+++ /dev/null
-// crt1-boards.S
-//
-// For most hardware / boards, this code sets up the C calling context
-// (setting up stack, PS, and clearing BSS) and jumps to __clibrary_start
-// which sets up the C library, calls constructors and registers destructors,
-// and calls main().
-//
-// Control arrives here at _start from the reset vector or from crt0-app.S.
-
-// Copyright (c) 1998-2010 Tensilica 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.
-
-#include <xtensa/coreasm.h>
-#include "xtos-internal.h"
-
-
-// Exports
-.global _start
-
-// Imports
-// __clibrary_init from C library (eg. newlib or uclibc)
-// exit from C library
-// main from user application
-// board_init board-specific (uart/mingloss/tinygloss.c)
-// xthal_dcache_all_writeback from HAL library
-// __stack from linker script (see LSP Ref Manual)
-// _bss_table_start from linker script (see LSP Ref Manual)
-// _bss_table_end from linker script (see LSP Ref Manual)
-
-.type main, @function
-
-// Macros to abstract away ABI differences
-
-#if __XTENSA_CALL0_ABI__
-# define CALL call0
-# define ARG1 a2 /* 1st outgoing call argument */
-# define ARG2 a3 /* 2nd outgoing call argument */
-# define ARG3 a4 /* 3rd outgoing call argument */
-# define ARG4 a5 /* 4th outgoing call argument */
-# define ARG5 a6 /* 5th outgoing call argument */
-#else
-# define CALL call4
-# define ARG1 a6 /* 1st outgoing call argument */
-# define ARG2 a7 /* 2nd outgoing call argument */
-# define ARG3 a8 /* 3rd outgoing call argument */
-# define ARG4 a9 /* 4th outgoing call argument */
-# define ARG5 a10 /* 5th outgoing call argument */
-#endif
-
-
-/**************************************************************************/
-
- .text
- .align 4
-_start:
- // _start is typically NOT at the beginning of the text segment --
- // it is always called from either the reset vector or other code
- // that does equivalent initialization (such as crt0-app.S).
- //
- // Assumptions on entry to _start:
- // - low (level-one) and medium priority interrupts are disabled
- // via PS.INTLEVEL and/or INTENABLE (PS.INTLEVEL is expected to
- // be zeroed, to potentially enable them, before calling main)
- // - C calling context not initialized:
- // - PS not initialized
- // - SP not initialized
- // - the following are initialized:
- // - LITBASE, cache attributes, WindowBase, WindowStart,
- // CPENABLE, FP's FCR and FSR, EXCSAVE[n]
-
- // Keep a0 zero. It is used to initialize a few things.
- // It is also the return address, where zero indicates
- // that the frame used by _start is the bottommost frame.
- //
-#if !XCHAL_HAVE_HALT || !XCHAL_HAVE_BOOTLOADER // not needed for Xtensa TX
- movi a0, 0 // keep this register zero.
-#endif
-
-#if XTOS_RESET_UNNEEDED && !XCHAL_HAVE_HALT
-#include "reset-unneeded.S"
-#endif
-
- // Initialize the stack pointer.
- // See the "ABI and Software Conventions" chapter in the
- // Xtensa ISA Reference manual for details.
-
- // NOTE: Because the _start routine does not use any memory in its
- // stack frame, and because all of its CALL instructions use a
- // window size of 4 (or zero), the stack frame for _start can be empty.
-
- movi sp, __stack
-
- /*
- * Now that sp (a1) is set, we can set PS as per the application
- * (user vector mode, enable interrupts, enable window exceptions if applicable).
- */
-#if XCHAL_HAVE_EXCEPTIONS
-# ifdef __XTENSA_CALL0_ABI__
- movi a3, PS_UM // PS.WOE = 0, PS.UM = 1, PS.EXCM = 0, PS.INTLEVEL = 0
-# else
- movi a3, PS_UM|PS_WOE // PS.WOE = 1, PS.UM = 1, PS.EXCM = 0, PS.INTLEVEL = 0
-# endif
- wsr a3, PS
- rsync
-#endif
-
-
-#if !XCHAL_HAVE_BOOTLOADER /* boot loader takes care of zeroing BSS */
- /*
- * Clear the BSS (uninitialized data) segments.
- * This code supports multiple zeroed sections (*.bss).
- *
- * Register allocation:
- * a0 = 0
- * a6 = pointer to start of table, and through table
- * a7 = pointer to end of table
- * a8 = start address of bytes to be zeroed
- * a9 = end address of bytes to be zeroed
- * a10 = length of bytes to be zeroed
- */
- movi a6, _bss_table_start
- movi a7, _bss_table_end
- bgeu a6, a7, .L3zte
-
-.L0zte: l32i a8, a6, 0 // get start address, assumed multiple of 4
- l32i a9, a6, 4 // get end address, assumed multiple of 4
- addi a6, a6, 8 // next entry
- sub a10, a9, a8 // a10 = length, assumed a multiple of 4
- bbci.l a10, 2, .L1zte
- s32i a0, a8, 0 // clear 4 bytes to make length multiple of 8
- addi a8, a8, 4
-.L1zte: bbci.l a10, 3, .L2zte
- s32i a0, a8, 0 // clear 8 bytes to make length multiple of 16
- s32i a0, a8, 4
- addi a8, a8, 8
-.L2zte: srli a10, a10, 4 // length is now multiple of 16, divide by 16
- floopnez a10, clearzte
- s32i a0, a8, 0 // clear 16 bytes at a time...
- s32i a0, a8, 4
- s32i a0, a8, 8
- s32i a0, a8, 12
- addi a8, a8, 16
- floopend a10, clearzte
-
- bltu a6, a7, .L0zte // loop until end of table of *.bss sections
-.L3zte:
-#endif
-
-
- // We can now call C code, the C calling environment has been initialized.
- //
- // From this point on, we use ABI-specific macros to refer to registers a0 .. a15
- // (ARG#).
-
-
-#if XCHAL_HAVE_HALT
-
- // Assume minimalist environment for memory-constrained TX cores.
- // No C library or board initialization, no parameters passed to main
- // (assume declared as "void main(void)") and no call to exit().
-
- CALL main
- halt
-
-#else /* !HALT */
-
- .type board_init, @function
- .type __clibrary_init, @function
- .type exit, @function
-
-
- // Initialize the board (eg. the UART on the XT2000).
- CALL board_init
-
- /*
- * Call __clibrary_init to initialize the C library:
- *
- * void __clibrary_init(int argc, char ** argv, char ** environ,
- * void(*init_func)(void), void(*fini_func)(void));
- */
-
- // Pass an empty argv array, with an empty string as the program name.
-
- movi ARG1, _start_argc // argc address
- movi ARG2, _start_argv // argv = ["", 0]
- movi ARG3, _start_envp // envp = [0]
- movi ARG4, _init // function that calls constructors
- movi ARG5, _fini // function that calls destructors
- l32i ARG1, ARG1, 0 // argc = 1
- CALL __clibrary_init
-
- // Call: int main(int argc, char ** argv, char ** environ);
- movi ARG1, _start_argc // argc address
- movi ARG2, _start_argv // argv = ["", 0]
- movi ARG3, _start_envp // envp = [0]
- l32i ARG1, ARG1, 0 // argc = 1
- CALL main
- // The return value is the same register as the first outgoing argument.
- CALL exit // exit with main's return value
- // Does not return here.
-
- .data
- // Mark argc/argv/envp parameters as weak so that an external
- // object file can override them.
- .weak _start_argc, _start_argv, _start_envp
- .align 4
-_start_argv:
- .word _start_null // empty program name
-_start_null:
-_start_envp:
- .word 0 // end of argv array, empty string, empty environ
-_start_argc:
- .word 1 // one argument (program name)
- .text
-
-#endif /* !HALT */
-
- .size _start, . - _start
-