1915 +0,0 @@
-/*******************************************************************************
-Copyright (c) 2006-2015 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.
---------------------------------------------------------------------------------
-
-        XTENSA VECTORS AND LOW LEVEL HANDLERS FOR AN RTOS
-
-  Xtensa low level exception and interrupt vectors and handlers for an RTOS.
-
-  Interrupt handlers and user exception handlers support interaction with
-  the RTOS by calling XT_RTOS_INT_ENTER and XT_RTOS_INT_EXIT before and
-  after user's specific interrupt handlers. These macros are defined in
-  xtensa_<rtos>.h to call suitable functions in a specific RTOS.
-
-  Users can install application-specific interrupt handlers for low and
-  medium level interrupts, by calling xt_set_interrupt_handler(). These
-  handlers can be written in C, and must obey C calling convention. The
-  handler table is indexed by the interrupt number. Each handler may be
-  provided with an argument. 
-
-  Note that the system timer interrupt is handled specially, and is
-  dispatched to the RTOS-specific handler. This timer cannot be hooked
-  by application code.
-
-  Optional hooks are also provided to install a handler per level at 
-  run-time, made available by compiling this source file with 
-  '-DXT_INTEXC_HOOKS' (useful for automated testing).
-
-!!  This file is a template that usually needs to be modified to handle       !!
-!!  application specific interrupts. Search USER_EDIT for helpful comments    !!
-!!  on where to insert handlers and how to write them.                        !!
-
-  Users can also install application-specific exception handlers in the
-  same way, by calling xt_set_exception_handler(). One handler slot is
-  provided for each exception type. Note that some exceptions are handled
-  by the porting layer itself, and cannot be taken over by application
-  code in this manner. These are the alloca, syscall, and coprocessor
-  exceptions.
-
-  The exception handlers can be written in C, and must follow C calling
-  convention. Each handler is passed a pointer to an exception frame as
-  its single argument. The exception frame is created on the stack, and
-  holds the saved context of the thread that took the exception. If the
-  handler returns, the context will be restored and the instruction that
-  caused the exception will be retried. If the handler makes any changes
-  to the saved state in the exception frame, the changes will be applied
-  when restoring the context.
-
-  Because Xtensa is a configurable architecture, this port supports all user
-  generated configurations (except restrictions stated in the release notes).
-  This is accomplished by conditional compilation using macros and functions
-  defined in the Xtensa HAL (hardware adaptation layer) for your configuration.
-  Only the relevant parts of this file will be included in your RTOS build.
-  For example, this file provides interrupt vector templates for all types and
-  all priority levels, but only the ones in your configuration are built.
-
-  NOTES on the use of 'call0' for long jumps instead of 'j':
-   1. This file should be assembled with the -mlongcalls option to xt-xcc.
-   2. The -mlongcalls compiler option causes 'call0 dest' to be expanded to
-      a sequence 'l32r a0, dest' 'callx0 a0' which works regardless of the
-      distance from the call to the destination. The linker then relaxes
-      it back to 'call0 dest' if it determines that dest is within range.
-      This allows more flexibility in locating code without the performance
-      overhead of the 'l32r' literal data load in cases where the destination
-      is in range of 'call0'. There is an additional benefit in that 'call0'
-      has a longer range than 'j' due to the target being word-aligned, so 
-      the 'l32r' sequence is less likely needed.
-   3. The use of 'call0' with -mlongcalls requires that register a0 not be 
-      live at the time of the call, which is always the case for a function 
-      call but needs to be ensured if 'call0' is used as a jump in lieu of 'j'.
-   4. This use of 'call0' is independent of the C function call ABI.
-
-*******************************************************************************/
-
-#include "xtensa_rtos.h"
-
-
-/* Enable stack backtrace across exception/interrupt - see below */
-#define XT_DEBUG_BACKTRACE    1
-
-
-/*
---------------------------------------------------------------------------------
-  Defines used to access _xtos_interrupt_table.
---------------------------------------------------------------------------------
-*/
-#define XIE_HANDLER     0
-#define XIE_ARG         4
-#define XIE_SIZE        8
-
-/*
---------------------------------------------------------------------------------
-  Macro extract_msb - return the input with only the highest bit set.
-
-  Input  : "ain"  - Input value, clobbered.
-  Output : "aout" - Output value, has only one bit set, MSB of "ain".
-  The two arguments must be different AR registers.
---------------------------------------------------------------------------------
-*/
-
-    .macro  extract_msb     aout ain
-1:
-    addi    \aout, \ain, -1         /* aout = ain - 1        */
-    and     \ain, \ain, \aout       /* ain  = ain & aout     */
-    bnez    \ain, 1b                /* repeat until ain == 0 */
-    addi    \aout, \aout, 1         /* return aout + 1       */
-    .endm
-
-/*
---------------------------------------------------------------------------------
-  Macro dispatch_c_isr - dispatch interrupts to user ISRs.
-  This will dispatch to user handlers (if any) that are registered in the
-  XTOS dispatch table (_xtos_interrupt_table). These handlers would have
-  been registered by calling _xtos_set_interrupt_handler(). There is one
-  exception - the timer interrupt used by the OS will not be dispatched
-  to a user handler - this must be handled by the caller of this macro.
-
-  Level triggered and software interrupts are automatically deasserted by
-  this code.
-
-  ASSUMPTIONS:
-    -- PS.INTLEVEL is set to "level" at entry
-    -- PS.EXCM = 0, C calling enabled
-
-  NOTE: For CALL0 ABI, a12-a15 have not yet been saved.
-
-  NOTE: This macro will use registers a0 and a2-a6. The arguments are:
-    level -- interrupt level
-    mask  -- interrupt bitmask for this level
---------------------------------------------------------------------------------
-*/
-
-    .macro  dispatch_c_isr    level  mask
-
-    /* Get mask of pending, enabled interrupts at this level into a2. */
-
-.L_xt_user_int_&level&:
-    rsr     a2, INTENABLE
-    rsr     a3, INTERRUPT
-    movi    a4, \mask
-    and     a2, a2, a3
-    and     a2, a2, a4
-    beqz    a2, 9f                          /* nothing to do */
-
-    /* This bit of code provides a nice debug backtrace in the debugger.
-       It does take a few more instructions, so undef XT_DEBUG_BACKTRACE
-       if you want to save the cycles.
-    */
-    #if XT_DEBUG_BACKTRACE
-    #ifndef __XTENSA_CALL0_ABI__
-    rsr     a0, EPC_1 + \level - 1          /* return address */
-    movi    a4, 0xC0000000                  /* constant with top 2 bits set (call size) */
-    or      a0, a0, a4                      /* set top 2 bits */
-    addx2   a0, a4, a0                      /* clear top bit -- simulating call4 size   */
-    #endif
-    #endif
-
-    #ifdef XT_INTEXC_HOOKS
-    /* Call interrupt hook if present to (pre)handle interrupts. */
-    movi    a4, _xt_intexc_hooks
-    l32i    a4, a4, \level << 2
-    beqz    a4, 2f
-    #ifdef __XTENSA_CALL0_ABI__
-    callx0  a4
-    beqz    a2, 9f
-    #else
-    mov     a6, a2
-    callx4  a4
-    beqz    a6, 9f
-    mov     a2, a6
-    #endif
-2:
-    #endif
-
-    /* Now look up in the dispatch table and call user ISR if any. */
-    /* If multiple bits are set then MSB has highest priority.     */
-
-    extract_msb  a4, a2                     /* a4 = MSB of a2, a2 trashed */
-
-    #ifdef XT_USE_SWPRI
-    /* Enable all interrupts at this level that are numerically higher
-       than the one we just selected, since they are treated as higher
-       priority.
-    */
-    movi    a3, \mask                       /* a3 = all interrupts at this level */
-    add     a2, a4, a4                      /* a2 = a4 << 1 */
-    addi    a2, a2, -1                      /* a2 = mask of 1's <= a4 bit */
-    and     a2, a2, a3                      /* a2 = mask of all bits <= a4 at this level */
-    movi    a3, _xt_intdata
-    l32i    a6, a3, 4                       /* a6 = _xt_vpri_mask */
-    neg     a2, a2
-    addi    a2, a2, -1                      /* a2 = mask to apply */
-    and     a5, a6, a2                      /* mask off all bits <= a4 bit */
-    s32i    a5, a3, 4                       /* update _xt_vpri_mask */
-    rsr     a3, INTENABLE
-    and     a3, a3, a2                      /* mask off all bits <= a4 bit */
-    wsr     a3, INTENABLE
-    rsil    a3, \level - 1                  /* lower interrupt level by 1 */
-    #endif
-
-    movi    a3, XT_TIMER_INTEN              /* a3 = timer interrupt bit */
-    wsr     a4, INTCLEAR                    /* clear sw or edge-triggered interrupt */
-    beq     a3, a4, 7f                      /* if timer interrupt then skip table */
-
-    find_ms_setbit a3, a4, a3, 0            /* a3 = interrupt number */
-
-    movi    a4, _xt_interrupt_table
-    addx8   a3, a3, a4                      /* a3 = address of interrupt table entry */
-    l32i    a4, a3, XIE_HANDLER             /* a4 = handler address */
-    #ifdef __XTENSA_CALL0_ABI__
-    mov     a12, a6                         /* save in callee-saved reg */
-    l32i    a2, a3, XIE_ARG                 /* a2 = handler arg */
-    callx0  a4                              /* call handler */
-    mov     a2, a12
-    #else
-    mov     a2, a6                          /* save in windowed reg */
-    l32i    a6, a3, XIE_ARG                 /* a6 = handler arg */
-    callx4  a4                              /* call handler */
-    #endif
-
-    #ifdef XT_USE_SWPRI
-    j       8f
-    #else
-    j       .L_xt_user_int_&level&          /* check for more interrupts */
-    #endif
-
-7:
-
-    .ifeq XT_TIMER_INTPRI - \level
-.L_xt_user_int_timer_&level&:
-    /*
-    Interrupt handler for the RTOS tick timer if at this level.
-    We'll be reading the interrupt state again after this call
-    so no need to preserve any registers except a6 (vpri_mask).
-    */
-
-    #ifdef __XTENSA_CALL0_ABI__
-    mov     a12, a6
-    call0   XT_RTOS_TIMER_INT
-    mov     a2, a12
-    #else
-    mov     a2, a6
-    call4   XT_RTOS_TIMER_INT
-    #endif
-    .endif
-
-    #ifdef XT_USE_SWPRI
-    j       8f
-    #else
-    j       .L_xt_user_int_&level&          /* check for more interrupts */
-    #endif
-
-    #ifdef XT_USE_SWPRI
-8:
-    /* Restore old value of _xt_vpri_mask from a2. Also update INTENABLE from
-       virtual _xt_intenable which _could_ have changed during interrupt
-       processing. */
-
-    movi    a3, _xt_intdata
-    l32i    a4, a3, 0                       /* a4 = _xt_intenable    */
-    s32i    a2, a3, 4                       /* update _xt_vpri_mask  */
-    and     a4, a4, a2                      /* a4 = masked intenable */
-    wsr     a4, INTENABLE                   /* update INTENABLE      */
-    #endif
-
-9:
-    /* done */
-
-    .endm
-
-
-/*
---------------------------------------------------------------------------------
-  Panic handler.
-  Should be reached by call0 (preferable) or jump only. If call0, a0 says where 
-  from. If on simulator, display panic message and abort, else loop indefinitely.
---------------------------------------------------------------------------------
-*/
-
-    .text
-    .global     _xt_panic
-    .type       _xt_panic,@function
-    .align      4
-
-_xt_panic:
-    #ifdef XT_SIMULATOR
-    addi    a4, a0, -3                      /* point to call0 */
-    movi    a3, _xt_panic_message
-    movi    a2, SYS_log_msg
-    simcall
-    movi    a2, SYS_gdb_abort
-    simcall
-    #else
-    rsil    a2, XCHAL_EXCM_LEVEL            /* disable all low & med ints */
-1:  j       1b                              /* loop infinitely */
-    #endif
-
-    .section    .rodata, "a"
-    .align      4
-
-_xt_panic_message:
-    .string "\n*** _xt_panic() was called from 0x%08x or jumped to. ***\n"
-
-
-/*
---------------------------------------------------------------------------------
-    Hooks to dynamically install handlers for exceptions and interrupts.
-    Allows automated regression frameworks to install handlers per test.
-    Consists of an array of function pointers indexed by interrupt level, 
-    with index 0 containing the entry for user exceptions.
-    Initialized with all 0s, meaning no handler is installed at each level.
-    See comment in xtensa_rtos.h for more details.
---------------------------------------------------------------------------------
-*/
-
-    #ifdef XT_INTEXC_HOOKS
-    .data
-    .global     _xt_intexc_hooks
-    .type       _xt_intexc_hooks,@object
-    .align      4
-
-_xt_intexc_hooks:
-    .fill       XT_INTEXC_HOOK_NUM, 4, 0
-    #endif
-
-
-/*
---------------------------------------------------------------------------------
-  EXCEPTION AND LEVEL 1 INTERRUPT VECTORS AND LOW LEVEL HANDLERS
-  (except window exception vectors).
-
-  Each vector goes at a predetermined location according to the Xtensa
-  hardware configuration, which is ensured by its placement in a special
-  section known to the Xtensa linker support package (LSP). It performs
-  the minimum necessary before jumping to the handler in the .text section.
-
-  The corresponding handler goes in the normal .text section. It sets up
-  the appropriate stack frame, saves a few vector-specific registers and
-  calls XT_RTOS_INT_ENTER to save the rest of the interrupted context
-  and enter the RTOS, then sets up a C environment. It then calls the
-  user's interrupt handler code (which may be coded in C) and finally 
-  calls XT_RTOS_INT_EXIT to transfer control to the RTOS for scheduling.
-
-  While XT_RTOS_INT_EXIT does not return directly to the interruptee,
-  eventually the RTOS scheduler will want to dispatch the interrupted
-  task or handler. The scheduler will return to the exit point that was
-  saved in the interrupt stack frame at XT_STK_EXIT.
---------------------------------------------------------------------------------
-*/
-
-
-/*
---------------------------------------------------------------------------------
-Debug Exception.
---------------------------------------------------------------------------------
-*/
-
-#if XCHAL_HAVE_DEBUG
-
-    .begin      literal_prefix .DebugExceptionVector
-    .section    .DebugExceptionVector.text, "ax"
-    .global     _DebugExceptionVector
-    .align      4
-
-_DebugExceptionVector:
-
-    #ifdef XT_SIMULATOR
-    /*
-    In the simulator, let the debugger (if any) handle the debug exception,
-    or simply stop the simulation:
-    */
-    wsr     a2, EXCSAVE+XCHAL_DEBUGLEVEL    /* save a2 where sim expects it */
-    movi    a2, SYS_gdb_enter_sktloop
-    simcall                                 /* have ISS handle debug exc. */
-    #elif 0 /* change condition to 1 to use the HAL minimal debug handler */
-    wsr     a3, EXCSAVE+XCHAL_DEBUGLEVEL
-    movi    a3, xthal_debugexc_defhndlr_nw  /* use default debug handler */
-    jx      a3
-    #else
-    wsr     a0, EXCSAVE+XCHAL_DEBUGLEVEL    /* save original a0 somewhere */
-    call0   _xt_panic                       /* does not return */
-    rfi     XCHAL_DEBUGLEVEL                /* make a0 point here not later */
-    #endif
-
-    .end        literal_prefix
-
-#endif
-
-/*
---------------------------------------------------------------------------------
-Double Exception.
-Double exceptions are not a normal occurrence. They indicate a bug of some kind.
---------------------------------------------------------------------------------
-*/
-
-#ifdef XCHAL_DOUBLEEXC_VECTOR_VADDR
-
-    .begin      literal_prefix .DoubleExceptionVector
-    .section    .DoubleExceptionVector.text, "ax"
-    .global     _DoubleExceptionVector
-    .align      4
-
-_DoubleExceptionVector:
-
-    #if XCHAL_HAVE_DEBUG
-    break   1, 4                            /* unhandled double exception */
-    #endif
-    call0   _xt_panic                       /* does not return */
-    rfde                                    /* make a0 point here not later */
-
-    .end        literal_prefix
-
-#endif /* XCHAL_DOUBLEEXC_VECTOR_VADDR */
-
-/*
---------------------------------------------------------------------------------
-Kernel Exception (including Level 1 Interrupt from kernel mode).
---------------------------------------------------------------------------------
-*/
-
-    .begin      literal_prefix .KernelExceptionVector
-    .section    .KernelExceptionVector.text, "ax"
-    .global     _KernelExceptionVector
-    .align      4
-
-_KernelExceptionVector:
-
-    wsr     a0, EXCSAVE_1                   /* preserve a0 */
-    call0   _xt_kernel_exc                  /* kernel exception handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .align      4
-
-_xt_kernel_exc:
-    #if XCHAL_HAVE_DEBUG
-    break   1, 0                            /* unhandled kernel exception */
-    #endif
-    call0   _xt_panic                       /* does not return */
-    rfe                                     /* make a0 point here not there */
-
-
-/*
---------------------------------------------------------------------------------
-User Exception (including Level 1 Interrupt from user mode).
---------------------------------------------------------------------------------
-*/
-
-    .begin      literal_prefix .UserExceptionVector
-    .section    .UserExceptionVector.text, "ax"
-    .global     _UserExceptionVector
-    .type       _UserExceptionVector,@function
-    .align      4
-
-_UserExceptionVector:
-
-    wsr     a0, EXCSAVE_1                   /* preserve a0 */
-    call0   _xt_user_exc                    /* user exception handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-/*
---------------------------------------------------------------------------------
-  Insert some waypoints for jumping beyond the signed 8-bit range of
-  conditional branch instructions, so the conditional branchces to specific
-  exception handlers are not taken in the mainline. Saves some cycles in the
-  mainline.
---------------------------------------------------------------------------------
-*/
-
-    .text
-
-    #if XCHAL_HAVE_WINDOWED
-    .align      4
-_xt_to_alloca_exc:
-    call0   _xt_alloca_exc                  /* in window vectors section */
-    /* never returns here - call0 is used as a jump (see note at top) */
-    #endif
-
-    .align      4
-_xt_to_syscall_exc:
-    call0   _xt_syscall_exc
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    #if XCHAL_CP_NUM > 0
-    .align      4
-_xt_to_coproc_exc:
-    call0   _xt_coproc_exc
-    /* never returns here - call0 is used as a jump (see note at top) */
-    #endif
-
-
-/*
---------------------------------------------------------------------------------
-  User exception handler.
---------------------------------------------------------------------------------
-*/
-
-    .type       _xt_user_exc,@function
-    .align      4
-
-_xt_user_exc:
-
-    /* If level 1 interrupt then jump to the dispatcher */
-    rsr     a0, EXCCAUSE
-    beqi    a0, EXCCAUSE_LEVEL1INTERRUPT, _xt_lowint1
-
-    /* Handle any coprocessor exceptions. Rely on the fact that exception
-       numbers above EXCCAUSE_CP0_DISABLED all relate to the coprocessors.
-    */
-    #if XCHAL_CP_NUM > 0
-    bgeui   a0, EXCCAUSE_CP0_DISABLED, _xt_to_coproc_exc
-    #endif
-
-    /* Handle alloca and syscall exceptions */
-    #if XCHAL_HAVE_WINDOWED
-    beqi    a0, EXCCAUSE_ALLOCA,  _xt_to_alloca_exc
-    #endif
-    beqi    a0, EXCCAUSE_SYSCALL, _xt_to_syscall_exc
-
-    /* Handle all other exceptions. All can have user-defined handlers. */
-    /* NOTE: we'll stay on the user stack for exception handling.       */
-
-    /* Allocate exception frame and save minimal context. */
-    mov     a0, sp
-    addi    sp, sp, -XT_STK_FRMSZ
-    s32i    a0, sp, XT_STK_A1
-    #if XCHAL_HAVE_WINDOWED
-    s32e    a0, sp, -12                     /* for debug backtrace */
-    #endif
-    rsr     a0, PS                          /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_1                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_1                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    #if XCHAL_HAVE_WINDOWED
-    s32e    a0, sp, -16                     /* for debug backtrace */
-    #endif
-    s32i    a12, sp, XT_STK_A12             /* _xt_context_save requires A12- */
-    s32i    a13, sp, XT_STK_A13             /* A13 to have already been saved */
-    call0   _xt_context_save
-
-    /* Save exc cause and vaddr into exception frame */
-    rsr     a0, EXCCAUSE
-    s32i    a0, sp, XT_STK_EXCCAUSE
-    rsr     a0, EXCVADDR
-    s32i    a0, sp, XT_STK_EXCVADDR
-
-    /* Set up PS for C, reenable hi-pri interrupts, and clear EXCM. */
-    #ifdef __XTENSA_CALL0_ABI__
-    movi    a0, PS_INTLEVEL(XCHAL_EXCM_LEVEL) | PS_UM
-    #else
-    movi    a0, PS_INTLEVEL(XCHAL_EXCM_LEVEL) | PS_UM | PS_WOE
-    #endif
-    wsr     a0, PS
-
-    #ifdef XT_DEBUG_BACKTRACE
-    #ifndef __XTENSA_CALL0_ABI__
-    rsr     a0, EPC_1                       /* return address for debug backtrace */
-    movi    a5, 0xC0000000                  /* constant with top 2 bits set (call size) */
-    rsync                                   /* wait for WSR.PS to complete */
-    or      a0, a0, a5                      /* set top 2 bits */
-    addx2   a0, a5, a0                      /* clear top bit -- thus simulating call4 size */
-    #else
-    rsync                                   /* wait for WSR.PS to complete */
-    #endif
-    #endif
-
-    rsr     a2, EXCCAUSE                    /* recover exc cause */
-
-    #ifdef XT_INTEXC_HOOKS
-    /*
-    Call exception hook to pre-handle exceptions (if installed).
-    Pass EXCCAUSE in a2, and check result in a2 (if -1, skip default handling).
-    */
-    movi    a4, _xt_intexc_hooks
-    l32i    a4, a4, 0                       /* user exception hook index 0 */
-    beqz    a4, 1f
-.Ln_xt_user_exc_call_hook:
-    #ifdef __XTENSA_CALL0_ABI__
-    callx0  a4
-    beqi    a2, -1, .L_xt_user_done
-    #else
-    mov     a6, a2
-    callx4  a4
-    beqi    a6, -1, .L_xt_user_done
-    mov     a2, a6
-    #endif
-1:
-    #endif
-
-    rsr     a2, EXCCAUSE                    /* recover exc cause */
-    movi    a3, _xt_exception_table
-    addx4   a4, a2, a3                      /* a4 = address of exception table entry */
-    l32i    a4, a4, 0                       /* a4 = handler address */
-    #ifdef __XTENSA_CALL0_ABI__
-    mov     a2, sp                          /* a2 = pointer to exc frame */
-    callx0  a4                              /* call handler */
-    #else
-    mov     a6, sp                          /* a6 = pointer to exc frame */
-    callx4  a4                              /* call handler */
-    #endif
-
-.L_xt_user_done:
-
-    /* Restore context and return */
-    call0   _xt_context_restore
-    l32i    a0, sp, XT_STK_PS               /* retrieve interruptee's PS */
-    wsr     a0, PS
-    l32i    a0, sp, XT_STK_PC               /* retrieve interruptee's PC */
-    wsr     a0, EPC_1
-    l32i    a0, sp, XT_STK_A0               /* retrieve interruptee's A0 */
-    l32i    sp, sp, XT_STK_A1               /* remove exception frame */
-    rsync                                   /* ensure PS and EPC written */
-    rfe                                     /* PS.EXCM is cleared */
-
-
-/*
---------------------------------------------------------------------------------
-  Exit point for dispatch. Saved in interrupt stack frame at XT_STK_EXIT
-  on entry and used to return to a thread or interrupted interrupt handler.
---------------------------------------------------------------------------------
-*/
-
-    .global     _xt_user_exit
-    .type       _xt_user_exit,@function
-    .align      4
-_xt_user_exit:
-    l32i    a0, sp, XT_STK_PS               /* retrieve interruptee's PS */
-    wsr     a0, PS
-    l32i    a0, sp, XT_STK_PC               /* retrieve interruptee's PC */
-    wsr     a0, EPC_1
-    l32i    a0, sp, XT_STK_A0               /* retrieve interruptee's A0 */
-    l32i    sp, sp, XT_STK_A1               /* remove interrupt stack frame */
-    rsync                                   /* ensure PS and EPC written */
-    rfe                                     /* PS.EXCM is cleared */
-
-
-/*
---------------------------------------------------------------------------------
-Syscall Exception Handler (jumped to from User Exception Handler).
-Syscall 0 is required to spill the register windows (no-op in Call 0 ABI).
-Only syscall 0 is handled here. Other syscalls return -1 to caller in a2.
---------------------------------------------------------------------------------
-*/
-
-    .text
-    .type       _xt_syscall_exc,@function
-    .align      4
-_xt_syscall_exc:
-
-    #ifdef __XTENSA_CALL0_ABI__
-    /*
-    Save minimal regs for scratch. Syscall 0 does nothing in Call0 ABI.
-    Use a minimal stack frame (16B) to save A2 & A3 for scratch.
-    PS.EXCM could be cleared here, but unlikely to improve worst-case latency.
-    rsr     a0, PS
-    addi    a0, a0, -PS_EXCM_MASK
-    wsr     a0, PS
-    */
-    addi    sp, sp, -16
-    s32i    a2, sp, 8
-    s32i    a3, sp, 12
-    #else   /* Windowed ABI */
-    /*
-    Save necessary context and spill the register windows.
-    PS.EXCM is still set and must remain set until after the spill.
-    Reuse context save function though it saves more than necessary.
-    For this reason, a full interrupt stack frame is allocated.
-    */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a12, sp, XT_STK_A12             /* _xt_context_save requires A12- */
-    s32i    a13, sp, XT_STK_A13             /* A13 to have already been saved */
-    call0   _xt_context_save
-    #endif
-
-    /*
-    Grab the interruptee's PC and skip over the 'syscall' instruction.
-    If it's at the end of a zero-overhead loop and it's not on the last
-    iteration, decrement loop counter and skip to beginning of loop.
-    */
-    rsr     a2, EPC_1                       /* a2 = PC of 'syscall' */
-    addi    a3, a2, 3                       /* ++PC                 */
-    #if XCHAL_HAVE_LOOPS
-    rsr     a0, LEND                        /* if (PC == LEND       */
-    bne     a3, a0, 1f
-    rsr     a0, LCOUNT                      /*     && LCOUNT != 0)  */
-    beqz    a0, 1f                          /* {                    */
-    addi    a0, a0, -1                      /*   --LCOUNT           */
-    rsr     a3, LBEG                        /*   PC = LBEG          */
-    wsr     a0, LCOUNT                      /* }                    */
-    #endif
-1:  wsr     a3, EPC_1                       /* update PC            */
-
-    /* Restore interruptee's context and return from exception. */
-    #ifdef __XTENSA_CALL0_ABI__
-    l32i    a2, sp, 8
-    l32i    a3, sp, 12
-    addi    sp, sp, 16
-    #else
-    call0   _xt_context_restore
-    addi    sp, sp, XT_STK_FRMSZ
-    #endif
-    movi    a0, -1
-    movnez  a2, a0, a2                      /* return -1 if not syscall 0 */
-    rsr     a0, EXCSAVE_1
-    rfe
-
-/*
---------------------------------------------------------------------------------
-Co-Processor Exception Handler (jumped to from User Exception Handler).
-These exceptions are generated by co-processor instructions, which are only
-allowed in thread code (not in interrupts or kernel code). This restriction is 
-deliberately imposed to reduce the burden of state-save/restore in interrupts.
---------------------------------------------------------------------------------
-*/
-#if XCHAL_CP_NUM > 0
-
-    .section .rodata, "a"
-
-/* Offset to CP n save area in thread's CP save area. */
-    .global _xt_coproc_sa_offset
-    .type   _xt_coproc_sa_offset,@object
-    .align  16                      /* minimize crossing cache boundaries */
-_xt_coproc_sa_offset:
-    .word   XT_CP0_SA, XT_CP1_SA, XT_CP2_SA, XT_CP3_SA
-    .word   XT_CP4_SA, XT_CP5_SA, XT_CP6_SA, XT_CP7_SA
-
-/* Bitmask for CP n's CPENABLE bit. */
-    .type   _xt_coproc_mask,@object
-    .align  16,,8                   /* try to keep it all in one cache line */
-    .set    i, 0
-_xt_coproc_mask:
-    .rept   XCHAL_CP_MAX
-    .long   (i<<16) | (1<<i)    // upper 16-bits = i, lower = bitmask
-    .set    i, i+1
-    .endr
-
-    .data
-
-/* Owner thread of CP n, identified by thread's CP save area (0 = unowned). */
-    .global _xt_coproc_owner_sa
-    .type   _xt_coproc_owner_sa,@object
-    .align  16,,XCHAL_CP_MAX<<2     /* minimize crossing cache boundaries */
-_xt_coproc_owner_sa:
-    .space  XCHAL_CP_MAX << 2
-
-    .text
-
-
-    .align  4
-.L_goto_invalid:
-    j   .L_xt_coproc_invalid    /* not in a thread (invalid) */
-    .align  4
-.L_goto_done:
-    j   .L_xt_coproc_done
-
-
-/*
---------------------------------------------------------------------------------
-  Coprocessor exception handler.
-  At entry, only a0 has been saved (in EXCSAVE_1).
---------------------------------------------------------------------------------
-*/
-
-    .type   _xt_coproc_exc,@function
-    .align  4
-
-_xt_coproc_exc:
-
-    /* Allocate interrupt stack frame and save minimal context. */
-    mov     a0, sp                          /* sp == a1 */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a0, sp, XT_STK_A1               /* save pre-interrupt SP */
-    #if XCHAL_HAVE_WINDOWED
-    s32e    a0, sp, -12                     /* for debug backtrace */
-    #endif
-    rsr     a0, PS                          /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_1                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_1                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    #if XCHAL_HAVE_WINDOWED
-    s32e    a0, sp, -16                     /* for debug backtrace */
-    #endif
-    movi    a0, _xt_user_exit               /* save exit point for dispatch */
-    s32i    a0, sp, XT_STK_EXIT
-
-    rsr     a0, EXCCAUSE
-    s32i    a5, sp, XT_STK_A5               /* save a5 */
-    addi    a5, a0, -EXCCAUSE_CP0_DISABLED  /* a5 = CP index */
-
-    /* Save a few more of interruptee's registers (a5 was already saved). */
-    s32i    a2,  sp, XT_STK_A2
-    s32i    a3,  sp, XT_STK_A3
-    s32i    a4,  sp, XT_STK_A4
-    s32i    a15, sp, XT_STK_A15
-
-    /* Get co-processor state save area of new owner thread. */
-    call0   XT_RTOS_CP_STATE                /* a15 = new owner's save area */
-    beqz    a15, .L_goto_invalid            /* not in a thread (invalid) */
-
-    /* Enable the co-processor's bit in CPENABLE. */
-    movi    a0, _xt_coproc_mask
-    rsr     a4, CPENABLE                    /* a4 = CPENABLE */
-    addx4   a0, a5, a0                      /* a0 = &_xt_coproc_mask[n] */
-    l32i    a0, a0, 0                       /* a0 = (n << 16) | (1 << n) */
-    movi    a3, _xt_coproc_owner_sa     /* (placed here for load slot) */
-    extui   a2, a0, 0, 16                   /* coprocessor bitmask portion */
-    or      a4, a4, a2                      /* a4 = CPENABLE | (1 << n) */
-    wsr     a4, CPENABLE
-
-    /* Get old coprocessor owner thread (save area ptr) and assign new one.  */
-    addx4   a3,  a5, a3                      /* a3 = &_xt_coproc_owner_sa[n] */
-    l32i    a2,  a3, 0                       /* a2 = old owner's save area */
-    s32i    a15, a3, 0                       /* _xt_coproc_owner_sa[n] = new */
-    rsync                                    /* ensure wsr.CPENABLE is complete */
-
-    /* Only need to context switch if new owner != old owner. */
-    beq     a15, a2, .L_goto_done           /* new owner == old, we're done */
-
-    /* If no old owner then nothing to save. */
-    beqz    a2, .L_check_new
-
-    /* If old owner not actively using CP then nothing to save. */
-    l16ui   a4,  a2,  XT_CPENABLE           /* a4 = old owner's CPENABLE */
-    bnone   a4,  a0,  .L_check_new          /* old owner not using CP    */
-
-.L_save_old:
-    /* Save old owner's coprocessor state. */
-
-    movi    a5, _xt_coproc_sa_offset
-
-    /* Mark old owner state as no longer active (CPENABLE bit n clear). */
-    xor     a4,  a4,  a0                    /* clear CP bit in CPENABLE    */
-    s16i    a4,  a2,  XT_CPENABLE           /* update old owner's CPENABLE */
-
-    extui   a4,  a0,  16,  5                /* a4 = CP index = n */
-    addx4   a5,  a4,  a5                    /* a5 = &_xt_coproc_sa_offset[n] */
-
-    /* Mark old owner state as saved (CPSTORED bit n set). */
-    l16ui   a4,  a2,  XT_CPSTORED           /* a4 = old owner's CPSTORED */
-    l32i    a5,  a5,  0                     /* a5 = XT_CP[n]_SA offset */
-    or      a4,  a4,  a0                    /* set CP in old owner's CPSTORED */
-    s16i    a4,  a2,  XT_CPSTORED           /* update old owner's CPSTORED */
-    l32i    a2, a2, XT_CP_ASA               /* ptr to actual (aligned) save area */
-    extui   a3, a0, 16, 5                   /* a3 = CP index = n */
-    add     a2, a2, a5                      /* a2 = old owner's area for CP n */
-
-    /*
-    The config-specific HAL macro invoked below destroys a2-5, preserves a0-1.
-    It is theoretically possible for Xtensa processor designers to write TIE 
-    that causes more address registers to be affected, but it is generally 
-    unlikely. If that ever happens, more registers needs to be saved/restored
-    around this macro invocation, and the value in a15 needs to be recomputed.
-    */
-    xchal_cpi_store_funcbody
-
-.L_check_new:
-    /* Check if any state has to be restored for new owner. */
-    /* NOTE: a15 = new owner's save area, cannot be zero when we get here. */
-
-    l16ui   a3,  a15, XT_CPSTORED           /* a3 = new owner's CPSTORED */
-    movi    a4, _xt_coproc_sa_offset
-    bnone   a3,  a0,  .L_check_cs           /* full CP not saved, check callee-saved */
-    xor     a3,  a3,  a0                    /* CPSTORED bit is set, clear it */
-    s16i    a3,  a15, XT_CPSTORED           /* update new owner's CPSTORED */
-
-    /* Adjust new owner's save area pointers to area for CP n. */
-    extui   a3,  a0, 16, 5                  /* a3 = CP index = n */
-    addx4   a4,  a3, a4                     /* a4 = &_xt_coproc_sa_offset[n] */
-    l32i    a4,  a4, 0                      /* a4 = XT_CP[n]_SA */
-    l32i    a5, a15, XT_CP_ASA              /* ptr to actual (aligned) save area */
-    add     a2,  a4, a5                     /* a2 = new owner's area for CP */
-
-    /*
-    The config-specific HAL macro invoked below destroys a2-5, preserves a0-1.
-    It is theoretically possible for Xtensa processor designers to write TIE 
-    that causes more address registers to be affected, but it is generally 
-    unlikely. If that ever happens, more registers needs to be saved/restored
-    around this macro invocation.
-    */
-    xchal_cpi_load_funcbody
-
-    /* Restore interruptee's saved registers. */
-    /* Can omit rsync for wsr.CPENABLE here because _xt_user_exit does it. */
-.L_xt_coproc_done:
-    l32i    a15, sp, XT_STK_A15
-    l32i    a5,  sp, XT_STK_A5
-    l32i    a4,  sp, XT_STK_A4
-    l32i    a3,  sp, XT_STK_A3
-    l32i    a2,  sp, XT_STK_A2
-    call0   _xt_user_exit                   /* return via exit dispatcher */
-    /* Never returns here - call0 is used as a jump (see note at top) */
-
-.L_check_cs:
-    /* a0 = CP mask in low bits, a15 = new owner's save area */
-    l16ui   a2, a15, XT_CP_CS_ST            /* a2 = mask of CPs saved    */
-    bnone   a2,  a0, .L_xt_coproc_done      /* if no match then done     */
-    and     a2,  a2, a0                     /* a2 = which CPs to restore */
-    extui   a2,  a2, 0, 8                   /* extract low 8 bits        */
-    s32i    a6,  sp, XT_STK_A6              /* save extra needed regs    */
-    s32i    a7,  sp, XT_STK_A7
-    s32i    a13, sp, XT_STK_A13
-    s32i    a14, sp, XT_STK_A14
-    call0   _xt_coproc_restorecs            /* restore CP registers      */
-    l32i    a6,  sp, XT_STK_A6              /* restore saved registers   */
-    l32i    a7,  sp, XT_STK_A7
-    l32i    a13, sp, XT_STK_A13
-    l32i    a14, sp, XT_STK_A14
-    j       .L_xt_coproc_done
-
-    /* Co-processor exception occurred outside a thread (not supported). */
-.L_xt_coproc_invalid:
-    #if XCHAL_HAVE_DEBUG
-    break   1, 1                            /* unhandled user exception */
-    #endif
-    call0   _xt_panic                       /* not in a thread (invalid) */
-    /* never returns */
-
-
-#endif /* XCHAL_CP_NUM */
-
-
-/*
--------------------------------------------------------------------------------
-  Level 1 interrupt dispatch. Assumes stack frame has not been allocated yet.
--------------------------------------------------------------------------------
-*/
-
-    .text   
-    .type       _xt_lowint1,@function
-    .align      4
-
-_xt_lowint1:
-    mov     a0, sp                          /* sp == a1 */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a0, sp, XT_STK_A1               /* save pre-interrupt SP */
-    rsr     a0, PS                          /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_1                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_1                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    movi    a0, _xt_user_exit               /* save exit point for dispatch */
-    s32i    a0, sp, XT_STK_EXIT
-
-    /* Save rest of interrupt context and enter RTOS. */
-    call0   XT_RTOS_INT_ENTER               /* common RTOS interrupt entry */
-
-    /* !! We are now on the RTOS system stack !! */ 
-
-    /* Set up PS for C, enable interrupts above this level and clear EXCM. */
-    #ifdef __XTENSA_CALL0_ABI__
-    movi    a0, PS_INTLEVEL(1) | PS_UM
-    #else 
-    movi    a0, PS_INTLEVEL(1) | PS_UM | PS_WOE
-    #endif
-    wsr     a0, PS
-    rsync
-
-    /* OK to call C code at this point, dispatch user ISRs */
-
-    dispatch_c_isr 1 XCHAL_INTLEVEL1_MASK
-
-    /* Done handling interrupts, transfer control to OS */
-    call0   XT_RTOS_INT_EXIT                /* does not return directly here */
-
-
-/*
--------------------------------------------------------------------------------
-  MEDIUM PRIORITY (LEVEL 2+) INTERRUPT VECTORS AND LOW LEVEL HANDLERS.
-
-  Medium priority interrupts are by definition those with priority greater
-  than 1 and not greater than XCHAL_EXCM_LEVEL. These are disabled by
-  setting PS.EXCM and therefore can easily support a C environment for
-  handlers in C, and interact safely with an RTOS.
-
-  Each vector goes at a predetermined location according to the Xtensa
-  hardware configuration, which is ensured by its placement in a special
-  section known to the Xtensa linker support package (LSP). It performs
-  the minimum necessary before jumping to the handler in the .text section.
-
-  The corresponding handler goes in the normal .text section. It sets up
-  the appropriate stack frame, saves a few vector-specific registers and
-  calls XT_RTOS_INT_ENTER to save the rest of the interrupted context
-  and enter the RTOS, then sets up a C environment. It then calls the
-  user's interrupt handler code (which may be coded in C) and finally 
-  calls XT_RTOS_INT_EXIT to transfer control to the RTOS for scheduling.
-
-  While XT_RTOS_INT_EXIT does not return directly to the interruptee,
-  eventually the RTOS scheduler will want to dispatch the interrupted
-  task or handler. The scheduler will return to the exit point that was
-  saved in the interrupt stack frame at XT_STK_EXIT.
--------------------------------------------------------------------------------
-*/
-
-#if XCHAL_EXCM_LEVEL >= 2
-
-    .begin      literal_prefix .Level2InterruptVector
-    .section    .Level2InterruptVector.text, "ax"
-    .global     _Level2Vector
-    .type       _Level2Vector,@function
-    .align      4
-_Level2Vector:
-    wsr     a0, EXCSAVE_2                   /* preserve a0 */
-    call0   _xt_medint2                     /* load interrupt handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_medint2,@function
-    .align      4
-_xt_medint2:
-    mov     a0, sp                          /* sp == a1 */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a0, sp, XT_STK_A1               /* save pre-interrupt SP */
-    rsr     a0, EPS_2                       /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_2                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_2                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    movi    a0, _xt_medint2_exit            /* save exit point for dispatch */
-    s32i    a0, sp, XT_STK_EXIT
-
-    /* Save rest of interrupt context and enter RTOS. */
-    call0   XT_RTOS_INT_ENTER               /* common RTOS interrupt entry */
-
-    /* !! We are now on the RTOS system stack !! */
-
-    /* Set up PS for C, enable interrupts above this level and clear EXCM. */
-    #ifdef __XTENSA_CALL0_ABI__
-    movi    a0, PS_INTLEVEL(2) | PS_UM
-    #else
-    movi    a0, PS_INTLEVEL(2) | PS_UM | PS_WOE
-    #endif
-    wsr     a0, PS
-    rsync
-
-    /* OK to call C code at this point, dispatch user ISRs */
-
-    dispatch_c_isr 2 XCHAL_INTLEVEL2_MASK
-
-    /* Done handling interrupts, transfer control to OS */
-    call0   XT_RTOS_INT_EXIT                /* does not return directly here */
-
-    /*
-    Exit point for dispatch. Saved in interrupt stack frame at XT_STK_EXIT
-    on entry and used to return to a thread or interrupted interrupt handler.
-    */
-    .global     _xt_medint2_exit
-    .type       _xt_medint2_exit,@function
-    .align      4
-_xt_medint2_exit:
-    /* Restore only level-specific regs (the rest were already restored) */
-    l32i    a0, sp, XT_STK_PS               /* retrieve interruptee's PS */
-    wsr     a0, EPS_2
-    l32i    a0, sp, XT_STK_PC               /* retrieve interruptee's PC */
-    wsr     a0, EPC_2
-    l32i    a0, sp, XT_STK_A0               /* retrieve interruptee's A0 */
-    l32i    sp, sp, XT_STK_A1               /* remove interrupt stack frame */
-    rsync                                   /* ensure EPS and EPC written */
-    rfi     2
-
-#endif  /* Level 2 */
-
-#if XCHAL_EXCM_LEVEL >= 3
-
-    .begin      literal_prefix .Level3InterruptVector
-    .section    .Level3InterruptVector.text, "ax"
-    .global     _Level3Vector
-    .type       _Level3Vector,@function
-    .align      4
-_Level3Vector:
-    wsr     a0, EXCSAVE_3                   /* preserve a0 */
-    call0   _xt_medint3                     /* load interrupt handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_medint3,@function
-    .align      4
-_xt_medint3:
-    mov     a0, sp                          /* sp == a1 */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a0, sp, XT_STK_A1               /* save pre-interrupt SP */
-    rsr     a0, EPS_3                       /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_3                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_3                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    movi    a0, _xt_medint3_exit            /* save exit point for dispatch */
-    s32i    a0, sp, XT_STK_EXIT
-
-    /* Save rest of interrupt context and enter RTOS. */
-    call0   XT_RTOS_INT_ENTER               /* common RTOS interrupt entry */
-
-    /* !! We are now on the RTOS system stack !! */
-
-    /* Set up PS for C, enable interrupts above this level and clear EXCM. */
-    #ifdef __XTENSA_CALL0_ABI__
-    movi    a0, PS_INTLEVEL(3) | PS_UM
-    #else
-    movi    a0, PS_INTLEVEL(3) | PS_UM | PS_WOE
-    #endif
-    wsr     a0, PS
-    rsync
-
-    /* OK to call C code at this point, dispatch user ISRs */
-
-    dispatch_c_isr 3 XCHAL_INTLEVEL3_MASK
-
-    /* Done handling interrupts, transfer control to OS */
-    call0   XT_RTOS_INT_EXIT                /* does not return directly here */
-
-    /*
-    Exit point for dispatch. Saved in interrupt stack frame at XT_STK_EXIT
-    on entry and used to return to a thread or interrupted interrupt handler.
-    */
-    .global     _xt_medint3_exit
-    .type       _xt_medint3_exit,@function
-    .align      4
-_xt_medint3_exit:
-    /* Restore only level-specific regs (the rest were already restored) */
-    l32i    a0, sp, XT_STK_PS               /* retrieve interruptee's PS */
-    wsr     a0, EPS_3
-    l32i    a0, sp, XT_STK_PC               /* retrieve interruptee's PC */
-    wsr     a0, EPC_3
-    l32i    a0, sp, XT_STK_A0               /* retrieve interruptee's A0 */
-    l32i    sp, sp, XT_STK_A1               /* remove interrupt stack frame */
-    rsync                                   /* ensure EPS and EPC written */
-    rfi     3
-
-#endif  /* Level 3 */
-
-#if XCHAL_EXCM_LEVEL >= 4
-
-    .begin      literal_prefix .Level4InterruptVector
-    .section    .Level4InterruptVector.text, "ax"
-    .global     _Level4Vector
-    .type       _Level4Vector,@function
-    .align      4
-_Level4Vector:
-    wsr     a0, EXCSAVE_4                   /* preserve a0 */
-    call0   _xt_medint4                     /* load interrupt handler */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_medint4,@function
-    .align      4
-_xt_medint4:
-    mov     a0, sp                          /* sp == a1 */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a0, sp, XT_STK_A1               /* save pre-interrupt SP */
-    rsr     a0, EPS_4                       /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_4                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_4                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    movi    a0, _xt_medint4_exit            /* save exit point for dispatch */
-    s32i    a0, sp, XT_STK_EXIT
-
-    /* Save rest of interrupt context and enter RTOS. */
-    call0   XT_RTOS_INT_ENTER               /* common RTOS interrupt entry */
-
-    /* !! We are now on the RTOS system stack !! */
-
-    /* Set up PS for C, enable interrupts above this level and clear EXCM. */
-    #ifdef __XTENSA_CALL0_ABI__
-    movi    a0, PS_INTLEVEL(4) | PS_UM
-    #else
-    movi    a0, PS_INTLEVEL(4) | PS_UM | PS_WOE
-    #endif
-    wsr     a0, PS
-    rsync
-
-    /* OK to call C code at this point, dispatch user ISRs */
-
-    dispatch_c_isr 4 XCHAL_INTLEVEL4_MASK
-
-    /* Done handling interrupts, transfer control to OS */
-    call0   XT_RTOS_INT_EXIT                /* does not return directly here */
-
-    /*
-    Exit point for dispatch. Saved in interrupt stack frame at XT_STK_EXIT
-    on entry and used to return to a thread or interrupted interrupt handler.
-    */
-    .global     _xt_medint4_exit
-    .type       _xt_medint4_exit,@function
-    .align      4
-_xt_medint4_exit:
-    /* Restore only level-specific regs (the rest were already restored) */
-    l32i    a0, sp, XT_STK_PS               /* retrieve interruptee's PS */
-    wsr     a0, EPS_4
-    l32i    a0, sp, XT_STK_PC               /* retrieve interruptee's PC */
-    wsr     a0, EPC_4
-    l32i    a0, sp, XT_STK_A0               /* retrieve interruptee's A0 */
-    l32i    sp, sp, XT_STK_A1               /* remove interrupt stack frame */
-    rsync                                   /* ensure EPS and EPC written */
-    rfi     4
-
-#endif  /* Level 4 */
-
-#if XCHAL_EXCM_LEVEL >= 5
-
-    .begin      literal_prefix .Level5InterruptVector
-    .section    .Level5InterruptVector.text, "ax"
-    .global     _Level5Vector
-    .type       _Level5Vector,@function
-    .align      4
-_Level5Vector:
-    wsr     a0, EXCSAVE_5                   /* preserve a0 */
-    call0   _xt_medint5                     /* load interrupt handler */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_medint5,@function
-    .align      4
-_xt_medint5:
-    mov     a0, sp                          /* sp == a1 */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a0, sp, XT_STK_A1               /* save pre-interrupt SP */
-    rsr     a0, EPS_5                       /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_5                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_5                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    movi    a0, _xt_medint5_exit            /* save exit point for dispatch */
-    s32i    a0, sp, XT_STK_EXIT
-
-    /* Save rest of interrupt context and enter RTOS. */
-    call0   XT_RTOS_INT_ENTER               /* common RTOS interrupt entry */
-
-    /* !! We are now on the RTOS system stack !! */
-
-    /* Set up PS for C, enable interrupts above this level and clear EXCM. */
-    #ifdef __XTENSA_CALL0_ABI__
-    movi    a0, PS_INTLEVEL(5) | PS_UM
-    #else
-    movi    a0, PS_INTLEVEL(5) | PS_UM | PS_WOE
-    #endif
-    wsr     a0, PS
-    rsync
-
-    /* OK to call C code at this point, dispatch user ISRs */
-
-    dispatch_c_isr 5 XCHAL_INTLEVEL5_MASK
-
-    /* Done handling interrupts, transfer control to OS */
-    call0   XT_RTOS_INT_EXIT                /* does not return directly here */
-
-    /*
-    Exit point for dispatch. Saved in interrupt stack frame at XT_STK_EXIT
-    on entry and used to return to a thread or interrupted interrupt handler.
-    */
-    .global     _xt_medint5_exit
-    .type       _xt_medint5_exit,@function
-    .align      4
-_xt_medint5_exit:
-    /* Restore only level-specific regs (the rest were already restored) */
-    l32i    a0, sp, XT_STK_PS               /* retrieve interruptee's PS */
-    wsr     a0, EPS_5
-    l32i    a0, sp, XT_STK_PC               /* retrieve interruptee's PC */
-    wsr     a0, EPC_5
-    l32i    a0, sp, XT_STK_A0               /* retrieve interruptee's A0 */
-    l32i    sp, sp, XT_STK_A1               /* remove interrupt stack frame */
-    rsync                                   /* ensure EPS and EPC written */
-    rfi     5
-
-#endif  /* Level 5 */
-
-#if XCHAL_EXCM_LEVEL >= 6
-
-    .begin      literal_prefix .Level6InterruptVector
-    .section    .Level6InterruptVector.text, "ax"
-    .global     _Level6Vector
-    .type       _Level6Vector,@function
-    .align      4
-_Level6Vector:
-    wsr     a0, EXCSAVE_6                   /* preserve a0 */
-    call0   _xt_medint6                     /* load interrupt handler */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_medint6,@function
-    .align      4
-_xt_medint6:
-    mov     a0, sp                          /* sp == a1 */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a0, sp, XT_STK_A1               /* save pre-interrupt SP */
-    rsr     a0, EPS_6                       /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_6                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_6                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    movi    a0, _xt_medint6_exit            /* save exit point for dispatch */
-    s32i    a0, sp, XT_STK_EXIT
-
-    /* Save rest of interrupt context and enter RTOS. */
-    call0   XT_RTOS_INT_ENTER               /* common RTOS interrupt entry */
-
-    /* !! We are now on the RTOS system stack !! */
-
-    /* Set up PS for C, enable interrupts above this level and clear EXCM. */
-    #ifdef __XTENSA_CALL0_ABI__
-    movi    a0, PS_INTLEVEL(6) | PS_UM
-    #else
-    movi    a0, PS_INTLEVEL(6) | PS_UM | PS_WOE
-    #endif
-    wsr     a0, PS
-    rsync
-
-    /* OK to call C code at this point, dispatch user ISRs */
-
-    dispatch_c_isr 6 XCHAL_INTLEVEL6_MASK
-
-    /* Done handling interrupts, transfer control to OS */
-    call0   XT_RTOS_INT_EXIT                /* does not return directly here */
-
-    /*
-    Exit point for dispatch. Saved in interrupt stack frame at XT_STK_EXIT
-    on entry and used to return to a thread or interrupted interrupt handler.
-    */
-    .global     _xt_medint6_exit
-    .type       _xt_medint6_exit,@function
-    .align      4
-_xt_medint6_exit:
-    /* Restore only level-specific regs (the rest were already restored) */
-    l32i    a0, sp, XT_STK_PS               /* retrieve interruptee's PS */
-    wsr     a0, EPS_6
-    l32i    a0, sp, XT_STK_PC               /* retrieve interruptee's PC */
-    wsr     a0, EPC_6
-    l32i    a0, sp, XT_STK_A0               /* retrieve interruptee's A0 */
-    l32i    sp, sp, XT_STK_A1               /* remove interrupt stack frame */
-    rsync                                   /* ensure EPS and EPC written */
-    rfi     6
-
-#endif  /* Level 6 */
-
-
-/*******************************************************************************
-
-HIGH PRIORITY (LEVEL > XCHAL_EXCM_LEVEL) INTERRUPT VECTORS AND HANDLERS
-
-High priority interrupts are by definition those with priorities greater
-than XCHAL_EXCM_LEVEL. This includes non-maskable (NMI). High priority
-interrupts cannot interact with the RTOS, that is they must save all regs
-they use and not call any RTOS function.
-
-A further restriction imposed by the Xtensa windowed architecture is that
-high priority interrupts must not modify the stack area even logically
-"above" the top of the interrupted stack (they need to provide their
-own stack or static save area).
-
-Cadence Design Systems recommends high priority interrupt handlers be coded in assembly
-and used for purposes requiring very short service times.
-
-Here are templates for high priority (level 2+) interrupt vectors.
-They assume only one interrupt per level to avoid the burden of identifying
-which interrupts at this level are pending and enabled. This allows for 
-minimum latency and avoids having to save/restore a2 in addition to a0.
-If more than one interrupt per high priority level is configured, this burden
-is on the handler which in any case must provide a way to save and restore
-registers it uses without touching the interrupted stack.
-
-Each vector goes at a predetermined location according to the Xtensa
-hardware configuration, which is ensured by its placement in a special
-section known to the Xtensa linker support package (LSP). It performs
-the minimum necessary before jumping to the handler in the .text section.
-
-*******************************************************************************/
-
-/*
-Currently only shells for high priority interrupt handlers are provided
-here. However a template and example can be found in the Cadence Design Systems tools
-documentation: "Microprocessor Programmer's Guide".
-*/
-
-#if XCHAL_NUM_INTLEVELS >=2 && XCHAL_EXCM_LEVEL <2 && XCHAL_DEBUGLEVEL !=2
-
-    .begin      literal_prefix .Level2InterruptVector
-    .section    .Level2InterruptVector.text, "ax"
-    .global     _Level2Vector
-    .type       _Level2Vector,@function
-    .align      4
-_Level2Vector:
-    wsr     a0, EXCSAVE_2                   /* preserve a0 */
-    call0   _xt_highint2                    /* load interrupt handler */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_highint2,@function
-    .align      4
-_xt_highint2:
-
-    #ifdef XT_INTEXC_HOOKS
-    /* Call interrupt hook if present to (pre)handle interrupts. */
-    movi    a0, _xt_intexc_hooks
-    l32i    a0, a0, 2<<2
-    beqz    a0, 1f
-.Ln_xt_highint2_call_hook:
-    callx0  a0                              /* must NOT disturb stack! */
-1:
-    #endif
-
-    /* USER_EDIT:
-    ADD HIGH PRIORITY LEVEL 2 INTERRUPT HANDLER CODE HERE.
-    */
-
-    .align  4
-.L_xt_highint2_exit:
-    rsr     a0, EXCSAVE_2                   /* restore a0 */
-    rfi     2
-
-#endif  /* Level 2 */
-
-#if XCHAL_NUM_INTLEVELS >=3 && XCHAL_EXCM_LEVEL <3 && XCHAL_DEBUGLEVEL !=3
-
-    .begin      literal_prefix .Level3InterruptVector
-    .section    .Level3InterruptVector.text, "ax"
-    .global     _Level3Vector
-    .type       _Level3Vector,@function
-    .align      4
-_Level3Vector:
-    wsr     a0, EXCSAVE_3                   /* preserve a0 */
-    call0   _xt_highint3                    /* load interrupt handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_highint3,@function
-    .align      4
-_xt_highint3:
-
-    #ifdef XT_INTEXC_HOOKS
-    /* Call interrupt hook if present to (pre)handle interrupts. */
-    movi    a0, _xt_intexc_hooks
-    l32i    a0, a0, 3<<2
-    beqz    a0, 1f
-.Ln_xt_highint3_call_hook:
-    callx0  a0                              /* must NOT disturb stack! */
-1:
-    #endif
-
-    /* USER_EDIT:
-    ADD HIGH PRIORITY LEVEL 3 INTERRUPT HANDLER CODE HERE.
-    */
-
-    .align  4
-.L_xt_highint3_exit:
-    rsr     a0, EXCSAVE_3                   /* restore a0 */
-    rfi     3
-
-#endif  /* Level 3 */
-
-#if XCHAL_NUM_INTLEVELS >=4 && XCHAL_EXCM_LEVEL <4 && XCHAL_DEBUGLEVEL !=4
-
-    .begin      literal_prefix .Level4InterruptVector
-    .section    .Level4InterruptVector.text, "ax"
-    .global     _Level4Vector
-    .type       _Level4Vector,@function
-    .align      4
-_Level4Vector:
-    wsr     a0, EXCSAVE_4                   /* preserve a0 */
-    call0   _xt_highint4                    /* load interrupt handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_highint4,@function
-    .align      4
-_xt_highint4:
-
-    #ifdef XT_INTEXC_HOOKS
-    /* Call interrupt hook if present to (pre)handle interrupts. */
-    movi    a0, _xt_intexc_hooks
-    l32i    a0, a0, 4<<2
-    beqz    a0, 1f
-.Ln_xt_highint4_call_hook:
-    callx0  a0                              /* must NOT disturb stack! */
-1:
-    #endif
-
-    /* USER_EDIT:
-    ADD HIGH PRIORITY LEVEL 4 INTERRUPT HANDLER CODE HERE.
-    */
-
-    .align  4
-.L_xt_highint4_exit:
-    rsr     a0, EXCSAVE_4                   /* restore a0 */
-    rfi     4
-
-#endif  /* Level 4 */
-
-#if XCHAL_NUM_INTLEVELS >=5 && XCHAL_EXCM_LEVEL <5 && XCHAL_DEBUGLEVEL !=5
-
-    .begin      literal_prefix .Level5InterruptVector
-    .section    .Level5InterruptVector.text, "ax"
-    .global     _Level5Vector
-    .type       _Level5Vector,@function
-    .align      4
-_Level5Vector:
-    wsr     a0, EXCSAVE_5                   /* preserve a0 */
-    call0   _xt_highint5                    /* load interrupt handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_highint5,@function
-    .align      4
-_xt_highint5:
-
-    #ifdef XT_INTEXC_HOOKS
-    /* Call interrupt hook if present to (pre)handle interrupts. */
-    movi    a0, _xt_intexc_hooks
-    l32i    a0, a0, 5<<2
-    beqz    a0, 1f
-.Ln_xt_highint5_call_hook:
-    callx0  a0                              /* must NOT disturb stack! */
-1:
-    #endif
-
-    /* USER_EDIT:
-    ADD HIGH PRIORITY LEVEL 5 INTERRUPT HANDLER CODE HERE.
-    */
-
-    .align  4
-.L_xt_highint5_exit:
-    rsr     a0, EXCSAVE_5                   /* restore a0 */
-    rfi     5
-
-#endif  /* Level 5 */
-
-#if XCHAL_NUM_INTLEVELS >=6 && XCHAL_EXCM_LEVEL <6 && XCHAL_DEBUGLEVEL !=6
-
-    .begin      literal_prefix .Level6InterruptVector
-    .section    .Level6InterruptVector.text, "ax"
-    .global     _Level6Vector
-    .type       _Level6Vector,@function
-    .align      4
-_Level6Vector:
-    wsr     a0, EXCSAVE_6                   /* preserve a0 */
-    call0   _xt_highint6                    /* load interrupt handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_highint6,@function
-    .align      4
-_xt_highint6:
-
-    #ifdef XT_INTEXC_HOOKS
-    /* Call interrupt hook if present to (pre)handle interrupts. */
-    movi    a0, _xt_intexc_hooks
-    l32i    a0, a0, 6<<2
-    beqz    a0, 1f
-.Ln_xt_highint6_call_hook:
-    callx0  a0                              /* must NOT disturb stack! */
-1:
-    #endif
-
-    /* USER_EDIT:
-    ADD HIGH PRIORITY LEVEL 6 INTERRUPT HANDLER CODE HERE.
-    */
-
-    .align  4
-.L_xt_highint6_exit:
-    rsr     a0, EXCSAVE_6                   /* restore a0 */
-    rfi     6
-
-#endif  /* Level 6 */
-
-#if XCHAL_HAVE_NMI
-
-    .begin      literal_prefix .NMIExceptionVector
-    .section    .NMIExceptionVector.text, "ax"
-    .global     _NMIExceptionVector
-    .type       _NMIExceptionVector,@function
-    .align      4
-_NMIExceptionVector:
-    wsr     a0, EXCSAVE + XCHAL_NMILEVEL  _ /* preserve a0 */
-    call0   _xt_nmi                         /* load interrupt handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_nmi,@function
-    .align      4
-_xt_nmi:
-
-    #ifdef XT_INTEXC_HOOKS
-    /* Call interrupt hook if present to (pre)handle interrupts. */
-    movi    a0, _xt_intexc_hooks
-    l32i    a0, a0, XCHAL_NMILEVEL<<2
-    beqz    a0, 1f
-.Ln_xt_nmi_call_hook:
-    callx0  a0                              /* must NOT disturb stack! */
-1:
-    #endif
-
-    /* USER_EDIT:
-    ADD HIGH PRIORITY NON-MASKABLE INTERRUPT (NMI) HANDLER CODE HERE.
-    */
-
-    .align  4
-.L_xt_nmi_exit:
-    rsr     a0, EXCSAVE + XCHAL_NMILEVEL    /* restore a0 */
-    rfi     XCHAL_NMILEVEL
-
-#endif  /* NMI */
-
-
-/*******************************************************************************
-
-WINDOW OVERFLOW AND UNDERFLOW EXCEPTION VECTORS AND ALLOCA EXCEPTION HANDLER
-
-Here is the code for each window overflow/underflow exception vector and 
-(interspersed) efficient code for handling the alloca exception cause.
-Window exceptions are handled entirely in the vector area and are very
-tight for performance. The alloca exception is also handled entirely in 
-the window vector area so comes at essentially no cost in code size.
-Users should never need to modify them and Cadence Design Systems recommends 
-they do not.
-
-Window handlers go at predetermined vector locations according to the
-Xtensa hardware configuration, which is ensured by their placement in a
-special section known to the Xtensa linker support package (LSP). Since
-their offsets in that section are always the same, the LSPs do not define
-a section per vector.
-
-These things are coded for XEA2 only (XEA1 is not supported).
-
-Note on Underflow Handlers:
-The underflow handler for returning from call[i+1] to call[i]
-must preserve all the registers from call[i+1]'s window.
-In particular, a0 and a1 must be preserved because the RETW instruction
-will be reexecuted (and may even underflow if an intervening exception
-has flushed call[i]'s registers).
-Registers a2 and up may contain return values.
-
-*******************************************************************************/
-
-#if XCHAL_HAVE_WINDOWED
-
-    .section .WindowVectors.text, "ax"
-
-/*
---------------------------------------------------------------------------------
-Window Overflow Exception for Call4.
-
-Invoked if a call[i] referenced a register (a4-a15)
-that contains data from ancestor call[j];
-call[j] had done a call4 to call[j+1].
-On entry here:
-    window rotated to call[j] start point;
-        a0-a3 are registers to be saved;
-        a4-a15 must be preserved;
-        a5 is call[j+1]'s stack pointer.
---------------------------------------------------------------------------------
-*/
-
-    .org    0x0
-    .global _WindowOverflow4
-_WindowOverflow4:
-
-    s32e    a0, a5, -16     /* save a0 to call[j+1]'s stack frame */
-    s32e    a1, a5, -12     /* save a1 to call[j+1]'s stack frame */
-    s32e    a2, a5,  -8     /* save a2 to call[j+1]'s stack frame */
-    s32e    a3, a5,  -4     /* save a3 to call[j+1]'s stack frame */
-    rfwo                    /* rotates back to call[i] position */
-
-/*
---------------------------------------------------------------------------------
-Window Underflow Exception for Call4
-
-Invoked by RETW returning from call[i+1] to call[i]
-where call[i]'s registers must be reloaded (not live in ARs);
-where call[i] had done a call4 to call[i+1].
-On entry here:
-        window rotated to call[i] start point;
-        a0-a3 are undefined, must be reloaded with call[i].reg[0..3];
-        a4-a15 must be preserved (they are call[i+1].reg[0..11]);
-        a5 is call[i+1]'s stack pointer.
---------------------------------------------------------------------------------
-*/
-
-    .org    0x40
-    .global _WindowUnderflow4
-_WindowUnderflow4:
-
-    l32e    a0, a5, -16     /* restore a0 from call[i+1]'s stack frame */
-    l32e    a1, a5, -12     /* restore a1 from call[i+1]'s stack frame */
-    l32e    a2, a5,  -8     /* restore a2 from call[i+1]'s stack frame */
-    l32e    a3, a5,  -4     /* restore a3 from call[i+1]'s stack frame */
-    rfwu
-
-/*
---------------------------------------------------------------------------------
-Handle alloca exception generated by interruptee executing 'movsp'.
-This uses space between the window vectors, so is essentially "free".
-All interruptee's regs are intact except a0 which is saved in EXCSAVE_1,
-and PS.EXCM has been set by the exception hardware (can't be interrupted).
-The fact the alloca exception was taken means the registers associated with
-the base-save area have been spilled and will be restored by the underflow
-handler, so those 4 registers are available for scratch.
-The code is optimized to avoid unaligned branches and minimize cache misses.
---------------------------------------------------------------------------------
-*/
-
-    .align  4
-    .global _xt_alloca_exc
-_xt_alloca_exc:
-
-    rsr     a0, WINDOWBASE  /* grab WINDOWBASE before rotw changes it */
-    rotw    -1              /* WINDOWBASE goes to a4, new a0-a3 are scratch */
-    rsr     a2, PS
-    extui   a3, a2, XCHAL_PS_OWB_SHIFT, XCHAL_PS_OWB_BITS
-    xor     a3, a3, a4      /* bits changed from old to current windowbase */
-    rsr     a4, EXCSAVE_1   /* restore original a0 (now in a4) */
-    slli    a3, a3, XCHAL_PS_OWB_SHIFT
-    xor     a2, a2, a3      /* flip changed bits in old window base */
-    wsr     a2, PS          /* update PS.OWB to new window base */
-    rsync
-
-    _bbci.l a4, 31, _WindowUnderflow4
-    rotw    -1              /* original a0 goes to a8 */
-    _bbci.l a8, 30, _WindowUnderflow8
-    rotw    -1
-    j               _WindowUnderflow12
-
-/*
---------------------------------------------------------------------------------
-Window Overflow Exception for Call8
-
-Invoked if a call[i] referenced a register (a4-a15)
-that contains data from ancestor call[j];
-call[j] had done a call8 to call[j+1].
-On entry here:
-    window rotated to call[j] start point;
-        a0-a7 are registers to be saved;
-        a8-a15 must be preserved;
-        a9 is call[j+1]'s stack pointer.
---------------------------------------------------------------------------------
-*/
-
-    .org    0x80
-    .global _WindowOverflow8
-_WindowOverflow8:
-
-    s32e    a0, a9, -16     /* save a0 to call[j+1]'s stack frame */
-    l32e    a0, a1, -12     /* a0 <- call[j-1]'s sp
-                               (used to find end of call[j]'s frame) */
-    s32e    a1, a9, -12     /* save a1 to call[j+1]'s stack frame */
-    s32e    a2, a9,  -8     /* save a2 to call[j+1]'s stack frame */
-    s32e    a3, a9,  -4     /* save a3 to call[j+1]'s stack frame */
-    s32e    a4, a0, -32     /* save a4 to call[j]'s stack frame */
-    s32e    a5, a0, -28     /* save a5 to call[j]'s stack frame */
-    s32e    a6, a0, -24     /* save a6 to call[j]'s stack frame */
-    s32e    a7, a0, -20     /* save a7 to call[j]'s stack frame */
-    rfwo                    /* rotates back to call[i] position */
-
-/*
---------------------------------------------------------------------------------
-Window Underflow Exception for Call8
-
-Invoked by RETW returning from call[i+1] to call[i]
-where call[i]'s registers must be reloaded (not live in ARs);
-where call[i] had done a call8 to call[i+1].
-On entry here:
-        window rotated to call[i] start point;
-        a0-a7 are undefined, must be reloaded with call[i].reg[0..7];
-        a8-a15 must be preserved (they are call[i+1].reg[0..7]);
-        a9 is call[i+1]'s stack pointer.
---------------------------------------------------------------------------------
-*/
-
-    .org    0xC0
-    .global _WindowUnderflow8
-_WindowUnderflow8:
-
-    l32e    a0, a9, -16     /* restore a0 from call[i+1]'s stack frame */
-    l32e    a1, a9, -12     /* restore a1 from call[i+1]'s stack frame */
-    l32e    a2, a9,  -8     /* restore a2 from call[i+1]'s stack frame */
-    l32e    a7, a1, -12     /* a7 <- call[i-1]'s sp
-                               (used to find end of call[i]'s frame) */
-    l32e    a3, a9,  -4     /* restore a3 from call[i+1]'s stack frame */
-    l32e    a4, a7, -32     /* restore a4 from call[i]'s stack frame */
-    l32e    a5, a7, -28     /* restore a5 from call[i]'s stack frame */
-    l32e    a6, a7, -24     /* restore a6 from call[i]'s stack frame */
-    l32e    a7, a7, -20     /* restore a7 from call[i]'s stack frame */
-    rfwu
-
-/*
---------------------------------------------------------------------------------
-Window Overflow Exception for Call12
-
-Invoked if a call[i] referenced a register (a4-a15)
-that contains data from ancestor call[j];
-call[j] had done a call12 to call[j+1].
-On entry here:
-    window rotated to call[j] start point;
-        a0-a11 are registers to be saved;
-        a12-a15 must be preserved;
-        a13 is call[j+1]'s stack pointer.
---------------------------------------------------------------------------------
-*/
-
-    .org    0x100
-    .global _WindowOverflow12
-_WindowOverflow12:
-
-    s32e    a0,  a13, -16   /* save a0 to call[j+1]'s stack frame */
-    l32e    a0,  a1,  -12   /* a0 <- call[j-1]'s sp
-                               (used to find end of call[j]'s frame) */
-    s32e    a1,  a13, -12   /* save a1 to call[j+1]'s stack frame */
-    s32e    a2,  a13,  -8   /* save a2 to call[j+1]'s stack frame */
-    s32e    a3,  a13,  -4   /* save a3 to call[j+1]'s stack frame */
-    s32e    a4,  a0,  -48   /* save a4 to end of call[j]'s stack frame */
-    s32e    a5,  a0,  -44   /* save a5 to end of call[j]'s stack frame */
-    s32e    a6,  a0,  -40   /* save a6 to end of call[j]'s stack frame */
-    s32e    a7,  a0,  -36   /* save a7 to end of call[j]'s stack frame */
-    s32e    a8,  a0,  -32   /* save a8 to end of call[j]'s stack frame */
-    s32e    a9,  a0,  -28   /* save a9 to end of call[j]'s stack frame */
-    s32e    a10, a0,  -24   /* save a10 to end of call[j]'s stack frame */
-    s32e    a11, a0,  -20   /* save a11 to end of call[j]'s stack frame */
-    rfwo                    /* rotates back to call[i] position */
-
-/*
---------------------------------------------------------------------------------
-Window Underflow Exception for Call12
-
-Invoked by RETW returning from call[i+1] to call[i]
-where call[i]'s registers must be reloaded (not live in ARs);
-where call[i] had done a call12 to call[i+1].
-On entry here:
-        window rotated to call[i] start point;
-        a0-a11 are undefined, must be reloaded with call[i].reg[0..11];
-        a12-a15 must be preserved (they are call[i+1].reg[0..3]);
-        a13 is call[i+1]'s stack pointer.
---------------------------------------------------------------------------------
-*/
-
-    .org 0x140
-    .global _WindowUnderflow12
-_WindowUnderflow12:
-
-    l32e    a0,  a13, -16   /* restore a0 from call[i+1]'s stack frame */
-    l32e    a1,  a13, -12   /* restore a1 from call[i+1]'s stack frame */
-    l32e    a2,  a13,  -8   /* restore a2 from call[i+1]'s stack frame */
-    l32e    a11, a1,  -12   /* a11 <- call[i-1]'s sp
-                               (used to find end of call[i]'s frame) */
-    l32e    a3,  a13,  -4   /* restore a3 from call[i+1]'s stack frame */
-    l32e    a4,  a11, -48   /* restore a4 from end of call[i]'s stack frame */
-    l32e    a5,  a11, -44   /* restore a5 from end of call[i]'s stack frame */
-    l32e    a6,  a11, -40   /* restore a6 from end of call[i]'s stack frame */
-    l32e    a7,  a11, -36   /* restore a7 from end of call[i]'s stack frame */
-    l32e    a8,  a11, -32   /* restore a8 from end of call[i]'s stack frame */
-    l32e    a9,  a11, -28   /* restore a9 from end of call[i]'s stack frame */
-    l32e    a10, a11, -24   /* restore a10 from end of call[i]'s stack frame */
-    l32e    a11, a11, -20   /* restore a11 from end of call[i]'s stack frame */
-    rfwu
-
-#endif /* XCHAL_HAVE_WINDOWED */
-
-    .section    .UserEnter.text, "ax"
-    .global     call_user_start
-    .type       call_user_start,@function
-    .align      4
-    .literal_position
-
-
-call_user_start:
-
-	movi	a2, 0x40040000	/* note: absolute symbol, not a ptr */
-	wsr	a2, vecbase
-	call0   user_start                    /* user exception handler */
diff --git a/components/freertos/xtensa_vectors.S-old b/components/freertos/xtensa_vectors.S-old
deleted file mode 100644
index 2d0f7a99d2..0000000000
--- a/components/freertos/xtensa_vectors.S-old
+++ /dev/null
@@ -1,2064 +0,0 @@
-/*******************************************************************************
-Copyright (c) 2006-2015 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.
---------------------------------------------------------------------------------
-
-        XTENSA VECTORS AND LOW LEVEL HANDLERS FOR AN RTOS
-
-  Xtensa low level exception and interrupt vectors and handlers for an RTOS.
-
-  Interrupt handlers and user exception handlers support interaction with
-  the RTOS by calling XT_RTOS_INT_ENTER and XT_RTOS_INT_EXIT before and
-  after user's specific interrupt handlers. These macros are defined in
-  xtensa_<rtos>.h to call suitable functions in a specific RTOS.
-
-  Users can install application-specific interrupt handlers for low and
-  medium level interrupts, by calling xt_set_interrupt_handler(). These
-  handlers can be written in C, and must obey C calling convention. The
-  handler table is indexed by the interrupt number. Each handler may be
-  provided with an argument. 
-
-  Note that the system timer interrupt is handled specially, and is
-  dispatched to the RTOS-specific handler. This timer cannot be hooked
-  by application code.
-
-  Optional hooks are also provided to install a handler per level at 
-  run-time, made available by compiling this source file with 
-  '-DXT_INTEXC_HOOKS' (useful for automated testing).
-
-!!  This file is a template that usually needs to be modified to handle       !!
-!!  application specific interrupts. Search USER_EDIT for helpful comments    !!
-!!  on where to insert handlers and how to write them.                        !!
-
-  Users can also install application-specific exception handlers in the
-  same way, by calling xt_set_exception_handler(). One handler slot is
-  provided for each exception type. Note that some exceptions are handled
-  by the porting layer itself, and cannot be taken over by application
-  code in this manner. These are the alloca, syscall, and coprocessor
-  exceptions.
-
-  The exception handlers can be written in C, and must follow C calling
-  convention. Each handler is passed a pointer to an exception frame as
-  its single argument. The exception frame is created on the stack, and
-  holds the saved context of the thread that took the exception. If the
-  handler returns, the context will be restored and the instruction that
-  caused the exception will be retried. If the handler makes any changes
-  to the saved state in the exception frame, the changes will be applied
-  when restoring the context.
-
-  Because Xtensa is a configurable architecture, this port supports all user
-  generated configurations (except restrictions stated in the release notes).
-  This is accomplished by conditional compilation using macros and functions
-  defined in the Xtensa HAL (hardware adaptation layer) for your configuration.
-  Only the relevant parts of this file will be included in your RTOS build.
-  For example, this file provides interrupt vector templates for all types and
-  all priority levels, but only the ones in your configuration are built.
-
-  NOTES on the use of 'call0' for long jumps instead of 'j':
-   1. This file should be assembled with the -mlongcalls option to xt-xcc.
-   2. The -mlongcalls compiler option causes 'call0 dest' to be expanded to
-      a sequence 'l32r a0, dest' 'callx0 a0' which works regardless of the
-      distance from the call to the destination. The linker then relaxes
-      it back to 'call0 dest' if it determines that dest is within range.
-      This allows more flexibility in locating code without the performance
-      overhead of the 'l32r' literal data load in cases where the destination
-      is in range of 'call0'. There is an additional benefit in that 'call0'
-      has a longer range than 'j' due to the target being word-aligned, so 
-      the 'l32r' sequence is less likely needed.
-   3. The use of 'call0' with -mlongcalls requires that register a0 not be 
-      live at the time of the call, which is always the case for a function 
-      call but needs to be ensured if 'call0' is used as a jump in lieu of 'j'.
-   4. This use of 'call0' is independent of the C function call ABI.
-
-*******************************************************************************/
-
-#include "xtensa_rtos.h"
-
-
-/* Enable stack backtrace across exception/interrupt - see below */
-#define XT_DEBUG_BACKTRACE    0
-
-
-/*
---------------------------------------------------------------------------------
-  Defines used to access _xtos_interrupt_table.
---------------------------------------------------------------------------------
-*/
-#define XIE_HANDLER     0
-#define XIE_ARG         4
-#define XIE_SIZE        8
-
-/*
---------------------------------------------------------------------------------
-  Macro extract_msb - return the input with only the highest bit set.
-
-  Input  : "ain"  - Input value, clobbered.
-  Output : "aout" - Output value, has only one bit set, MSB of "ain".
-  The two arguments must be different AR registers.
---------------------------------------------------------------------------------
-*/
-
-    .macro  extract_msb     aout ain
-1:
-    addi    \aout, \ain, -1         /* aout = ain - 1        */
-    and     \ain, \ain, \aout       /* ain  = ain & aout     */
-    bnez    \ain, 1b                /* repeat until ain == 0 */
-    addi    \aout, \aout, 1         /* return aout + 1       */
-    .endm
-
-/*
---------------------------------------------------------------------------------
-  Macro dispatch_c_isr - dispatch interrupts to user ISRs.
-  This will dispatch to user handlers (if any) that are registered in the
-  XTOS dispatch table (_xtos_interrupt_table). These handlers would have
-  been registered by calling _xtos_set_interrupt_handler(). There is one
-  exception - the timer interrupt used by the OS will not be dispatched
-  to a user handler - this must be handled by the caller of this macro.
-
-  Level triggered and software interrupts are automatically deasserted by
-  this code.
-
-  ASSUMPTIONS:
-    -- PS.INTLEVEL is set to "level" at entry
-    -- PS.EXCM = 0, C calling enabled
-
-  NOTE: For CALL0 ABI, a12-a15 have not yet been saved.
-
-  NOTE: This macro will use registers a0 and a2-a6. The arguments are:
-    level -- interrupt level
-    mask  -- interrupt bitmask for this level
---------------------------------------------------------------------------------
-*/
-
-    .macro  dispatch_c_isr    level  mask
-
-    /* Get mask of pending, enabled interrupts at this level into a2. */
-
-.L_xt_user_int_&level&:
-    rsr     a2, INTENABLE
-    rsr     a3, INTERRUPT
-    movi    a4, \mask
-    and     a2, a2, a3
-    and     a2, a2, a4
-    beqz    a2, 9f                          /* nothing to do */
-
-    /* This bit of code provides a nice debug backtrace in the debugger.
-       It does take a few more instructions, so undef XT_DEBUG_BACKTRACE
-       if you want to save the cycles.
-    */
-    #if XT_DEBUG_BACKTRACE
-    #ifndef __XTENSA_CALL0_ABI__
-    rsr     a0, EPC_1 + \level - 1          /* return address */
-    movi    a4, 0xC0000000                  /* constant with top 2 bits set (call size) */
-    or      a0, a0, a4                      /* set top 2 bits */
-    addx2   a0, a4, a0                      /* clear top bit -- simulating call4 size   */
-    #endif
-    #endif
-
-    #ifdef XT_INTEXC_HOOKS
-    /* Call interrupt hook if present to (pre)handle interrupts. */
-    movi    a4, _xt_intexc_hooks
-    l32i    a4, a4, \level << 2
-    beqz    a4, 2f
-    #ifdef __XTENSA_CALL0_ABI__
-    callx0  a4
-    beqz    a2, 9f
-    #else
-    mov     a6, a2
-    callx4  a4
-    beqz    a6, 9f
-    mov     a2, a6
-    #endif
-2:
-    #endif
-
-    /* Now look up in the dispatch table and call user ISR if any. */
-    /* If multiple bits are set then MSB has highest priority.     */
-
-    extract_msb  a4, a2                     /* a4 = MSB of a2, a2 trashed */
-
-    #ifdef XT_USE_SWPRI
-    /* Enable all interrupts at this level that are numerically higher
-       than the one we just selected, since they are treated as higher
-       priority.
-    */
-    movi    a3, \mask                       /* a3 = all interrupts at this level */
-    add     a2, a4, a4                      /* a2 = a4 << 1 */
-    addi    a2, a2, -1                      /* a2 = mask of 1's <= a4 bit */
-    and     a2, a2, a3                      /* a2 = mask of all bits <= a4 at this level */
-    movi    a3, _xt_intdata
-    l32i    a6, a3, 4                       /* a6 = _xt_vpri_mask */
-    neg     a2, a2
-    addi    a2, a2, -1                      /* a2 = mask to apply */
-    and     a5, a6, a2                      /* mask off all bits <= a4 bit */
-    s32i    a5, a3, 4                       /* update _xt_vpri_mask */
-    rsr     a3, INTENABLE
-    and     a3, a3, a2                      /* mask off all bits <= a4 bit */
-    wsr     a3, INTENABLE
-    rsil    a3, \level - 1                  /* lower interrupt level by 1 */
-    #endif
-
-    movi    a3, XT_TIMER_INTEN              /* a3 = timer interrupt bit */
-    wsr     a4, INTCLEAR                    /* clear sw or edge-triggered interrupt */
-    beq     a3, a4, 7f                      /* if timer interrupt then skip table */
-
-    find_ms_setbit a3, a4, a3, 0            /* a3 = interrupt number */
-
-    movi    a4, _xt_interrupt_table
-    addx8   a3, a3, a4                      /* a3 = address of interrupt table entry */
-    l32i    a4, a3, XIE_HANDLER             /* a4 = handler address */
-    #ifdef __XTENSA_CALL0_ABI__
-    mov     a12, a6                         /* save in callee-saved reg */
-    l32i    a2, a3, XIE_ARG                 /* a2 = handler arg */
-    callx0  a4                              /* call handler */
-    mov     a2, a12
-    #else
-    mov     a2, a6                          /* save in windowed reg */
-    l32i    a6, a3, XIE_ARG                 /* a6 = handler arg */
-    callx4  a4                              /* call handler */
-    #endif
-
-    #ifdef XT_USE_SWPRI
-    j       8f
-    #else
-    j       .L_xt_user_int_&level&          /* check for more interrupts */
-    #endif
-
-7:
-
-    .ifeq XT_TIMER_INTPRI - \level
-.L_xt_user_int_timer_&level&:
-    /*
-    Interrupt handler for the RTOS tick timer if at this level.
-    We'll be reading the interrupt state again after this call
-    so no need to preserve any registers except a6 (vpri_mask).
-    */
-
-    #ifdef __XTENSA_CALL0_ABI__
-    mov     a12, a6
-    call0   XT_RTOS_TIMER_INT
-    mov     a2, a12
-    #else
-    mov     a2, a6
-    call4   XT_RTOS_TIMER_INT
-    #endif
-    .endif
-
-    #ifdef XT_USE_SWPRI
-    j       8f
-    #else
-    j       .L_xt_user_int_&level&          /* check for more interrupts */
-    #endif
-
-    #ifdef XT_USE_SWPRI
-8:
-    /* Restore old value of _xt_vpri_mask from a2. Also update INTENABLE from
-       virtual _xt_intenable which _could_ have changed during interrupt
-       processing. */
-
-    movi    a3, _xt_intdata
-    l32i    a4, a3, 0                       /* a4 = _xt_intenable    */
-    s32i    a2, a3, 4                       /* update _xt_vpri_mask  */
-    and     a4, a4, a2                      /* a4 = masked intenable */
-    wsr     a4, INTENABLE                   /* update INTENABLE      */
-    #endif
-
-9:
-    /* done */
-
-    .endm
-
-
-/*
---------------------------------------------------------------------------------
-  Panic handler.
-  Should be reached by call0 (preferable) or jump only. If call0, a0 says where 
-  from. If on simulator, display panic message and abort, else loop indefinitely.
---------------------------------------------------------------------------------
-*/
-
-    .text
-	.global panicHandlerRegs
-	.global panicHandler
-	.global panicStack
-
-    .global     _xt_panic
-    .type       _xt_panic,@function
-    .align      4
-
-_xt_panic:
-	//ToDo: save registers
-	movi a2, panicHandlerRegs
-	s32i a0,a2,0
-	s32i a1,a2,4
-	s32i a2,a2,8
-	s32i a3,a2,12
-	s32i a4,a2,16
-	s32i a5,a2,20
-	s32i a6,a2,24
-	s32i a7,a2,28
-	s32i a8,a2,32
-	s32i a9,a2,36
-	s32i a10,a2,40
-	s32i a11,a2,44
-	s32i a12,a2,48
-	s32i a13,a2,52
-	s32i a14,a2,56
-	s32i a15,a2,60
-
-	rsr a3, EXCSAVE
-	s32i a3,a2,64
-	rsr a3, EXCSAVE+1
-	s32i a3,a2,68
-	rsr a3, EXCSAVE+2
-	s32i a3,a2,72
-	rsr a3, EXCSAVE+3
-	s32i a3,a2,76
-	rsr a3, EXCSAVE+4
-	s32i a3,a2,80
-	rsr a3, EXCSAVE+5
-	s32i a3,a2,84
-	rsr a3, EXCSAVE+6
-	s32i a3,a2,88
-	rsr a3, EXCSAVE+7
-	s32i a3,a2,92
-
-	rsr a3, EPC
-	s32i a3,a2,96
-	rsr a3, EPC+1
-	s32i a3,a2,100
-	rsr a3, EPC+2
-	s32i a3,a2,104
-	rsr a3, EPC+3
-	s32i a3,a2,108
-	rsr a3, EPC+4
-	s32i a3,a2,112
-	rsr a3, EPC+5
-	s32i a3,a2,116
-	rsr a3, EPC+6
-	s32i a3,a2,120
-	rsr a3, EPC+7
-	s32i a3,a2,124
-
-	rsr a3, DEPC
-	s32i a3,a2,128
-	rsr a3, EXCVADDR
-	s32i a3,a2,132
-
-	//Reset window start / base to 0
-	movi	a2, 1
-	wsr	a2, windowstart
-	movi	a2, 0
-	wsr	a2, windowbase
-	rsync
-
-	//Clear EXCM, set WOE flags
-	rsr	a2, ps
-	movi a3, ~(PS_EXCM_MASK)
-	and	a2, a2, a3
-	movi a3, PS_WOE_MASK
-	or a2, a2, a3
-	wsr	a2, ps
-	rsync
-
-	//Switch to private stack
-	movi a1,panicStack+(255*4)
-	rsil    a2, XCHAL_EXCM_LEVEL            /* disable all low & med ints */
-
-
-	// Debug: output '!' on serport
-	movi a2,0x60000000
-	movi a3,'!'
-	s32i a3,a2,0
-
-	movi a3, panicHandlerRegs
-	l32i a2,a3,0
-	call0 panic_print_hex
-	rsr a2, EXCCAUSE
-	call0 panic_print_hex
-	rsr a2, EXCVADDR
-	call0 panic_print_hex
-	rsr a2,EPC+1
-	call0 panic_print_hex
-	rsr a2,EPC+2
-	call0 panic_print_hex
-	rsr a2,EPC+3
-	call0 panic_print_hex
-	rsr a2,EPC+6
-	call0 panic_print_hex
-	rsr a2,EXCSAVE_1
-	call0 panic_print_hex
-	rsr a2,DEPC
-	call0 panic_print_hex
-
-	//Call panic handler
-//	movi a4, panicHandler
-//	callx4 a4
-	call4 panicHandler
-
-	movi a2,0x60000000
-	movi a3,'d'
-	s32i a3,a2,0
-
-
-1:  j       1b                              /* loop infinitely */
-
-	.align 4
-panicHandlerz:
-	entry a1,32
-	movi a2,0x60000000
-	movi a3,'h'
-	memw
-	s32i a3,a2,0
-	
-	retw
-
-
-	.align 4
-//Call using call0. Prints the hex char in a2. Kills a3, a4, a5
-panic_print_hex:
-	movi a3,0x60000000
-	movi a4,8
-panic_print_hex_loop:
-	l32i a5, a3, 0x1c
-	extui a5, a5, 16, 8
-	bgei a5,64,panic_print_hex_loop
-
-	srli a5,a2,28
-	bgei a5,10,panic_print_hex_a
-	addi a5,a5,'0'
-	j panic_print_hex_ok
-panic_print_hex_a:
-	addi a5,a5,'A'-10
-panic_print_hex_ok:
-	s32i a5,a3,0
-	slli a2,a2,4
-	
-	addi a4,a4,-1
-	bnei a4,0,panic_print_hex_loop
-	movi a5,' '
-	s32i a5,a3,0
-
-	ret
-
-
-
-    .section    .rodata, "a"
-    .align      4
-
-
-
-/*
---------------------------------------------------------------------------------
-    Hooks to dynamically install handlers for exceptions and interrupts.
-    Allows automated regression frameworks to install handlers per test.
-    Consists of an array of function pointers indexed by interrupt level, 
-    with index 0 containing the entry for user exceptions.
-    Initialized with all 0s, meaning no handler is installed at each level.
-    See comment in xtensa_rtos.h for more details.
---------------------------------------------------------------------------------
-*/
-
-    #ifdef XT_INTEXC_HOOKS
-    .data
-    .global     _xt_intexc_hooks
-    .type       _xt_intexc_hooks,@object
-    .align      4
-
-_xt_intexc_hooks:
-    .fill       XT_INTEXC_HOOK_NUM, 4, 0
-    #endif
-
-
-/*
---------------------------------------------------------------------------------
-  EXCEPTION AND LEVEL 1 INTERRUPT VECTORS AND LOW LEVEL HANDLERS
-  (except window exception vectors).
-
-  Each vector goes at a predetermined location according to the Xtensa
-  hardware configuration, which is ensured by its placement in a special
-  section known to the Xtensa linker support package (LSP). It performs
-  the minimum necessary before jumping to the handler in the .text section.
-
-  The corresponding handler goes in the normal .text section. It sets up
-  the appropriate stack frame, saves a few vector-specific registers and
-  calls XT_RTOS_INT_ENTER to save the rest of the interrupted context
-  and enter the RTOS, then sets up a C environment. It then calls the
-  user's interrupt handler code (which may be coded in C) and finally 
-  calls XT_RTOS_INT_EXIT to transfer control to the RTOS for scheduling.
-
-  While XT_RTOS_INT_EXIT does not return directly to the interruptee,
-  eventually the RTOS scheduler will want to dispatch the interrupted
-  task or handler. The scheduler will return to the exit point that was
-  saved in the interrupt stack frame at XT_STK_EXIT.
---------------------------------------------------------------------------------
-*/
-
-
-/*
---------------------------------------------------------------------------------
-Debug Exception.
---------------------------------------------------------------------------------
-*/
-
-#if XCHAL_HAVE_DEBUG
-
-    .begin      literal_prefix .DebugExceptionVector
-    .section    .DebugExceptionVector.text, "ax"
-    .global     _DebugExceptionVector
-    .align      4
-
-_DebugExceptionVector:
-
-    #ifdef XT_SIMULATOR
-    /*
-    In the simulator, let the debugger (if any) handle the debug exception,
-    or simply stop the simulation:
-    */
-    wsr     a2, EXCSAVE+XCHAL_DEBUGLEVEL    /* save a2 where sim expects it */
-    movi    a2, SYS_gdb_enter_sktloop
-    simcall                                 /* have ISS handle debug exc. */
-    #elif 0 /* change condition to 1 to use the HAL minimal debug handler */
-    wsr     a3, EXCSAVE+XCHAL_DEBUGLEVEL
-    movi    a3, xthal_debugexc_defhndlr_nw  /* use default debug handler */
-    jx      a3
-    #else
-    wsr     a0, EXCSAVE+XCHAL_DEBUGLEVEL    /* save original a0 somewhere */
-    call0   _xt_panic                       /* does not return */
-    rfi     XCHAL_DEBUGLEVEL                /* make a0 point here not later */
-    #endif
-
-    .end        literal_prefix
-
-#endif
-
-/*
---------------------------------------------------------------------------------
-Double Exception.
-Double exceptions are not a normal occurrence. They indicate a bug of some kind.
---------------------------------------------------------------------------------
-*/
-
-#ifdef XCHAL_DOUBLEEXC_VECTOR_VADDR
-
-    .begin      literal_prefix .DoubleExceptionVector
-    .section    .DoubleExceptionVector.text, "ax"
-    .global     _DoubleExceptionVector
-    .align      4
-
-_DoubleExceptionVector:
-
-    #if XCHAL_HAVE_DEBUG
-    break   1, 4                            /* unhandled double exception */
-    #endif
-    call0   _xt_panic                       /* does not return */
-    rfde                                    /* make a0 point here not later */
-
-    .end        literal_prefix
-
-#endif /* XCHAL_DOUBLEEXC_VECTOR_VADDR */
-
-/*
---------------------------------------------------------------------------------
-Kernel Exception (including Level 1 Interrupt from kernel mode).
---------------------------------------------------------------------------------
-*/
-
-    .begin      literal_prefix .KernelExceptionVector
-    .section    .KernelExceptionVector.text, "ax"
-    .global     _KernelExceptionVector
-    .align      4
-
-_KernelExceptionVector:
-
-    wsr     a0, EXCSAVE_1                   /* preserve a0 */
-    call0   _xt_kernel_exc                  /* kernel exception handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .align      4
-
-_xt_kernel_exc:
-    #if XCHAL_HAVE_DEBUG
-    break   1, 0                            /* unhandled kernel exception */
-    #endif
-    call0   _xt_panic                       /* does not return */
-    rfe                                     /* make a0 point here not there */
-
-
-/*
---------------------------------------------------------------------------------
-User Exception (including Level 1 Interrupt from user mode).
---------------------------------------------------------------------------------
-*/
-
-    .begin      literal_prefix .UserExceptionVector
-    .section    .UserExceptionVector.text, "ax"
-    .global     _UserExceptionVector
-    .type       _UserExceptionVector,@function
-    .align      4
-
-_UserExceptionVector:
-
-    wsr     a0, EXCSAVE_1                   /* preserve a0 */
-    call0   _xt_user_exc                    /* user exception handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-/*
---------------------------------------------------------------------------------
-  Insert some waypoints for jumping beyond the signed 8-bit range of
-  conditional branch instructions, so the conditional branchces to specific
-  exception handlers are not taken in the mainline. Saves some cycles in the
-  mainline.
---------------------------------------------------------------------------------
-*/
-
-    .text
-
-    #if XCHAL_HAVE_WINDOWED
-    .align      4
-_xt_to_alloca_exc:
-    call0   _xt_alloca_exc                  /* in window vectors section */
-    /* never returns here - call0 is used as a jump (see note at top) */
-    #endif
-
-    .align      4
-_xt_to_syscall_exc:
-    call0   _xt_syscall_exc
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    #if XCHAL_CP_NUM > 0
-    .align      4
-_xt_to_coproc_exc:
-    call0   _xt_coproc_exc
-    /* never returns here - call0 is used as a jump (see note at top) */
-    #endif
-
-
-/*
---------------------------------------------------------------------------------
-  User exception handler.
---------------------------------------------------------------------------------
-*/
-
-    .type       _xt_user_exc,@function
-    .align      4
-
-_xt_user_exc:
-
-    /* If level 1 interrupt then jump to the dispatcher */
-    rsr     a0, EXCCAUSE
-    beqi    a0, EXCCAUSE_LEVEL1INTERRUPT, _xt_lowint1
-
-    /* Handle any coprocessor exceptions. Rely on the fact that exception
-       numbers above EXCCAUSE_CP0_DISABLED all relate to the coprocessors.
-    */
-    #if XCHAL_CP_NUM > 0
-    bgeui   a0, EXCCAUSE_CP0_DISABLED, _xt_to_coproc_exc
-    #endif
-
-    /* Handle alloca and syscall exceptions */
-    #if XCHAL_HAVE_WINDOWED
-    beqi    a0, EXCCAUSE_ALLOCA,  _xt_to_alloca_exc
-    #endif
-    beqi    a0, EXCCAUSE_SYSCALL, _xt_to_syscall_exc
-
-	//HACK! No custom vector stuff, just call panic handler directly. ToDo: remove this when possible. -JD
-	call0 _xt_panic
-
-    /* Handle all other exceptions. All can have user-defined handlers. */
-    /* NOTE: we'll stay on the user stack for exception handling.       */
-
-    /* Allocate exception frame and save minimal context. */
-    mov     a0, sp
-    addi    sp, sp, -XT_STK_FRMSZ
-    s32i    a0, sp, XT_STK_A1
-    #if XCHAL_HAVE_WINDOWED
-    s32e    a0, sp, -12                     /* for debug backtrace */
-    #endif
-    rsr     a0, PS                          /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_1                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_1                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    #if XCHAL_HAVE_WINDOWED
-    s32e    a0, sp, -16                     /* for debug backtrace */
-    #endif
-    s32i    a12, sp, XT_STK_A12             /* _xt_context_save requires A12- */
-    s32i    a13, sp, XT_STK_A13             /* A13 to have already been saved */
-    call0   _xt_context_save
-
-    /* Save exc cause and vaddr into exception frame */
-    rsr     a0, EXCCAUSE
-    s32i    a0, sp, XT_STK_EXCCAUSE
-    rsr     a0, EXCVADDR
-    s32i    a0, sp, XT_STK_EXCVADDR
-
-    /* Set up PS for C, reenable hi-pri interrupts, and clear EXCM. */
-    #ifdef __XTENSA_CALL0_ABI__
-    movi    a0, PS_INTLEVEL(XCHAL_EXCM_LEVEL) | PS_UM
-    #else
-    movi    a0, PS_INTLEVEL(XCHAL_EXCM_LEVEL) | PS_UM | PS_WOE
-    #endif
-    wsr     a0, PS
-
-    #ifdef XT_DEBUG_BACKTRACE
-    #ifndef __XTENSA_CALL0_ABI__
-    rsr     a0, EPC_1                       /* return address for debug backtrace */
-    movi    a5, 0xC0000000                  /* constant with top 2 bits set (call size) */
-    rsync                                   /* wait for WSR.PS to complete */
-    or      a0, a0, a5                      /* set top 2 bits */
-    addx2   a0, a5, a0                      /* clear top bit -- thus simulating call4 size */
-    #else
-    rsync                                   /* wait for WSR.PS to complete */
-    #endif
-    #endif
-
-    rsr     a2, EXCCAUSE                    /* recover exc cause */
-
-    #ifdef XT_INTEXC_HOOKS
-    /*
-    Call exception hook to pre-handle exceptions (if installed).
-    Pass EXCCAUSE in a2, and check result in a2 (if -1, skip default handling).
-    */
-    movi    a4, _xt_intexc_hooks
-    l32i    a4, a4, 0                       /* user exception hook index 0 */
-    beqz    a4, 1f
-.Ln_xt_user_exc_call_hook:
-    #ifdef __XTENSA_CALL0_ABI__
-    callx0  a4
-    beqi    a2, -1, .L_xt_user_done
-    #else
-    mov     a6, a2
-    callx4  a4
-    beqi    a6, -1, .L_xt_user_done
-    mov     a2, a6
-    #endif
-1:
-    #endif
-
-    rsr     a2, EXCCAUSE                    /* recover exc cause */
-    movi    a3, _xt_exception_table
-    addx4   a4, a2, a3                      /* a4 = address of exception table entry */
-    l32i    a4, a4, 0                       /* a4 = handler address */
-    #ifdef __XTENSA_CALL0_ABI__
-    mov     a2, sp                          /* a2 = pointer to exc frame */
-    callx0  a4                              /* call handler */
-    #else
-    mov     a6, sp                          /* a6 = pointer to exc frame */
-    callx4  a4                              /* call handler */
-    #endif
-
-.L_xt_user_done:
-
-    /* Restore context and return */
-    call0   _xt_context_restore
-    l32i    a0, sp, XT_STK_PS               /* retrieve interruptee's PS */
-    wsr     a0, PS
-    l32i    a0, sp, XT_STK_PC               /* retrieve interruptee's PC */
-    wsr     a0, EPC_1
-    l32i    a0, sp, XT_STK_A0               /* retrieve interruptee's A0 */
-    l32i    sp, sp, XT_STK_A1               /* remove exception frame */
-    rsync                                   /* ensure PS and EPC written */
-    rfe                                     /* PS.EXCM is cleared */
-
-
-/*
---------------------------------------------------------------------------------
-  Exit point for dispatch. Saved in interrupt stack frame at XT_STK_EXIT
-  on entry and used to return to a thread or interrupted interrupt handler.
---------------------------------------------------------------------------------
-*/
-
-    .global     _xt_user_exit
-    .type       _xt_user_exit,@function
-    .align      4
-_xt_user_exit:
-    l32i    a0, sp, XT_STK_PS               /* retrieve interruptee's PS */
-    wsr     a0, PS
-    l32i    a0, sp, XT_STK_PC               /* retrieve interruptee's PC */
-    wsr     a0, EPC_1
-    l32i    a0, sp, XT_STK_A0               /* retrieve interruptee's A0 */
-    l32i    sp, sp, XT_STK_A1               /* remove interrupt stack frame */
-    rsync                                   /* ensure PS and EPC written */
-    rfe                                     /* PS.EXCM is cleared */
-
-
-/*
---------------------------------------------------------------------------------
-Syscall Exception Handler (jumped to from User Exception Handler).
-Syscall 0 is required to spill the register windows (no-op in Call 0 ABI).
-Only syscall 0 is handled here. Other syscalls return -1 to caller in a2.
---------------------------------------------------------------------------------
-*/
-
-    .text
-    .type       _xt_syscall_exc,@function
-    .align      4
-_xt_syscall_exc:
-
-    #ifdef __XTENSA_CALL0_ABI__
-    /*
-    Save minimal regs for scratch. Syscall 0 does nothing in Call0 ABI.
-    Use a minimal stack frame (16B) to save A2 & A3 for scratch.
-    PS.EXCM could be cleared here, but unlikely to improve worst-case latency.
-    rsr     a0, PS
-    addi    a0, a0, -PS_EXCM_MASK
-    wsr     a0, PS
-    */
-    addi    sp, sp, -16
-    s32i    a2, sp, 8
-    s32i    a3, sp, 12
-    #else   /* Windowed ABI */
-    /*
-    Save necessary context and spill the register windows.
-    PS.EXCM is still set and must remain set until after the spill.
-    Reuse context save function though it saves more than necessary.
-    For this reason, a full interrupt stack frame is allocated.
-    */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a12, sp, XT_STK_A12             /* _xt_context_save requires A12- */
-    s32i    a13, sp, XT_STK_A13             /* A13 to have already been saved */
-    call0   _xt_context_save
-    #endif
-
-    /*
-    Grab the interruptee's PC and skip over the 'syscall' instruction.
-    If it's at the end of a zero-overhead loop and it's not on the last
-    iteration, decrement loop counter and skip to beginning of loop.
-    */
-    rsr     a2, EPC_1                       /* a2 = PC of 'syscall' */
-    addi    a3, a2, 3                       /* ++PC                 */
-    #if XCHAL_HAVE_LOOPS
-    rsr     a0, LEND                        /* if (PC == LEND       */
-    bne     a3, a0, 1f
-    rsr     a0, LCOUNT                      /*     && LCOUNT != 0)  */
-    beqz    a0, 1f                          /* {                    */
-    addi    a0, a0, -1                      /*   --LCOUNT           */
-    rsr     a3, LBEG                        /*   PC = LBEG          */
-    wsr     a0, LCOUNT                      /* }                    */
-    #endif
-1:  wsr     a3, EPC_1                       /* update PC            */
-
-    /* Restore interruptee's context and return from exception. */
-    #ifdef __XTENSA_CALL0_ABI__
-    l32i    a2, sp, 8
-    l32i    a3, sp, 12
-    addi    sp, sp, 16
-    #else
-    call0   _xt_context_restore
-    addi    sp, sp, XT_STK_FRMSZ
-    #endif
-    movi    a0, -1
-    movnez  a2, a0, a2                      /* return -1 if not syscall 0 */
-    rsr     a0, EXCSAVE_1
-    rfe
-
-/*
---------------------------------------------------------------------------------
-Co-Processor Exception Handler (jumped to from User Exception Handler).
-These exceptions are generated by co-processor instructions, which are only
-allowed in thread code (not in interrupts or kernel code). This restriction is 
-deliberately imposed to reduce the burden of state-save/restore in interrupts.
---------------------------------------------------------------------------------
-*/
-#if XCHAL_CP_NUM > 0
-
-    .section .rodata, "a"
-
-/* Offset to CP n save area in thread's CP save area. */
-    .global _xt_coproc_sa_offset
-    .type   _xt_coproc_sa_offset,@object
-    .align  16                      /* minimize crossing cache boundaries */
-_xt_coproc_sa_offset:
-    .word   XT_CP0_SA, XT_CP1_SA, XT_CP2_SA, XT_CP3_SA
-    .word   XT_CP4_SA, XT_CP5_SA, XT_CP6_SA, XT_CP7_SA
-
-/* Bitmask for CP n's CPENABLE bit. */
-    .type   _xt_coproc_mask,@object
-    .align  16,,8                   /* try to keep it all in one cache line */
-    .set    i, 0
-_xt_coproc_mask:
-    .rept   XCHAL_CP_MAX
-    .long   (i<<16) | (1<<i)    // upper 16-bits = i, lower = bitmask
-    .set    i, i+1
-    .endr
-
-    .data
-
-/* Owner thread of CP n, identified by thread's CP save area (0 = unowned). */
-    .global _xt_coproc_owner_sa
-    .type   _xt_coproc_owner_sa,@object
-    .align  16,,XCHAL_CP_MAX<<2     /* minimize crossing cache boundaries */
-_xt_coproc_owner_sa:
-    .space  XCHAL_CP_MAX << 2
-
-    .text
-
-
-    .align  4
-.L_goto_invalid:
-    j   .L_xt_coproc_invalid    /* not in a thread (invalid) */
-    .align  4
-.L_goto_done:
-    j   .L_xt_coproc_done
-
-
-/*
---------------------------------------------------------------------------------
-  Coprocessor exception handler.
-  At entry, only a0 has been saved (in EXCSAVE_1).
---------------------------------------------------------------------------------
-*/
-
-    .type   _xt_coproc_exc,@function
-    .align  4
-
-_xt_coproc_exc:
-
-    /* Allocate interrupt stack frame and save minimal context. */
-    mov     a0, sp                          /* sp == a1 */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a0, sp, XT_STK_A1               /* save pre-interrupt SP */
-    #if XCHAL_HAVE_WINDOWED
-    s32e    a0, sp, -12                     /* for debug backtrace */
-    #endif
-    rsr     a0, PS                          /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_1                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_1                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    #if XCHAL_HAVE_WINDOWED
-    s32e    a0, sp, -16                     /* for debug backtrace */
-    #endif
-    movi    a0, _xt_user_exit               /* save exit point for dispatch */
-    s32i    a0, sp, XT_STK_EXIT
-
-    rsr     a0, EXCCAUSE
-    s32i    a5, sp, XT_STK_A5               /* save a5 */
-    addi    a5, a0, -EXCCAUSE_CP0_DISABLED  /* a5 = CP index */
-
-    /* Save a few more of interruptee's registers (a5 was already saved). */
-    s32i    a2,  sp, XT_STK_A2
-    s32i    a3,  sp, XT_STK_A3
-    s32i    a4,  sp, XT_STK_A4
-    s32i    a15, sp, XT_STK_A15
-
-    /* Get co-processor state save area of new owner thread. */
-    call0   XT_RTOS_CP_STATE                /* a15 = new owner's save area */
-    beqz    a15, .L_goto_invalid            /* not in a thread (invalid) */
-
-    /* Enable the co-processor's bit in CPENABLE. */
-    movi    a0, _xt_coproc_mask
-    rsr     a4, CPENABLE                    /* a4 = CPENABLE */
-    addx4   a0, a5, a0                      /* a0 = &_xt_coproc_mask[n] */
-    l32i    a0, a0, 0                       /* a0 = (n << 16) | (1 << n) */
-    movi    a3, _xt_coproc_owner_sa     /* (placed here for load slot) */
-    extui   a2, a0, 0, 16                   /* coprocessor bitmask portion */
-    or      a4, a4, a2                      /* a4 = CPENABLE | (1 << n) */
-    wsr     a4, CPENABLE
-
-    /* Get old coprocessor owner thread (save area ptr) and assign new one.  */
-    addx4   a3,  a5, a3                      /* a3 = &_xt_coproc_owner_sa[n] */
-    l32i    a2,  a3, 0                       /* a2 = old owner's save area */
-    s32i    a15, a3, 0                       /* _xt_coproc_owner_sa[n] = new */
-    rsync                                    /* ensure wsr.CPENABLE is complete */
-
-    /* Only need to context switch if new owner != old owner. */
-    beq     a15, a2, .L_goto_done           /* new owner == old, we're done */
-
-    /* If no old owner then nothing to save. */
-    beqz    a2, .L_check_new
-
-    /* If old owner not actively using CP then nothing to save. */
-    l16ui   a4,  a2,  XT_CPENABLE           /* a4 = old owner's CPENABLE */
-    bnone   a4,  a0,  .L_check_new          /* old owner not using CP    */
-
-.L_save_old:
-    /* Save old owner's coprocessor state. */
-
-    movi    a5, _xt_coproc_sa_offset
-
-    /* Mark old owner state as no longer active (CPENABLE bit n clear). */
-    xor     a4,  a4,  a0                    /* clear CP bit in CPENABLE    */
-    s16i    a4,  a2,  XT_CPENABLE           /* update old owner's CPENABLE */
-
-    extui   a4,  a0,  16,  5                /* a4 = CP index = n */
-    addx4   a5,  a4,  a5                    /* a5 = &_xt_coproc_sa_offset[n] */
-
-    /* Mark old owner state as saved (CPSTORED bit n set). */
-    l16ui   a4,  a2,  XT_CPSTORED           /* a4 = old owner's CPSTORED */
-    l32i    a5,  a5,  0                     /* a5 = XT_CP[n]_SA offset */
-    or      a4,  a4,  a0                    /* set CP in old owner's CPSTORED */
-    s16i    a4,  a2,  XT_CPSTORED           /* update old owner's CPSTORED */
-    l32i    a2, a2, XT_CP_ASA               /* ptr to actual (aligned) save area */
-    extui   a3, a0, 16, 5                   /* a3 = CP index = n */
-    add     a2, a2, a5                      /* a2 = old owner's area for CP n */
-
-    /*
-    The config-specific HAL macro invoked below destroys a2-5, preserves a0-1.
-    It is theoretically possible for Xtensa processor designers to write TIE 
-    that causes more address registers to be affected, but it is generally 
-    unlikely. If that ever happens, more registers needs to be saved/restored
-    around this macro invocation, and the value in a15 needs to be recomputed.
-    */
-    xchal_cpi_store_funcbody
-
-.L_check_new:
-    /* Check if any state has to be restored for new owner. */
-    /* NOTE: a15 = new owner's save area, cannot be zero when we get here. */
-
-    l16ui   a3,  a15, XT_CPSTORED           /* a3 = new owner's CPSTORED */
-    movi    a4, _xt_coproc_sa_offset
-    bnone   a3,  a0,  .L_check_cs           /* full CP not saved, check callee-saved */
-    xor     a3,  a3,  a0                    /* CPSTORED bit is set, clear it */
-    s16i    a3,  a15, XT_CPSTORED           /* update new owner's CPSTORED */
-
-    /* Adjust new owner's save area pointers to area for CP n. */
-    extui   a3,  a0, 16, 5                  /* a3 = CP index = n */
-    addx4   a4,  a3, a4                     /* a4 = &_xt_coproc_sa_offset[n] */
-    l32i    a4,  a4, 0                      /* a4 = XT_CP[n]_SA */
-    l32i    a5, a15, XT_CP_ASA              /* ptr to actual (aligned) save area */
-    add     a2,  a4, a5                     /* a2 = new owner's area for CP */
-
-    /*
-    The config-specific HAL macro invoked below destroys a2-5, preserves a0-1.
-    It is theoretically possible for Xtensa processor designers to write TIE 
-    that causes more address registers to be affected, but it is generally 
-    unlikely. If that ever happens, more registers needs to be saved/restored
-    around this macro invocation.
-    */
-    xchal_cpi_load_funcbody
-
-    /* Restore interruptee's saved registers. */
-    /* Can omit rsync for wsr.CPENABLE here because _xt_user_exit does it. */
-.L_xt_coproc_done:
-    l32i    a15, sp, XT_STK_A15
-    l32i    a5,  sp, XT_STK_A5
-    l32i    a4,  sp, XT_STK_A4
-    l32i    a3,  sp, XT_STK_A3
-    l32i    a2,  sp, XT_STK_A2
-    call0   _xt_user_exit                   /* return via exit dispatcher */
-    /* Never returns here - call0 is used as a jump (see note at top) */
-
-.L_check_cs:
-    /* a0 = CP mask in low bits, a15 = new owner's save area */
-    l16ui   a2, a15, XT_CP_CS_ST            /* a2 = mask of CPs saved    */
-    bnone   a2,  a0, .L_xt_coproc_done      /* if no match then done     */
-    and     a2,  a2, a0                     /* a2 = which CPs to restore */
-    extui   a2,  a2, 0, 8                   /* extract low 8 bits        */
-    s32i    a6,  sp, XT_STK_A6              /* save extra needed regs    */
-    s32i    a7,  sp, XT_STK_A7
-    s32i    a13, sp, XT_STK_A13
-    s32i    a14, sp, XT_STK_A14
-    call0   _xt_coproc_restorecs            /* restore CP registers      */
-    l32i    a6,  sp, XT_STK_A6              /* restore saved registers   */
-    l32i    a7,  sp, XT_STK_A7
-    l32i    a13, sp, XT_STK_A13
-    l32i    a14, sp, XT_STK_A14
-    j       .L_xt_coproc_done
-
-    /* Co-processor exception occurred outside a thread (not supported). */
-.L_xt_coproc_invalid:
-    #if XCHAL_HAVE_DEBUG
-    break   1, 1                            /* unhandled user exception */
-    #endif
-    call0   _xt_panic                       /* not in a thread (invalid) */
-    /* never returns */
-
-
-#endif /* XCHAL_CP_NUM */
-
-
-/*
--------------------------------------------------------------------------------
-  Level 1 interrupt dispatch. Assumes stack frame has not been allocated yet.
--------------------------------------------------------------------------------
-*/
-
-    .text   
-    .type       _xt_lowint1,@function
-    .align      4
-
-_xt_lowint1:
-    mov     a0, sp                          /* sp == a1 */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a0, sp, XT_STK_A1               /* save pre-interrupt SP */
-    rsr     a0, PS                          /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_1                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_1                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    movi    a0, _xt_user_exit               /* save exit point for dispatch */
-    s32i    a0, sp, XT_STK_EXIT
-
-    /* Save rest of interrupt context and enter RTOS. */
-    call0   XT_RTOS_INT_ENTER               /* common RTOS interrupt entry */
-
-    /* !! We are now on the RTOS system stack !! */ 
-
-    /* Set up PS for C, enable interrupts above this level and clear EXCM. */
-    #ifdef __XTENSA_CALL0_ABI__
-    movi    a0, PS_INTLEVEL(1) | PS_UM
-    #else 
-    movi    a0, PS_INTLEVEL(1) | PS_UM | PS_WOE
-    #endif
-    wsr     a0, PS
-    rsync
-
-    /* OK to call C code at this point, dispatch user ISRs */
-
-    dispatch_c_isr 1 XCHAL_INTLEVEL1_MASK
-
-    /* Done handling interrupts, transfer control to OS */
-    call0   XT_RTOS_INT_EXIT                /* does not return directly here */
-
-
-/*
--------------------------------------------------------------------------------
-  MEDIUM PRIORITY (LEVEL 2+) INTERRUPT VECTORS AND LOW LEVEL HANDLERS.
-
-  Medium priority interrupts are by definition those with priority greater
-  than 1 and not greater than XCHAL_EXCM_LEVEL. These are disabled by
-  setting PS.EXCM and therefore can easily support a C environment for
-  handlers in C, and interact safely with an RTOS.
-
-  Each vector goes at a predetermined location according to the Xtensa
-  hardware configuration, which is ensured by its placement in a special
-  section known to the Xtensa linker support package (LSP). It performs
-  the minimum necessary before jumping to the handler in the .text section.
-
-  The corresponding handler goes in the normal .text section. It sets up
-  the appropriate stack frame, saves a few vector-specific registers and
-  calls XT_RTOS_INT_ENTER to save the rest of the interrupted context
-  and enter the RTOS, then sets up a C environment. It then calls the
-  user's interrupt handler code (which may be coded in C) and finally 
-  calls XT_RTOS_INT_EXIT to transfer control to the RTOS for scheduling.
-
-  While XT_RTOS_INT_EXIT does not return directly to the interruptee,
-  eventually the RTOS scheduler will want to dispatch the interrupted
-  task or handler. The scheduler will return to the exit point that was
-  saved in the interrupt stack frame at XT_STK_EXIT.
--------------------------------------------------------------------------------
-*/
-
-#if XCHAL_EXCM_LEVEL >= 2
-
-    .begin      literal_prefix .Level2InterruptVector
-    .section    .Level2InterruptVector.text, "ax"
-    .global     _Level2Vector
-    .type       _Level2Vector,@function
-    .align      4
-_Level2Vector:
-    wsr     a0, EXCSAVE_2                   /* preserve a0 */
-    call0   _xt_medint2                     /* load interrupt handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_medint2,@function
-    .align      4
-_xt_medint2:
-    mov     a0, sp                          /* sp == a1 */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a0, sp, XT_STK_A1               /* save pre-interrupt SP */
-    rsr     a0, EPS_2                       /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_2                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_2                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    movi    a0, _xt_medint2_exit            /* save exit point for dispatch */
-    s32i    a0, sp, XT_STK_EXIT
-
-    /* Save rest of interrupt context and enter RTOS. */
-    call0   XT_RTOS_INT_ENTER               /* common RTOS interrupt entry */
-
-    /* !! We are now on the RTOS system stack !! */
-
-    /* Set up PS for C, enable interrupts above this level and clear EXCM. */
-    #ifdef __XTENSA_CALL0_ABI__
-    movi    a0, PS_INTLEVEL(2) | PS_UM
-    #else
-    movi    a0, PS_INTLEVEL(2) | PS_UM | PS_WOE
-    #endif
-    wsr     a0, PS
-    rsync
-
-    /* OK to call C code at this point, dispatch user ISRs */
-
-    dispatch_c_isr 2 XCHAL_INTLEVEL2_MASK
-
-    /* Done handling interrupts, transfer control to OS */
-    call0   XT_RTOS_INT_EXIT                /* does not return directly here */
-
-    /*
-    Exit point for dispatch. Saved in interrupt stack frame at XT_STK_EXIT
-    on entry and used to return to a thread or interrupted interrupt handler.
-    */
-    .global     _xt_medint2_exit
-    .type       _xt_medint2_exit,@function
-    .align      4
-_xt_medint2_exit:
-    /* Restore only level-specific regs (the rest were already restored) */
-    l32i    a0, sp, XT_STK_PS               /* retrieve interruptee's PS */
-    wsr     a0, EPS_2
-    l32i    a0, sp, XT_STK_PC               /* retrieve interruptee's PC */
-    wsr     a0, EPC_2
-    l32i    a0, sp, XT_STK_A0               /* retrieve interruptee's A0 */
-    l32i    sp, sp, XT_STK_A1               /* remove interrupt stack frame */
-    rsync                                   /* ensure EPS and EPC written */
-    rfi     2
-
-#endif  /* Level 2 */
-
-#if XCHAL_EXCM_LEVEL >= 3
-
-    .begin      literal_prefix .Level3InterruptVector
-    .section    .Level3InterruptVector.text, "ax"
-    .global     _Level3Vector
-    .type       _Level3Vector,@function
-    .align      4
-_Level3Vector:
-    wsr     a0, EXCSAVE_3                   /* preserve a0 */
-    call0   _xt_medint3                     /* load interrupt handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_medint3,@function
-    .align      4
-_xt_medint3:
-    mov     a0, sp                          /* sp == a1 */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a0, sp, XT_STK_A1               /* save pre-interrupt SP */
-    rsr     a0, EPS_3                       /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_3                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_3                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    movi    a0, _xt_medint3_exit            /* save exit point for dispatch */
-    s32i    a0, sp, XT_STK_EXIT
-
-    /* Save rest of interrupt context and enter RTOS. */
-    call0   XT_RTOS_INT_ENTER               /* common RTOS interrupt entry */
-
-    /* !! We are now on the RTOS system stack !! */
-
-    /* Set up PS for C, enable interrupts above this level and clear EXCM. */
-    #ifdef __XTENSA_CALL0_ABI__
-    movi    a0, PS_INTLEVEL(3) | PS_UM
-    #else
-    movi    a0, PS_INTLEVEL(3) | PS_UM | PS_WOE
-    #endif
-    wsr     a0, PS
-    rsync
-
-    /* OK to call C code at this point, dispatch user ISRs */
-
-    dispatch_c_isr 3 XCHAL_INTLEVEL3_MASK
-
-    /* Done handling interrupts, transfer control to OS */
-    call0   XT_RTOS_INT_EXIT                /* does not return directly here */
-
-    /*
-    Exit point for dispatch. Saved in interrupt stack frame at XT_STK_EXIT
-    on entry and used to return to a thread or interrupted interrupt handler.
-    */
-    .global     _xt_medint3_exit
-    .type       _xt_medint3_exit,@function
-    .align      4
-_xt_medint3_exit:
-    /* Restore only level-specific regs (the rest were already restored) */
-    l32i    a0, sp, XT_STK_PS               /* retrieve interruptee's PS */
-    wsr     a0, EPS_3
-    l32i    a0, sp, XT_STK_PC               /* retrieve interruptee's PC */
-    wsr     a0, EPC_3
-    l32i    a0, sp, XT_STK_A0               /* retrieve interruptee's A0 */
-    l32i    sp, sp, XT_STK_A1               /* remove interrupt stack frame */
-    rsync                                   /* ensure EPS and EPC written */
-    rfi     3
-
-#endif  /* Level 3 */
-
-#if XCHAL_EXCM_LEVEL >= 4
-
-    .begin      literal_prefix .Level4InterruptVector
-    .section    .Level4InterruptVector.text, "ax"
-    .global     _Level4Vector
-    .type       _Level4Vector,@function
-    .align      4
-_Level4Vector:
-    wsr     a0, EXCSAVE_4                   /* preserve a0 */
-    call0   _xt_medint4                     /* load interrupt handler */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_medint4,@function
-    .align      4
-_xt_medint4:
-    mov     a0, sp                          /* sp == a1 */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a0, sp, XT_STK_A1               /* save pre-interrupt SP */
-    rsr     a0, EPS_4                       /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_4                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_4                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    movi    a0, _xt_medint4_exit            /* save exit point for dispatch */
-    s32i    a0, sp, XT_STK_EXIT
-
-    /* Save rest of interrupt context and enter RTOS. */
-    call0   XT_RTOS_INT_ENTER               /* common RTOS interrupt entry */
-
-    /* !! We are now on the RTOS system stack !! */
-
-    /* Set up PS for C, enable interrupts above this level and clear EXCM. */
-    #ifdef __XTENSA_CALL0_ABI__
-    movi    a0, PS_INTLEVEL(4) | PS_UM
-    #else
-    movi    a0, PS_INTLEVEL(4) | PS_UM | PS_WOE
-    #endif
-    wsr     a0, PS
-    rsync
-
-    /* OK to call C code at this point, dispatch user ISRs */
-
-    dispatch_c_isr 4 XCHAL_INTLEVEL4_MASK
-
-    /* Done handling interrupts, transfer control to OS */
-    call0   XT_RTOS_INT_EXIT                /* does not return directly here */
-
-    /*
-    Exit point for dispatch. Saved in interrupt stack frame at XT_STK_EXIT
-    on entry and used to return to a thread or interrupted interrupt handler.
-    */
-    .global     _xt_medint4_exit
-    .type       _xt_medint4_exit,@function
-    .align      4
-_xt_medint4_exit:
-    /* Restore only level-specific regs (the rest were already restored) */
-    l32i    a0, sp, XT_STK_PS               /* retrieve interruptee's PS */
-    wsr     a0, EPS_4
-    l32i    a0, sp, XT_STK_PC               /* retrieve interruptee's PC */
-    wsr     a0, EPC_4
-    l32i    a0, sp, XT_STK_A0               /* retrieve interruptee's A0 */
-    l32i    sp, sp, XT_STK_A1               /* remove interrupt stack frame */
-    rsync                                   /* ensure EPS and EPC written */
-    rfi     4
-
-#endif  /* Level 4 */
-
-#if XCHAL_EXCM_LEVEL >= 5
-
-    .begin      literal_prefix .Level5InterruptVector
-    .section    .Level5InterruptVector.text, "ax"
-    .global     _Level5Vector
-    .type       _Level5Vector,@function
-    .align      4
-_Level5Vector:
-    wsr     a0, EXCSAVE_5                   /* preserve a0 */
-    call0   _xt_medint5                     /* load interrupt handler */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_medint5,@function
-    .align      4
-_xt_medint5:
-    mov     a0, sp                          /* sp == a1 */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a0, sp, XT_STK_A1               /* save pre-interrupt SP */
-    rsr     a0, EPS_5                       /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_5                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_5                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    movi    a0, _xt_medint5_exit            /* save exit point for dispatch */
-    s32i    a0, sp, XT_STK_EXIT
-
-    /* Save rest of interrupt context and enter RTOS. */
-    call0   XT_RTOS_INT_ENTER               /* common RTOS interrupt entry */
-
-    /* !! We are now on the RTOS system stack !! */
-
-    /* Set up PS for C, enable interrupts above this level and clear EXCM. */
-    #ifdef __XTENSA_CALL0_ABI__
-    movi    a0, PS_INTLEVEL(5) | PS_UM
-    #else
-    movi    a0, PS_INTLEVEL(5) | PS_UM | PS_WOE
-    #endif
-    wsr     a0, PS
-    rsync
-
-    /* OK to call C code at this point, dispatch user ISRs */
-
-    dispatch_c_isr 5 XCHAL_INTLEVEL5_MASK
-
-    /* Done handling interrupts, transfer control to OS */
-    call0   XT_RTOS_INT_EXIT                /* does not return directly here */
-
-    /*
-    Exit point for dispatch. Saved in interrupt stack frame at XT_STK_EXIT
-    on entry and used to return to a thread or interrupted interrupt handler.
-    */
-    .global     _xt_medint5_exit
-    .type       _xt_medint5_exit,@function
-    .align      4
-_xt_medint5_exit:
-    /* Restore only level-specific regs (the rest were already restored) */
-    l32i    a0, sp, XT_STK_PS               /* retrieve interruptee's PS */
-    wsr     a0, EPS_5
-    l32i    a0, sp, XT_STK_PC               /* retrieve interruptee's PC */
-    wsr     a0, EPC_5
-    l32i    a0, sp, XT_STK_A0               /* retrieve interruptee's A0 */
-    l32i    sp, sp, XT_STK_A1               /* remove interrupt stack frame */
-    rsync                                   /* ensure EPS and EPC written */
-    rfi     5
-
-#endif  /* Level 5 */
-
-#if XCHAL_EXCM_LEVEL >= 6
-
-    .begin      literal_prefix .Level6InterruptVector
-    .section    .Level6InterruptVector.text, "ax"
-    .global     _Level6Vector
-    .type       _Level6Vector,@function
-    .align      4
-_Level6Vector:
-    wsr     a0, EXCSAVE_6                   /* preserve a0 */
-    call0   _xt_medint6                     /* load interrupt handler */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_medint6,@function
-    .align      4
-_xt_medint6:
-    mov     a0, sp                          /* sp == a1 */
-    addi    sp, sp, -XT_STK_FRMSZ           /* allocate interrupt stack frame */
-    s32i    a0, sp, XT_STK_A1               /* save pre-interrupt SP */
-    rsr     a0, EPS_6                       /* save interruptee's PS */
-    s32i    a0, sp, XT_STK_PS
-    rsr     a0, EPC_6                       /* save interruptee's PC */
-    s32i    a0, sp, XT_STK_PC
-    rsr     a0, EXCSAVE_6                   /* save interruptee's a0 */
-    s32i    a0, sp, XT_STK_A0
-    movi    a0, _xt_medint6_exit            /* save exit point for dispatch */
-    s32i    a0, sp, XT_STK_EXIT
-
-    /* Save rest of interrupt context and enter RTOS. */
-    call0   XT_RTOS_INT_ENTER               /* common RTOS interrupt entry */
-
-    /* !! We are now on the RTOS system stack !! */
-
-    /* Set up PS for C, enable interrupts above this level and clear EXCM. */
-    #ifdef __XTENSA_CALL0_ABI__
-    movi    a0, PS_INTLEVEL(6) | PS_UM
-    #else
-    movi    a0, PS_INTLEVEL(6) | PS_UM | PS_WOE
-    #endif
-    wsr     a0, PS
-    rsync
-
-    /* OK to call C code at this point, dispatch user ISRs */
-
-    dispatch_c_isr 6 XCHAL_INTLEVEL6_MASK
-
-    /* Done handling interrupts, transfer control to OS */
-    call0   XT_RTOS_INT_EXIT                /* does not return directly here */
-
-    /*
-    Exit point for dispatch. Saved in interrupt stack frame at XT_STK_EXIT
-    on entry and used to return to a thread or interrupted interrupt handler.
-    */
-    .global     _xt_medint6_exit
-    .type       _xt_medint6_exit,@function
-    .align      4
-_xt_medint6_exit:
-    /* Restore only level-specific regs (the rest were already restored) */
-    l32i    a0, sp, XT_STK_PS               /* retrieve interruptee's PS */
-    wsr     a0, EPS_6
-    l32i    a0, sp, XT_STK_PC               /* retrieve interruptee's PC */
-    wsr     a0, EPC_6
-    l32i    a0, sp, XT_STK_A0               /* retrieve interruptee's A0 */
-    l32i    sp, sp, XT_STK_A1               /* remove interrupt stack frame */
-    rsync                                   /* ensure EPS and EPC written */
-    rfi     6
-
-#endif  /* Level 6 */
-
-
-/*******************************************************************************
-
-HIGH PRIORITY (LEVEL > XCHAL_EXCM_LEVEL) INTERRUPT VECTORS AND HANDLERS
-
-High priority interrupts are by definition those with priorities greater
-than XCHAL_EXCM_LEVEL. This includes non-maskable (NMI). High priority
-interrupts cannot interact with the RTOS, that is they must save all regs
-they use and not call any RTOS function.
-
-A further restriction imposed by the Xtensa windowed architecture is that
-high priority interrupts must not modify the stack area even logically
-"above" the top of the interrupted stack (they need to provide their
-own stack or static save area).
-
-Cadence Design Systems recommends high priority interrupt handlers be coded in assembly
-and used for purposes requiring very short service times.
-
-Here are templates for high priority (level 2+) interrupt vectors.
-They assume only one interrupt per level to avoid the burden of identifying
-which interrupts at this level are pending and enabled. This allows for 
-minimum latency and avoids having to save/restore a2 in addition to a0.
-If more than one interrupt per high priority level is configured, this burden
-is on the handler which in any case must provide a way to save and restore
-registers it uses without touching the interrupted stack.
-
-Each vector goes at a predetermined location according to the Xtensa
-hardware configuration, which is ensured by its placement in a special
-section known to the Xtensa linker support package (LSP). It performs
-the minimum necessary before jumping to the handler in the .text section.
-
-*******************************************************************************/
-
-/*
-Currently only shells for high priority interrupt handlers are provided
-here. However a template and example can be found in the Cadence Design Systems tools
-documentation: "Microprocessor Programmer's Guide".
-*/
-
-#if XCHAL_NUM_INTLEVELS >=2 && XCHAL_EXCM_LEVEL <2 && XCHAL_DEBUGLEVEL !=2
-
-    .begin      literal_prefix .Level2InterruptVector
-    .section    .Level2InterruptVector.text, "ax"
-    .global     _Level2Vector
-    .type       _Level2Vector,@function
-    .align      4
-_Level2Vector:
-    wsr     a0, EXCSAVE_2                   /* preserve a0 */
-    call0   _xt_highint2                    /* load interrupt handler */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_highint2,@function
-    .align      4
-_xt_highint2:
-
-    #ifdef XT_INTEXC_HOOKS
-    /* Call interrupt hook if present to (pre)handle interrupts. */
-    movi    a0, _xt_intexc_hooks
-    l32i    a0, a0, 2<<2
-    beqz    a0, 1f
-.Ln_xt_highint2_call_hook:
-    callx0  a0                              /* must NOT disturb stack! */
-1:
-    #endif
-
-    /* USER_EDIT:
-    ADD HIGH PRIORITY LEVEL 2 INTERRUPT HANDLER CODE HERE.
-    */
-
-    .align  4
-.L_xt_highint2_exit:
-    rsr     a0, EXCSAVE_2                   /* restore a0 */
-    rfi     2
-
-#endif  /* Level 2 */
-
-#if XCHAL_NUM_INTLEVELS >=3 && XCHAL_EXCM_LEVEL <3 && XCHAL_DEBUGLEVEL !=3
-
-    .begin      literal_prefix .Level3InterruptVector
-    .section    .Level3InterruptVector.text, "ax"
-    .global     _Level3Vector
-    .type       _Level3Vector,@function
-    .align      4
-_Level3Vector:
-    wsr     a0, EXCSAVE_3                   /* preserve a0 */
-    call0   _xt_highint3                    /* load interrupt handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_highint3,@function
-    .align      4
-_xt_highint3:
-
-    #ifdef XT_INTEXC_HOOKS
-    /* Call interrupt hook if present to (pre)handle interrupts. */
-    movi    a0, _xt_intexc_hooks
-    l32i    a0, a0, 3<<2
-    beqz    a0, 1f
-.Ln_xt_highint3_call_hook:
-    callx0  a0                              /* must NOT disturb stack! */
-1:
-    #endif
-
-    /* USER_EDIT:
-    ADD HIGH PRIORITY LEVEL 3 INTERRUPT HANDLER CODE HERE.
-    */
-
-    .align  4
-.L_xt_highint3_exit:
-    rsr     a0, EXCSAVE_3                   /* restore a0 */
-    rfi     3
-
-#endif  /* Level 3 */
-
-#if XCHAL_NUM_INTLEVELS >=4 && XCHAL_EXCM_LEVEL <4 && XCHAL_DEBUGLEVEL !=4
-
-    .begin      literal_prefix .Level4InterruptVector
-    .section    .Level4InterruptVector.text, "ax"
-    .global     _Level4Vector
-    .type       _Level4Vector,@function
-    .align      4
-_Level4Vector:
-    wsr     a0, EXCSAVE_4                   /* preserve a0 */
-    call0   _xt_highint4                    /* load interrupt handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_highint4,@function
-    .align      4
-_xt_highint4:
-
-    #ifdef XT_INTEXC_HOOKS
-    /* Call interrupt hook if present to (pre)handle interrupts. */
-    movi    a0, _xt_intexc_hooks
-    l32i    a0, a0, 4<<2
-    beqz    a0, 1f
-.Ln_xt_highint4_call_hook:
-    callx0  a0                              /* must NOT disturb stack! */
-1:
-    #endif
-
-    /* USER_EDIT:
-    ADD HIGH PRIORITY LEVEL 4 INTERRUPT HANDLER CODE HERE.
-    */
-
-    .align  4
-.L_xt_highint4_exit:
-    rsr     a0, EXCSAVE_4                   /* restore a0 */
-    rfi     4
-
-#endif  /* Level 4 */
-
-#if XCHAL_NUM_INTLEVELS >=5 && XCHAL_EXCM_LEVEL <5 && XCHAL_DEBUGLEVEL !=5
-
-    .begin      literal_prefix .Level5InterruptVector
-    .section    .Level5InterruptVector.text, "ax"
-    .global     _Level5Vector
-    .type       _Level5Vector,@function
-    .align      4
-_Level5Vector:
-    wsr     a0, EXCSAVE_5                   /* preserve a0 */
-    call0   _xt_highint5                    /* load interrupt handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_highint5,@function
-    .align      4
-_xt_highint5:
-
-    #ifdef XT_INTEXC_HOOKS
-    /* Call interrupt hook if present to (pre)handle interrupts. */
-    movi    a0, _xt_intexc_hooks
-    l32i    a0, a0, 5<<2
-    beqz    a0, 1f
-.Ln_xt_highint5_call_hook:
-    callx0  a0                              /* must NOT disturb stack! */
-1:
-    #endif
-
-    /* USER_EDIT:
-    ADD HIGH PRIORITY LEVEL 5 INTERRUPT HANDLER CODE HERE.
-    */
-
-    .align  4
-.L_xt_highint5_exit:
-    rsr     a0, EXCSAVE_5                   /* restore a0 */
-    rfi     5
-
-#endif  /* Level 5 */
-
-#if XCHAL_NUM_INTLEVELS >=6 && XCHAL_EXCM_LEVEL <6 && XCHAL_DEBUGLEVEL !=6
-
-    .begin      literal_prefix .Level6InterruptVector
-    .section    .Level6InterruptVector.text, "ax"
-    .global     _Level6Vector
-    .type       _Level6Vector,@function
-    .align      4
-_Level6Vector:
-    wsr     a0, EXCSAVE_6                   /* preserve a0 */
-    call0   _xt_highint6                    /* load interrupt handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_highint6,@function
-    .align      4
-_xt_highint6:
-
-    #ifdef XT_INTEXC_HOOKS
-    /* Call interrupt hook if present to (pre)handle interrupts. */
-    movi    a0, _xt_intexc_hooks
-    l32i    a0, a0, 6<<2
-    beqz    a0, 1f
-.Ln_xt_highint6_call_hook:
-    callx0  a0                              /* must NOT disturb stack! */
-1:
-    #endif
-
-    /* USER_EDIT:
-    ADD HIGH PRIORITY LEVEL 6 INTERRUPT HANDLER CODE HERE.
-    */
-
-    .align  4
-.L_xt_highint6_exit:
-    rsr     a0, EXCSAVE_6                   /* restore a0 */
-    rfi     6
-
-#endif  /* Level 6 */
-
-#if XCHAL_HAVE_NMI
-
-    .begin      literal_prefix .NMIExceptionVector
-    .section    .NMIExceptionVector.text, "ax"
-    .global     _NMIExceptionVector
-    .type       _NMIExceptionVector,@function
-    .align      4
-_NMIExceptionVector:
-    wsr     a0, EXCSAVE + XCHAL_NMILEVEL  _ /* preserve a0 */
-    call0   _xt_nmi                         /* load interrupt handler */
-    /* never returns here - call0 is used as a jump (see note at top) */
-
-    .end        literal_prefix
-
-    .text
-    .type       _xt_nmi,@function
-    .align      4
-_xt_nmi:
-
-    #ifdef XT_INTEXC_HOOKS
-    /* Call interrupt hook if present to (pre)handle interrupts. */
-    movi    a0, _xt_intexc_hooks
-    l32i    a0, a0, XCHAL_NMILEVEL<<2
-    beqz    a0, 1f
-.Ln_xt_nmi_call_hook:
-    callx0  a0                              /* must NOT disturb stack! */
-1:
-    #endif
-
-    /* USER_EDIT:
-    ADD HIGH PRIORITY NON-MASKABLE INTERRUPT (NMI) HANDLER CODE HERE.
-    */
-
-    .align  4
-.L_xt_nmi_exit:
-    rsr     a0, EXCSAVE + XCHAL_NMILEVEL    /* restore a0 */
-    rfi     XCHAL_NMILEVEL
-
-#endif  /* NMI */
-
-
-/*******************************************************************************
-
-WINDOW OVERFLOW AND UNDERFLOW EXCEPTION VECTORS AND ALLOCA EXCEPTION HANDLER
-
-Here is the code for each window overflow/underflow exception vector and 
-(interspersed) efficient code for handling the alloca exception cause.
-Window exceptions are handled entirely in the vector area and are very
-tight for performance. The alloca exception is also handled entirely in 
-the window vector area so comes at essentially no cost in code size.
-Users should never need to modify them and Cadence Design Systems recommends 
-they do not.
-
-Window handlers go at predetermined vector locations according to the
-Xtensa hardware configuration, which is ensured by their placement in a
-special section known to the Xtensa linker support package (LSP). Since
-their offsets in that section are always the same, the LSPs do not define
-a section per vector.
-
-These things are coded for XEA2 only (XEA1 is not supported).
-
-Note on Underflow Handlers:
-The underflow handler for returning from call[i+1] to call[i]
-must preserve all the registers from call[i+1]'s window.
-In particular, a0 and a1 must be preserved because the RETW instruction
-will be reexecuted (and may even underflow if an intervening exception
-has flushed call[i]'s registers).
-Registers a2 and up may contain return values.
-
-*******************************************************************************/
-
-#if XCHAL_HAVE_WINDOWED
-
-    .section .WindowVectors.text, "ax"
-
-/*
---------------------------------------------------------------------------------
-Window Overflow Exception for Call4.
-
-Invoked if a call[i] referenced a register (a4-a15)
-that contains data from ancestor call[j];
-call[j] had done a call4 to call[j+1].
-On entry here:
-    window rotated to call[j] start point;
-        a0-a3 are registers to be saved;
-        a4-a15 must be preserved;
-        a5 is call[j+1]'s stack pointer.
---------------------------------------------------------------------------------
-*/
-
-    .org    0x0
-    .global _WindowOverflow4
-_WindowOverflow4:
-
-    s32e    a0, a5, -16     /* save a0 to call[j+1]'s stack frame */
-    s32e    a1, a5, -12     /* save a1 to call[j+1]'s stack frame */
-    s32e    a2, a5,  -8     /* save a2 to call[j+1]'s stack frame */
-    s32e    a3, a5,  -4     /* save a3 to call[j+1]'s stack frame */
-    rfwo                    /* rotates back to call[i] position */
-
-/*
---------------------------------------------------------------------------------
-Window Underflow Exception for Call4
-
-Invoked by RETW returning from call[i+1] to call[i]
-where call[i]'s registers must be reloaded (not live in ARs);
-where call[i] had done a call4 to call[i+1].
-On entry here:
-        window rotated to call[i] start point;
-        a0-a3 are undefined, must be reloaded with call[i].reg[0..3];
-        a4-a15 must be preserved (they are call[i+1].reg[0..11]);
-        a5 is call[i+1]'s stack pointer.
---------------------------------------------------------------------------------
-*/
-
-    .org    0x40
-    .global _WindowUnderflow4
-_WindowUnderflow4:
-
-    l32e    a0, a5, -16     /* restore a0 from call[i+1]'s stack frame */
-    l32e    a1, a5, -12     /* restore a1 from call[i+1]'s stack frame */
-    l32e    a2, a5,  -8     /* restore a2 from call[i+1]'s stack frame */
-    l32e    a3, a5,  -4     /* restore a3 from call[i+1]'s stack frame */
-    rfwu
-
-/*
---------------------------------------------------------------------------------
-Handle alloca exception generated by interruptee executing 'movsp'.
-This uses space between the window vectors, so is essentially "free".
-All interruptee's regs are intact except a0 which is saved in EXCSAVE_1,
-and PS.EXCM has been set by the exception hardware (can't be interrupted).
-The fact the alloca exception was taken means the registers associated with
-the base-save area have been spilled and will be restored by the underflow
-handler, so those 4 registers are available for scratch.
-The code is optimized to avoid unaligned branches and minimize cache misses.
---------------------------------------------------------------------------------
-*/
-
-    .align  4
-    .global _xt_alloca_exc
-_xt_alloca_exc:
-
-    rsr     a0, WINDOWBASE  /* grab WINDOWBASE before rotw changes it */
-    rotw    -1              /* WINDOWBASE goes to a4, new a0-a3 are scratch */
-    rsr     a2, PS
-    extui   a3, a2, XCHAL_PS_OWB_SHIFT, XCHAL_PS_OWB_BITS
-    xor     a3, a3, a4      /* bits changed from old to current windowbase */
-    rsr     a4, EXCSAVE_1   /* restore original a0 (now in a4) */
-    slli    a3, a3, XCHAL_PS_OWB_SHIFT
-    xor     a2, a2, a3      /* flip changed bits in old window base */
-    wsr     a2, PS          /* update PS.OWB to new window base */
-    rsync
-
-    _bbci.l a4, 31, _WindowUnderflow4
-    rotw    -1              /* original a0 goes to a8 */
-    _bbci.l a8, 30, _WindowUnderflow8
-    rotw    -1
-    j               _WindowUnderflow12
-
-/*
---------------------------------------------------------------------------------
-Window Overflow Exception for Call8
-
-Invoked if a call[i] referenced a register (a4-a15)
-that contains data from ancestor call[j];
-call[j] had done a call8 to call[j+1].
-On entry here:
-    window rotated to call[j] start point;
-        a0-a7 are registers to be saved;
-        a8-a15 must be preserved;
-        a9 is call[j+1]'s stack pointer.
---------------------------------------------------------------------------------
-*/
-
-    .org    0x80
-    .global _WindowOverflow8
-_WindowOverflow8:
-
-    s32e    a0, a9, -16     /* save a0 to call[j+1]'s stack frame */
-    l32e    a0, a1, -12     /* a0 <- call[j-1]'s sp
-                               (used to find end of call[j]'s frame) */
-    s32e    a1, a9, -12     /* save a1 to call[j+1]'s stack frame */
-    s32e    a2, a9,  -8     /* save a2 to call[j+1]'s stack frame */
-    s32e    a3, a9,  -4     /* save a3 to call[j+1]'s stack frame */
-    s32e    a4, a0, -32     /* save a4 to call[j]'s stack frame */
-    s32e    a5, a0, -28     /* save a5 to call[j]'s stack frame */
-    s32e    a6, a0, -24     /* save a6 to call[j]'s stack frame */
-    s32e    a7, a0, -20     /* save a7 to call[j]'s stack frame */
-    rfwo                    /* rotates back to call[i] position */
-
-/*
---------------------------------------------------------------------------------
-Window Underflow Exception for Call8
-
-Invoked by RETW returning from call[i+1] to call[i]
-where call[i]'s registers must be reloaded (not live in ARs);
-where call[i] had done a call8 to call[i+1].
-On entry here:
-        window rotated to call[i] start point;
-        a0-a7 are undefined, must be reloaded with call[i].reg[0..7];
-        a8-a15 must be preserved (they are call[i+1].reg[0..7]);
-        a9 is call[i+1]'s stack pointer.
---------------------------------------------------------------------------------
-*/
-
-    .org    0xC0
-    .global _WindowUnderflow8
-_WindowUnderflow8:
-
-    l32e    a0, a9, -16     /* restore a0 from call[i+1]'s stack frame */
-    l32e    a1, a9, -12     /* restore a1 from call[i+1]'s stack frame */
-    l32e    a2, a9,  -8     /* restore a2 from call[i+1]'s stack frame */
-    l32e    a7, a1, -12     /* a7 <- call[i-1]'s sp
-                               (used to find end of call[i]'s frame) */
-    l32e    a3, a9,  -4     /* restore a3 from call[i+1]'s stack frame */
-    l32e    a4, a7, -32     /* restore a4 from call[i]'s stack frame */
-    l32e    a5, a7, -28     /* restore a5 from call[i]'s stack frame */
-    l32e    a6, a7, -24     /* restore a6 from call[i]'s stack frame */
-    l32e    a7, a7, -20     /* restore a7 from call[i]'s stack frame */
-    rfwu
-
-/*
---------------------------------------------------------------------------------
-Window Overflow Exception for Call12
-
-Invoked if a call[i] referenced a register (a4-a15)
-that contains data from ancestor call[j];
-call[j] had done a call12 to call[j+1].
-On entry here:
-    window rotated to call[j] start point;
-        a0-a11 are registers to be saved;
-        a12-a15 must be preserved;
-        a13 is call[j+1]'s stack pointer.
---------------------------------------------------------------------------------
-*/
-
-    .org    0x100
-    .global _WindowOverflow12
-_WindowOverflow12:
-
-    s32e    a0,  a13, -16   /* save a0 to call[j+1]'s stack frame */
-    l32e    a0,  a1,  -12   /* a0 <- call[j-1]'s sp
-                               (used to find end of call[j]'s frame) */
-    s32e    a1,  a13, -12   /* save a1 to call[j+1]'s stack frame */
-    s32e    a2,  a13,  -8   /* save a2 to call[j+1]'s stack frame */
-    s32e    a3,  a13,  -4   /* save a3 to call[j+1]'s stack frame */
-    s32e    a4,  a0,  -48   /* save a4 to end of call[j]'s stack frame */
-    s32e    a5,  a0,  -44   /* save a5 to end of call[j]'s stack frame */
-    s32e    a6,  a0,  -40   /* save a6 to end of call[j]'s stack frame */
-    s32e    a7,  a0,  -36   /* save a7 to end of call[j]'s stack frame */
-    s32e    a8,  a0,  -32   /* save a8 to end of call[j]'s stack frame */
-    s32e    a9,  a0,  -28   /* save a9 to end of call[j]'s stack frame */
-    s32e    a10, a0,  -24   /* save a10 to end of call[j]'s stack frame */
-    s32e    a11, a0,  -20   /* save a11 to end of call[j]'s stack frame */
-    rfwo                    /* rotates back to call[i] position */
-
-/*
---------------------------------------------------------------------------------
-Window Underflow Exception for Call12
-
-Invoked by RETW returning from call[i+1] to call[i]
-where call[i]'s registers must be reloaded (not live in ARs);
-where call[i] had done a call12 to call[i+1].
-On entry here:
-        window rotated to call[i] start point;
-        a0-a11 are undefined, must be reloaded with call[i].reg[0..11];
-        a12-a15 must be preserved (they are call[i+1].reg[0..3]);
-        a13 is call[i+1]'s stack pointer.
---------------------------------------------------------------------------------
-*/
-
-    .org 0x140
-    .global _WindowUnderflow12
-_WindowUnderflow12:
-
-    l32e    a0,  a13, -16   /* restore a0 from call[i+1]'s stack frame */
-    l32e    a1,  a13, -12   /* restore a1 from call[i+1]'s stack frame */
-    l32e    a2,  a13,  -8   /* restore a2 from call[i+1]'s stack frame */
-    l32e    a11, a1,  -12   /* a11 <- call[i-1]'s sp
-                               (used to find end of call[i]'s frame) */
-    l32e    a3,  a13,  -4   /* restore a3 from call[i+1]'s stack frame */
-    l32e    a4,  a11, -48   /* restore a4 from end of call[i]'s stack frame */
-    l32e    a5,  a11, -44   /* restore a5 from end of call[i]'s stack frame */
-    l32e    a6,  a11, -40   /* restore a6 from end of call[i]'s stack frame */
-    l32e    a7,  a11, -36   /* restore a7 from end of call[i]'s stack frame */
-    l32e    a8,  a11, -32   /* restore a8 from end of call[i]'s stack frame */
-    l32e    a9,  a11, -28   /* restore a9 from end of call[i]'s stack frame */
-    l32e    a10, a11, -24   /* restore a10 from end of call[i]'s stack frame */
-    l32e    a11, a11, -20   /* restore a11 from end of call[i]'s stack frame */
-    rfwu
-
-#endif /* XCHAL_HAVE_WINDOWED */
-
-    .section    .UserEnter.text, "ax"
-    .global     call_user_start
-    .type       call_user_start,@function
-    .align      4
-    .literal_position
-
-
-call_user_start:
-
-	movi	a2, 0x40040000	/* note: absolute symbol, not a ptr */
-	wsr	a2, vecbase
-	call0   user_start                    /* user exception handler */