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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [hal/] [mips/] [arch/] [v2_0/] [src/] [hal_misc.c] - Rev 27
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//========================================================================== // // hal_misc.c // // HAL miscellaneous functions // //========================================================================== //####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc. // // eCos is free software; you can redistribute it and/or modify it under // the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 or (at your option) any later version. // // eCos is distributed in the hope that it will be useful, but WITHOUT ANY // WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // You should have received a copy of the GNU General Public License along // with eCos; if not, write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. // // As a special exception, if other files instantiate templates or use macros // or inline functions from this file, or you compile this file and link it // with other works to produce a work based on this file, this file does not // by itself cause the resulting work to be covered by the GNU General Public // License. However the source code for this file must still be made available // in accordance with section (3) of the GNU General Public License. // // This exception does not invalidate any other reasons why a work based on // this file might be covered by the GNU General Public License. // // Alternative licenses for eCos may be arranged by contacting Red Hat, Inc. // at http://sources.redhat.com/ecos/ecos-license/ // ------------------------------------------- //####ECOSGPLCOPYRIGHTEND#### //========================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): nickg // Contributors: nickg, jlarmour // Date: 1999-01-21 // Purpose: HAL miscellaneous functions // Description: This file contains miscellaneous functions provided by the // HAL. // //####DESCRIPTIONEND#### // //========================================================================*/ #include <pkgconf/hal.h> #include <cyg/infra/cyg_type.h> // Base types #include <cyg/infra/cyg_trac.h> // tracing macros #include <cyg/infra/cyg_ass.h> // assertion macros #define CYGARC_HAL_COMMON_EXPORT_CPU_MACROS #include <cyg/hal/hal_arch.h> // architectural definitions #include <cyg/hal/hal_intr.h> // Interrupt handling #include <cyg/hal/hal_cache.h> // Cache handling #include <cyg/hal/hal_if.h> // hal_ctrlc_isr() #include <cyg/hal/mips-regs.h> // FPU cause register definitions #include CYGHWR_MEMORY_LAYOUT_H /*------------------------------------------------------------------------*/ /* If required, define a variable to store the clock period. */ #ifdef CYGHWR_HAL_CLOCK_PERIOD_DEFINED CYG_WORD32 cyg_hal_clock_period; #endif /*------------------------------------------------------------------------*/ /* First level C exception handler. */ externC void __handle_exception (void); externC HAL_SavedRegisters *_hal_registers; externC void* volatile __mem_fault_handler; externC cyg_uint8 cyg_hal_mips_process_fpe( HAL_SavedRegisters *regs ); externC cyg_uint32 cyg_hal_exception_handler(HAL_SavedRegisters *regs) { #if defined(CYGHWR_HAL_MIPS_FPU) || \ (defined(CYGFUN_HAL_COMMON_KERNEL_SUPPORT) && defined(CYGPKG_HAL_EXCEPTIONS)) int vec = regs->vector>>2; #endif #if defined(CYGHWR_HAL_MIPS_FPU) // Special handling of FPU exceptions if (CYGNUM_HAL_VECTOR_FPE == vec) { #if defined(CYGSEM_HAL_MIPS_EMULATE_UNIMPLEMENTED_FPU_OPS) // We may be required to emulate certain unimplemented Floating Point // operations // cyg_hal_mips_process_fpe() returns non-zero if it could handle // the exception successfully. If so, we just return if ( cyg_hal_mips_process_fpe(regs) ) return 0; #endif // Find the cause of the FPU exception, clear the flag and use // the decoded vector number. { cyg_uint32 cause = regs->fcr31; if (cause & FCR31_CAUSE_I) { vec = CYGNUM_HAL_EXCEPTION_FPU_INEXACT; cause &= ~(FCR31_FLAGS_I | FCR31_CAUSE_I); } else if (cause & FCR31_CAUSE_U) { vec = CYGNUM_HAL_EXCEPTION_FPU_UNDERFLOW; cause &= ~(FCR31_FLAGS_U | FCR31_CAUSE_U); } else if (cause & FCR31_CAUSE_O) { vec = CYGNUM_HAL_EXCEPTION_FPU_OVERFLOW; cause &= ~(FCR31_FLAGS_O | FCR31_CAUSE_O); } else if (cause & FCR31_CAUSE_Z) { vec = CYGNUM_HAL_EXCEPTION_FPU_DIV_BY_ZERO; cause &= ~(FCR31_FLAGS_Z | FCR31_CAUSE_Z); } else if (cause & FCR31_CAUSE_V) { vec = CYGNUM_HAL_EXCEPTION_FPU_INVALID; cause &= ~(FCR31_FLAGS_V | FCR31_CAUSE_V); } regs->fcr31 = cause; #if 1 // Update the FPU status register with the new // setting. This is a workaround for the signal2 test // which does a longjump in the exception handler and thus // never gets around to executing the register restore // code. asm ("ctc1 %0,$31" : : "r" (cause)); #endif } } #endif // CYGHWR_HAL_MIPS_FPU #if defined(CYGDBG_HAL_DEBUG_GDB_INCLUDE_STUBS) // If we caught an exception inside the stubs, see if we were expecting it // and if so jump to the saved address if (__mem_fault_handler) { regs->pc = (CYG_HAL_MIPS_REG)(signed long)__mem_fault_handler; return 0; // Caught an exception inside stubs } // Set the pointer to the registers of the current exception // context. At entry the GDB stub will expand the // HAL_SavedRegisters structure into a (bigger) register array. _hal_registers = regs; __handle_exception(); #elif defined(CYGFUN_HAL_COMMON_KERNEL_SUPPORT) && defined(CYGPKG_HAL_EXCEPTIONS) // We should decode the vector and pass a more appropriate // value as the second argument. For now we simply pass a // pointer to the saved registers. We should also divert // breakpoint and other debug vectors into the debug stubs. cyg_hal_deliver_exception( vec, (CYG_ADDRWORD)regs ); #else CYG_FAIL("Exception!!!"); #endif return 0; } /*------------------------------------------------------------------------*/ /* default ISR */ #ifndef CYGSEM_HAL_VIRTUAL_VECTOR_SUPPORT externC cyg_uint32 hal_default_isr(CYG_ADDRWORD vector, CYG_ADDRWORD data) { #if defined(CYGDBG_HAL_MIPS_DEBUG_GDB_CTRLC_SUPPORT) && \ defined(CYGHWR_HAL_GDB_PORT_VECTOR) && \ defined(HAL_CTRLC_ISR) #ifndef CYGIMP_HAL_COMMON_INTERRUPTS_CHAIN if( vector == CYGHWR_HAL_GDB_PORT_VECTOR ) #endif { cyg_uint32 result = HAL_CTRLC_ISR( vector, data ); if( result != 0 ) return result; } #if defined(CYGSEM_HAL_USE_ROM_MONITOR_CygMon) #if defined(HAL_DIAG_IRQ_CHECK) { cyg_uint32 ret; /* let ROM monitor handle unexpected interrupts */ HAL_DIAG_IRQ_CHECK(vector, ret); if (ret<=0) return ret; } #endif // def HAL_DIAG_IRQ_CHECK #endif // def CYGSEM_HAL_USE_ROM_MONITOR_CygMon #endif CYG_TRACE1(true, "Interrupt: %d", vector); CYG_FAIL("Spurious Interrupt!!!"); return 0; } #else // CYGSEM_HAL_VIRTUAL_VECTOR_SUPPORT externC cyg_uint32 hal_arch_default_isr(CYG_ADDRWORD vector, CYG_ADDRWORD data) { #if defined(CYGDBG_HAL_MIPS_DEBUG_GDB_CTRLC_SUPPORT) && \ defined(CYGHWR_HAL_GDB_PORT_VECTOR) && \ defined(HAL_CTRLC_ISR) #if defined(CYGSEM_HAL_USE_ROM_MONITOR_CygMon) #if defined(HAL_DIAG_IRQ_CHECK) { cyg_uint32 ret; /* let ROM monitor handle unexpected interrupts */ HAL_DIAG_IRQ_CHECK(vector, ret); if (ret<=0) return ret; } #endif // def HAL_DIAG_IRQ_CHECK #endif // def CYGSEM_HAL_USE_ROM_MONITOR_CygMon #endif #ifdef CYGPKG_REDBOOT hal_ctrlc_isr( vector, data ); #endif return 0; } #endif // CYGSEM_HAL_VIRTUAL_VECTOR_SUPPORT /*------------------------------------------------------------------------*/ /* data copy and bss zero functions */ typedef void (CYG_SYM_ADDRESS)(void); // All these must use this type of address to stop them being given relocations // relative to $gp (i.e. assuming they would be in .sdata) extern CYG_SYM_ADDRESS __ram_data_start; extern CYG_SYM_ADDRESS __ram_data_end; extern CYG_SYM_ADDRESS __rom_data_start; #ifdef CYG_HAL_STARTUP_ROM void hal_copy_data(void) { char *p = (char *)&__ram_data_start; char *q = (char *)&__rom_data_start; while( p != (char *)&__ram_data_end ) *p++ = *q++; } #endif /*------------------------------------------------------------------------*/ #ifdef CYGSEM_HAL_STOP_CONSTRUCTORS_ON_FLAG cyg_bool cyg_hal_stop_constructors; #endif typedef void (*pfunc) (void); extern pfunc __CTOR_LIST__[]; extern pfunc __CTOR_END__[]; void cyg_hal_invoke_constructors(void) { #ifdef CYGSEM_HAL_STOP_CONSTRUCTORS_ON_FLAG static pfunc *p = &__CTOR_END__[-1]; cyg_hal_stop_constructors = 0; for (; p >= __CTOR_LIST__; p--) { (*p) (); if (cyg_hal_stop_constructors) { p--; break; } } #else pfunc *p; for (p = &__CTOR_END__[-1]; p >= __CTOR_LIST__; p--) (*p) (); #endif } // cyg_hal_invoke_constructors() /*------------------------------------------------------------------------*/ /* Determine the index of the ls bit of the supplied mask. */ cyg_uint32 hal_lsbit_index(cyg_uint32 mask) { cyg_uint32 n = mask; static const signed char tab[64] = { -1, 0, 1, 12, 2, 6, 0, 13, 3, 0, 7, 0, 0, 0, 0, 14, 10, 4, 0, 0, 8, 0, 0, 25, 0, 0, 0, 0, 0, 21, 27 , 15, 31, 11, 5, 0, 0, 0, 0, 0, 9, 0, 0, 24, 0, 0 , 20, 26, 30, 0, 0, 0, 0, 23, 0, 19, 29, 0, 22, 18, 28, 17, 16, 0 }; n &= ~(n-1UL); n = (n<<16)-n; n = (n<<6)+n; n = (n<<4)+n; return tab[n>>26]; } /*------------------------------------------------------------------------*/ /* Determine the index of the ms bit of the supplied mask. */ cyg_uint32 hal_msbit_index(cyg_uint32 mask) { cyg_uint32 x = mask; cyg_uint32 w; /* Phase 1: make word with all ones from that one to the right */ x |= x >> 16; x |= x >> 8; x |= x >> 4; x |= x >> 2; x |= x >> 1; /* Phase 2: calculate number of "1" bits in the word */ w = (x & 0x55555555) + ((x >> 1) & 0x55555555); w = (w & 0x33333333) + ((w >> 2) & 0x33333333); w = w + (w >> 4); w = (w & 0x000F000F) + ((w >> 8) & 0x000F000F); return (cyg_uint32)((w + (w >> 16)) & 0xFF) - 1; } /*------------------------------------------------------------------------*/ /* Delay for some number of useconds. */ void hal_delay_us(int us) { cyg_uint32 val1, val2; int diff; long usticks; long ticks; // Calculate the number of counter register ticks per microsecond. usticks = (CYGNUM_HAL_RTC_PERIOD * CYGNUM_HAL_RTC_DENOMINATOR) / 1000000; // Make sure that the value is not zero. This will only happen if the // CPU is running at < 2MHz. if( usticks == 0 ) usticks = 1; while( us > 0 ) { int us1 = us; // Wait in bursts of less than 10000us to avoid any overflow // problems in the multiply. if( us1 > 10000 ) us1 = 10000; us -= us1; ticks = us1 * usticks; HAL_CLOCK_READ(&val1); while (ticks > 0) { do { HAL_CLOCK_READ(&val2); } while (val1 == val2); diff = val2 - val1; if (diff < 0) diff += CYGNUM_HAL_RTC_PERIOD; ticks -= diff; val1 = val2; } } } /*------------------------------------------------------------------------*/ void hal_arch_program_new_stack(void *_func) { externC void hal_program_new_stack( void *func, CYG_ADDRESS addr); hal_program_new_stack( (void *)_func, (CYGMEM_REGION_ram + CYGMEM_REGION_ram_SIZE - sizeof(CYG_ADDRESS)) & ~15 ); } /*------------------------------------------------------------------------*/ /* Idle thread action */ #include <cyg/infra/diag.h> void hal_idle_thread_action( cyg_uint32 count ) { #if 0 //def CYGPKG_HAL_MIPS_SIM if( (count % 1000) == 0 ) { // This code causes a fake interrupt. asm volatile ( "xor $24,$24,$24;" "mtc0 $24,$13;" "lui $25,%%hi(1f);" "ori $25,$25,%%lo(1f);" "j other_vector;" "nop;" "1:" : : : "t8", "t9" ); } #endif #if 0 //def CYGPKG_HAL_MIPS_TX39_JMR3904 if( (count % 100000 ) == 0 ) { // cyg_uint32 tval, isr, imr, ilr; cyg_uint32 sr = 0, cr = 0, ctr = 0, cpr = 0; // HAL_CLOCK_READ( &tval ); // HAL_READ_UINT32( 0xFFFFC000, isr ); // HAL_READ_UINT32( 0xFFFFC004, imr ); // HAL_READ_UINT32( 0xFFFFC01C, ilr ); // CYG_TRACE2(1, "Timer value, ISR ",tval, isr); // CYG_TRACE2(1, "IMR ILR0 ", imr, ilr); // asm volatile ( // "mfc0 %0,$12;" // "nop; nop; nop;" // "mfc0 %1,$13;" // "nop; nop; nop;" // "mfc0 %2,$9;" // "nop; nop; nop;" // "mfc0 %3,$11;" // "nop; nop; nop;" // : "=r"(sr), "=r"(cr), "=r"(ctr), "=r"(cpr) // ); // diag_printf("Status %08x ", sr ); // diag_printf("Cause %08x ", cr ); // diag_printf("Counter %08x ", ctr ); // diag_printf("Compare %08x\n", cpr); #if 0 asm volatile ( "mfc0 %0,$12;" "nop; nop; nop;" : "=r"(sr) ); diag_write_string("Status "); diag_write_hex( sr ); asm volatile ( "mfc0 %0,$13;" "nop; nop; nop;" : "=r"(cr) ); diag_write_string(" Cause "); diag_write_hex( cr ); asm volatile ( "mfc0 %0,$9;" "nop; nop; nop;" : "=r"(ctr) ); diag_write_string(" Counter "); diag_write_hex( ctr ); asm volatile ( "mfc0 %0,$11;" "nop; nop; nop;" : "=r"(cpr) ); diag_write_string(" Compare "); diag_write_hex( cpr ); diag_write_string( "\n" ); #endif #if 1 asm volatile ( "mfc0 %0,$12;" "nop; nop; nop;" : "=r"(sr) ); asm volatile ( "mfc0 %0,$13;" "nop; nop; nop;" : "=r"(cr) ); CYG_INSTRUMENT_USER( 1, sr, cr ); asm volatile ( "mfc0 %0,$9;" "nop; nop; nop;" : "=r"(ctr) ); asm volatile ( "mfc0 %0,$11;" "nop; nop; nop;" : "=r"(cpr) ); CYG_INSTRUMENT_USER( 2, ctr, cpr ); #endif // if( count == 4 ) // { // HAL_ENABLE_INTERRUPTS(); // } // if( count >= 10 ) // for(;;); } #endif #if 0 { static CYG_WORD32 istat[3] = { 0xffffffff,0xffffffff,0xffffffff }; int i; for( i = 0; i < 3; i++ ) { CYG_WORD32 reg, sr; HAL_READ_UINT32( CYGHWR_HAL_MIPS_VRC4373_INTC_STAT0 + i * CYGHWR_HAL_MIPS_VRC4373_INTC_MASK_OFF, reg ); if( reg != istat[i] ) { hal_diag_ai_write_char('~'); hal_diag_ai_write_char('0'+i); hal_diag_ai_write_hex8( reg ); istat[i] = reg; HAL_READ_UINT32( CYGHWR_HAL_MIPS_VRC4373_INTC_MASK0 + i * CYGHWR_HAL_MIPS_VRC4373_INTC_MASK_OFF, reg ); hal_diag_ai_write_char('.'); hal_diag_ai_write_hex8( reg ); #if 0 asm volatile ( "mfc0 %0,$12;" "nop; nop; nop;" : "=r"(sr) ); hal_diag_ai_write_char('.'); hal_diag_ai_write_hex8( sr ); #endif } } } { static CYG_WORD32 old_pins = 0; CYG_WORD32 reg; HAL_READ_UINT32( CYGHWR_HAL_MIPS_VRC4373_INTC_PINS, reg ); if( reg != old_pins ) { hal_diag_ai_write_char('%'); hal_diag_ai_write_hex8( reg ); old_pins = reg; } } #endif #if 0 //def CYGPKG_HAL_MIPS_VR4300_VRC4373 // Wiggle one of the leds to show we are running if( (count % 50000 ) == 0 ) { cyg_uint8 lr; { int i; for( i = 0; i < 200; i++ ); } HAL_READ_UINT8( 0xc2000008, lr ); lr ^= 2; { int i; for( i = 0; i < 200; i++ ); } HAL_WRITE_UINT8( 0xc2000008, lr ); } #endif } /*------------------------------------------------------------------------*/ /* End of hal_misc.c */
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