diff --git a/arch/arm/include/lm3s/irq.h b/arch/arm/include/lm3s/irq.h index e65540e976..761bf81da5 100644 --- a/arch/arm/include/lm3s/irq.h +++ b/arch/arm/include/lm3s/irq.h @@ -1,7 +1,7 @@ /************************************************************************************ * arch/arm/include/lm3s/irq.h * - * Copyright (C) 2009-2010 Gregory Nutt. All rights reserved. + * Copyright (C) 2009-2011 Gregory Nutt. All rights reserved. * Author: Gregory Nutt * * Redistribution and use in source and binary forms, with or without @@ -63,7 +63,7 @@ /* Vector 1: Reset (not handler as an IRQ) */ #define LM3S_IRQ_NMI (2) /* Vector 2: Non-Maskable Interrupt (NMI) */ #define LM3S_IRQ_HARDFAULT (3) /* Vector 3: Hard fault */ -#define LM3S_IRQ_MPU (4) /* Vector 4: Memory management (MPU) */ +#define LM3S_IRQ_MEMFAULT (4) /* Vector 4: Memory management (MPU) */ #define LM3S_IRQ_BUSFAULT (5) /* Vector 5: Bus fault */ #define LM3S_IRQ_USAGEFAULT (6) /* Vector 6: Usage fault */ #define LM3S_IRQ_SVCALL (11) /* Vector 11: SVC call */ diff --git a/arch/arm/include/lpc17xx/irq.h b/arch/arm/include/lpc17xx/irq.h index 8c9777d908..7807e0260e 100755 --- a/arch/arm/include/lpc17xx/irq.h +++ b/arch/arm/include/lpc17xx/irq.h @@ -64,7 +64,7 @@ /* Vector 1: Reset (not handler as an IRQ) */ #define LPC17_IRQ_NMI (2) /* Vector 2: Non-Maskable Interrupt (NMI) */ #define LPC17_IRQ_HARDFAULT (3) /* Vector 3: Hard fault */ -#define LPC17_IRQ_MPU (4) /* Vector 4: Memory management (MPU) */ +#define LPC17_IRQ_MEMFAULT (4) /* Vector 4: Memory management (MPU) */ #define LPC17_IRQ_BUSFAULT (5) /* Vector 5: Bus fault */ #define LPC17_IRQ_USAGEFAULT (6) /* Vector 6: Usage fault */ #define LPC17_IRQ_SVCALL (11) /* Vector 11: SVC call */ diff --git a/arch/arm/include/sam3u/irq.h b/arch/arm/include/sam3u/irq.h index a79c15b5ea..2c6940b68f 100755 --- a/arch/arm/include/sam3u/irq.h +++ b/arch/arm/include/sam3u/irq.h @@ -1,7 +1,7 @@ /**************************************************************************************** * arch/arm/include/sam3u/irq.h * - * Copyright (C) 2009-2010 Gregory Nutt. All rights reserved. + * Copyright (C) 2009-2011 Gregory Nutt. All rights reserved. * Author: Gregory Nutt * * Redistribution and use in source and binary forms, with or without @@ -94,7 +94,7 @@ /* Vector 1: Reset (not handler as an IRQ) */ #define SAM3U_IRQ_NMI (2) /* Vector 2: Non-Maskable Interrupt (NMI) */ #define SAM3U_IRQ_HARDFAULT (3) /* Vector 3: Hard fault */ -#define SAM3U_IRQ_MPU (4) /* Vector 4: Memory management (MPU) */ +#define SAM3U_IRQ_MEMFAULT (4) /* Vector 4: Memory management (MPU) */ #define SAM3U_IRQ_BUSFAULT (5) /* Vector 5: Bus fault */ #define SAM3U_IRQ_USAGEFAULT (6) /* Vector 6: Usage fault */ #define SAM3U_IRQ_SVCALL (11) /* Vector 11: SVC call */ diff --git a/arch/arm/include/stm32/irq.h b/arch/arm/include/stm32/irq.h index 108dfd10b9..f80e91d706 100644 --- a/arch/arm/include/stm32/irq.h +++ b/arch/arm/include/stm32/irq.h @@ -63,7 +63,7 @@ /* Vector 1: Reset (not handler as an IRQ) */ #define STM32_IRQ_NMI (2) /* Vector 2: Non-Maskable Interrupt (NMI) */ #define STM32_IRQ_HARDFAULT (3) /* Vector 3: Hard fault */ -#define STM32_IRQ_MPU (4) /* Vector 4: Memory management (MPU) */ +#define STM32_IRQ_MEMFAULT (4) /* Vector 4: Memory management (MPU) */ #define STM32_IRQ_BUSFAULT (5) /* Vector 5: Bus fault */ #define STM32_IRQ_USAGEFAULT (6) /* Vector 6: Usage fault */ #define STM32_IRQ_SVCALL (11) /* Vector 11: SVC call */ diff --git a/arch/arm/src/common/up_internal.h b/arch/arm/src/common/up_internal.h index 986d901d61..9fe4464c7f 100644 --- a/arch/arm/src/common/up_internal.h +++ b/arch/arm/src/common/up_internal.h @@ -181,6 +181,7 @@ extern void up_lowputs(const char *str); extern uint32_t *up_doirq(int irq, uint32_t *regs); extern int up_svcall(int irq, FAR void *context); extern int up_hardfault(int irq, FAR void *context); +extern int up_memfault(int irq, FAR void *context); #else /* CONFIG_ARCH_CORTEXM3 */ diff --git a/arch/arm/src/cortexm3/up_memfault.c b/arch/arm/src/cortexm3/up_memfault.c new file mode 100644 index 0000000000..cb4c2d7398 --- /dev/null +++ b/arch/arm/src/cortexm3/up_memfault.c @@ -0,0 +1,110 @@ +/**************************************************************************** + * arch/arm/src/cortexm3/up_memfault.c + * + * Copyright (C) 2011 Gregory Nutt. All rights reserved. + * Author: Gregory Nutt + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * + * 1. Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * 3. Neither the name NuttX nor the names of its contributors may be + * used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS + * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE + * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, + * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, + * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS + * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED + * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT + * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN + * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + * POSSIBILITY OF SUCH DAMAGE. + * + ****************************************************************************/ + +/**************************************************************************** + * Included Files + ****************************************************************************/ + +#include + +#include +#include + +#include + +#include "up_arch.h" +#include "os_internal.h" +#include "nvic.h" +#include "up_internal.h" + +/**************************************************************************** + * Pre-processor Definitions + ****************************************************************************/ + +#undef DEBUG_MEMFAULTS /* Define to debug memory management faults */ + +#ifdef DEBUG_MEMFAULTS +# define mfdbg(format, arg...) lldbg(format, ##arg) +#else +# define mfdbg(x...) +#endif + +/**************************************************************************** + * Private Data + ****************************************************************************/ + +/**************************************************************************** + * Public Data + ****************************************************************************/ + +/**************************************************************************** + * Private Functions + ****************************************************************************/ + +/**************************************************************************** + * Public Functions + ****************************************************************************/ + +/**************************************************************************** + * Name: up_memfault + * + * Description: + * This is Memory Management Fault exception handler. Normally we get here + * when the Cortex M3 MPU is enabled and an MPU fault is detected. However, + * I understand that there are other error conditions that can also generate + * memory management faults. + * + ****************************************************************************/ + +int up_memfault(int irq, FAR void *context) +{ + /* Dump some memory management fault info */ + + (void)irqsave(); + lldbg("PANIC!!! Memory Management Fault:\n"); + mfdbg(" IRQ: %d context: %p\n", irq, regs); + lldbg(" CFAULTS: %08x MMFAR: %08x\n", + getreg32(NVIC_CFAULTS), getreg32(NVIC_MEMMANAGE_ADDR)); + mfdbg(" R0: %08x %08x %08x %08x %08x %08x %08x %08x\n", + regs[REG_R0], regs[REG_R1], regs[REG_R2], regs[REG_R3], + regs[REG_R4], regs[REG_R5], regs[REG_R6], regs[REG_R7]); + mfdbg(" R8: %08x %08x %08x %08x %08x %08x %08x %08x\n", + regs[REG_R8], regs[REG_R9], regs[REG_R10], regs[REG_R11], + regs[REG_R12], regs[REG_R13], regs[REG_R14], regs[REG_R15]); + mfdbg(" PSR=%08x\n", regs[REG_XPSR]); + + PANIC(OSERR_UNEXPECTEDISR); + return OK; +} diff --git a/arch/arm/src/lm3s/Make.defs b/arch/arm/src/lm3s/Make.defs index 94a97bdd80..01fceaaa8b 100644 --- a/arch/arm/src/lm3s/Make.defs +++ b/arch/arm/src/lm3s/Make.defs @@ -1,7 +1,7 @@ ############################################################################ # arch/arm/src/lm3s/Make.defs # -# Copyright (C) 2009-2010 Gregory Nutt. All rights reserved. +# Copyright (C) 2009-2011 Gregory Nutt. All rights reserved. # Author: Gregory Nutt # # Redistribution and use in source and binary forms, with or without @@ -39,7 +39,7 @@ CMN_ASRCS = up_saveusercontext.S up_fullcontextrestore.S up_switchcontext.S CMN_CSRCS = up_allocateheap.c up_assert.c up_blocktask.c up_copystate.c \ up_createstack.c up_mdelay.c up_udelay.c up_exit.c \ up_idle.c up_initialize.c up_initialstate.c up_interruptcontext.c \ - up_modifyreg8.c up_modifyreg16.c up_modifyreg32.c \ + up_memfault.c up_modifyreg8.c up_modifyreg16.c up_modifyreg32.c \ up_releasepending.c up_releasestack.c up_reprioritizertr.c \ up_schedulesigaction.c up_sigdeliver.c up_unblocktask.c \ up_usestack.c up_doirq.c up_hardfault.c up_svcall.c diff --git a/arch/arm/src/lm3s/lm3s_irq.c b/arch/arm/src/lm3s/lm3s_irq.c index 160d769121..da7f3d9c3e 100644 --- a/arch/arm/src/lm3s/lm3s_irq.c +++ b/arch/arm/src/lm3s/lm3s_irq.c @@ -2,7 +2,7 @@ * arch/arm/src/lm3s/lm3s_irq.c * arch/arm/src/chip/lm3s_irq.c * - * Copyright (C) 2009 Gregory Nutt. All rights reserved. + * Copyright (C) 2009, 2011 Gregory Nutt. All rights reserved. * Author: Gregory Nutt * * Redistribution and use in source and binary forms, with or without @@ -128,7 +128,7 @@ static void lm3s_dumpnvic(const char *msg, int irq) #endif /**************************************************************************** - * Name: lm3s_nmi, lm3s_mpu, lm3s_busfault, lm3s_usagefault, lm3s_pendsv, + * Name: lm3s_nmi, lm3s_busfault, lm3s_usagefault, lm3s_pendsv, * lm3s_dbgmonitor, lm3s_pendsv, lm3s_reserved * * Description: @@ -147,14 +147,6 @@ static int lm3s_nmi(int irq, FAR void *context) return 0; } -static int lm3s_mpu(int irq, FAR void *context) -{ - (void)irqsave(); - dbg("PANIC!!! MPU interrupt received\n"); - PANIC(OSERR_UNEXPECTEDISR); - return 0; -} - static int lm3s_busfault(int irq, FAR void *context) { (void)irqsave(); @@ -234,7 +226,7 @@ static int lm3s_irqinfo(int irq, uint32_t *regaddr, uint32_t *bit) else { *regaddr = NVIC_SYSHCON; - if (irq == LM3S_IRQ_MPU) + if (irq == LM3S_IRQ_MEMFAULT) { *bit = NVIC_SYSHCON_MEMFAULTENA; } @@ -324,11 +316,22 @@ void up_irqinitialize(void) /* up_prioritize_irq(LM3S_IRQ_PENDSV, NVIC_SYSH_PRIORITY_MIN); */ #endif + /* If the MPU is enabled, then attach and enable the Memory Management + * Fault handler. + */ + +#ifdef CONFIG_CORTEXM3_MPU + irq_attach(LM3S_IRQ_MEMFAULT, up_memfault); + up_enable_irq(LM3S_IRQ_MEMFAULT); +#endif + /* Attach all other processor exceptions (except reset and sys tick) */ #ifdef CONFIG_DEBUG irq_attach(LM3S_IRQ_NMI, lm3s_nmi); - irq_attach(LM3S_IRQ_MPU, lm3s_mpu); +#ifndef CONFIG_CORTEXM3_MPU + irq_attach(LM3S_IRQ_MEMFAULT, up_memfault); +#endif irq_attach(LM3S_IRQ_BUSFAULT, lm3s_busfault); irq_attach(LM3S_IRQ_USAGEFAULT, lm3s_usagefault); irq_attach(LM3S_IRQ_PENDSV, lm3s_pendsv); @@ -434,7 +437,7 @@ int up_prioritize_irq(int irq, int priority) uint32_t regval; int shift; - DEBUGASSERT(irq >= LM3S_IRQ_MPU && irq < NR_IRQS && (unsigned)priority <= NVIC_SYSH_PRIORITY_MIN); + DEBUGASSERT(irq >= LM3S_IRQ_MEMFAULT && irq < NR_IRQS && (unsigned)priority <= NVIC_SYSH_PRIORITY_MIN); if (irq < LM3S_IRQ_INTERRUPTS) { diff --git a/arch/arm/src/lm3s/lm3s_vectors.S b/arch/arm/src/lm3s/lm3s_vectors.S index b88b52c8b0..6fece8d3bf 100644 --- a/arch/arm/src/lm3s/lm3s_vectors.S +++ b/arch/arm/src/lm3s/lm3s_vectors.S @@ -1,678 +1,677 @@ -/************************************************************************************ - * arch/arm/src/lm3s/lm3s_vectors.S - * arch/arm/src/chip/lm3s_vectors.S - * - * Copyright (C) 2009-2010 Gregory Nutt. All rights reserved. - * Author: Gregory Nutt - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions - * are met: - * - * 1. Redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer. - * 2. Redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in - * the documentation and/or other materials provided with the - * distribution. - * 3. Neither the name NuttX nor the names of its contributors may be - * used to endorse or promote products derived from this software - * without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS - * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE - * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, - * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, - * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS - * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED - * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT - * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN - * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE - * POSSIBILITY OF SUCH DAMAGE. - * - ************************************************************************************/ - -/************************************************************************************ - * Included Files - ************************************************************************************/ - -#include -#include - -/************************************************************************************ - * Preprocessor Definitions - ************************************************************************************/ - -/* Memory Map: - * - * 0x0000:0000 - Beginning of FLASH. Address of vectors (if not using bootloader) - * 0x0002:0000 - Address of vectors if using bootloader - * 0x0003:ffff - End of flash - * 0x2000:0000 - Start of SRAM and start of .data (_sdata) - * - End of .data (_edata) abd start of .bss (_sbss) - * - End of .bss (_ebss) and bottom of idle stack - * - _ebss + CONFIG_IDLETHREAD_STACKSIZE = end of idle stack, start of heap - * 0x2000:ffff - End of SRAM and end of heap - */ - -#define IDLE_STACK (_ebss+CONFIG_IDLETHREAD_STACKSIZE-4) -#define HEAP_BASE (_ebss+CONFIG_IDLETHREAD_STACKSIZE-4) - -/* The Cortex-M3 return from interrupt is unusual. We provide the following special - * address to the BX instruction. The particular value also forces a return to - * thread mode and covers state from the main stack point, the MSP (vs. the MSP). - */ - -#define EXC_RETURN 0xfffffff9 - -/************************************************************************************ - * Global Symbols - ************************************************************************************/ - - .globl __start - - .syntax unified - .thumb - .file "lm3s_vectors.S" - -/************************************************************************************ - * Macros - ************************************************************************************/ - -/* On entry into an IRQ, the hardware automatically saves the xPSR, PC, LR, R12, R0-R3 - * registers on the stack, then branches to an instantantiation of the following - * macro. This macro simply loads the IRQ number into R0, then jumps to the common - * IRQ handling logic. - */ - - .macro HANDLER, label, irqno - .thumb_func -\label: - mov r0, #\irqno - b lm3s_irqcommon - .endm - -/************************************************************************************ - * Vectors - ************************************************************************************/ - - .section .vectors, "ax" - .code 16 - .align 2 - .globl lm3s_vectors - .type lm3s_vectors, function - -lm3s_vectors: - -/* Processor Exceptions */ - - .word IDLE_STACK /* Vector 0: Reset stack pointer */ - .word __start /* Vector 1: Reset vector */ - .word lm3s_nmi /* Vector 2: Non-Maskable Interrupt (NMI) */ - .word lm3s_hardfault /* Vector 3: Hard fault */ - .word lm3s_mpu /* Vector 4: Memory management (MPU) */ - .word lm3s_busfault /* Vector 5: Bus fault */ - .word lm3s_usagefault /* Vector 6: Usage fault */ - .word lm3s_reserved /* Vector 7: Reserved */ - .word lm3s_reserved /* Vector 8: Reserved */ - .word lm3s_reserved /* Vector 9: Reserved */ - .word lm3s_reserved /* Vector 10: Reserved */ - .word lm3s_svcall /* Vector 11: SVC call */ - .word lm3s_dbgmonitor /* Vector 12: Debug monitor */ - .word lm3s_reserved /* Vector 13: Reserved */ - .word lm3s_pendsv /* Vector 14: Pendable system service request */ - .word lm3s_systick /* Vector 15: System tick */ - -/* External Interrupts */ - -#if defined(CONFIG_ARCH_CHIP_LM3S6918) - .word lm3s_gpioa /* Vector 16: GPIO Port A */ - .word lm3s_gpiob /* Vector 17: GPIO Port B */ - .word lm3s_gpioc /* Vector 18: GPIO Port C */ - .word lm3s_gpiod /* Vector 19: GPIO Port D */ - .word lm3s_gpioe /* Vector 20: GPIO Port E */ - .word lm3s_uart0 /* Vector 21: UART 0 */ - .word lm3s_uart1 /* Vector 22: UART 1 */ - .word lm3s_ssi0 /* Vector 23: SSI 0 */ - .word lm3s_i2c0 /* Vector 24: I2C 0 */ - .word lm3s_reserved /* Vector 25: Reserved */ - .word lm3s_reserved /* Vector 26: Reserved */ - .word lm3s_reserved /* Vector 27: Reserved */ - .word lm3s_reserved /* Vector 28: Reserved */ - .word lm3s_reserved /* Vector 29: Reserved */ - .word lm3s_adc0 /* Vector 30: ADC Sequence 0 */ - .word lm3s_adc1 /* Vector 31: ADC Sequence 1 */ - .word lm3s_adc2 /* Vector 32: ADC Sequence 2 */ - .word lm3s_adc3 /* Vector 33: ADC Sequence 3 */ - .word lm3s_wdog /* Vector 34: Watchdog Timer */ - .word lm3s_tmr0a /* Vector 35: Timer 0 A */ - .word lm3s_tmr0b /* Vector 36: Timer 0 B */ - .word lm3s_tmr1a /* Vector 37: Timer 1 A */ - .word lm3s_tmr1b /* Vector 38: Timer 1 B */ - .word lm3s_tmr2a /* Vector 39: Timer 2 A */ - .word lm3s_tmr2b /* Vector 40: Timer 3 B */ - .word lm3s_cmp0 /* Vector 41: Analog Comparator 0 */ - .word lm3s_cmp1 /* Vector 42: Analog Comparator 1 */ - .word lm3s_reserved /* Vector 43: Reserved */ - .word lm3s_syscon /* Vector 44: System Control */ - .word lm3s_flashcon /* Vector 45: FLASH Control */ - .word lm3s_gpiof /* Vector 46: GPIO Port F */ - .word lm3s_gpiog /* Vector 47: GPIO Port G */ - .word lm3s_gpioh /* Vector 48: GPIO Port H */ - .word lm3s_reserved /* Vector 49: Reserved */ - .word lm3s_ssi1 /* Vector 50: SSI 1 */ - .word lm3s_tmr3a /* Vector 51: Timer 3 A */ - .word lm3s_tmr3b /* Vector 52: Timer 3 B */ - .word lm3s_i2c1 /* Vector 53: I2C 1 */ - .word lm3s_reserved /* Vector 54: Reserved */ - .word lm3s_reserved /* Vector 55: Reserved */ - .word lm3s_reserved /* Vector 56: Reserved */ - .word lm3s_reserved /* Vector 57: Reserved */ - .word lm3s_eth /* Vector 58: Ethernet Controller */ - .word lm3s_hib /* Vector 59: Hibernation Module */ - .word lm3s_reserved /* Vector 60: Reserved */ - .word lm3s_reserved /* Vector 61: Reserved */ - .word lm3s_reserved /* Vector 62: Reserved */ - .word lm3s_reserved /* Vector 63: Reserved */ - .word lm3s_reserved /* Vector 64: Reserved */ - .word lm3s_reserved /* Vector 65: Reserved */ - .word lm3s_reserved /* Vector 66: Reserved */ - .word lm3s_reserved /* Vector 67: Reserved */ - .word lm3s_reserved /* Vector 68: Reserved */ - .word lm3s_reserved /* Vector 69: Reserved */ - .word lm3s_reserved /* Vector 70: Reserved */ -#elif defined(CONFIG_ARCH_CHIP_LM3S6965) - .word lm3s_gpioa /* Vector 16: GPIO Port A */ - .word lm3s_gpiob /* Vector 17: GPIO Port B */ - .word lm3s_gpioc /* Vector 18: GPIO Port C */ - .word lm3s_gpiod /* Vector 19: GPIO Port D */ - .word lm3s_gpioe /* Vector 20: GPIO Port E */ - .word lm3s_uart0 /* Vector 21: UART 0 */ - .word lm3s_uart1 /* Vector 22: UART 1 */ - .word lm3s_ssi0 /* Vector 23: SSI 0 */ - .word lm3s_i2c0 /* Vector 24: I2C 0 */ - .word lm3s_pwmfault /* Vector 25: PWM Fault */ - .word lm3s_pwm0 /* Vector 26: PWM Generator 0 */ - .word lm3s_pwm1 /* Vector 27: PWM Generator 1 */ - .word lm3s_pwm2 /* Vector 28: PWM Generator 2 */ - .word lm3s_qei0 /* Vector 29: QEI0 */ - .word lm3s_adc0 /* Vector 30: ADC Sequence 0 */ - .word lm3s_adc1 /* Vector 31: ADC Sequence 1 */ - .word lm3s_adc2 /* Vector 32: ADC Sequence 2 */ - .word lm3s_adc3 /* Vector 33: ADC Sequence 3 */ - .word lm3s_wdog /* Vector 34: Watchdog Timer */ - .word lm3s_tmr0a /* Vector 35: Timer 0 A */ - .word lm3s_tmr0b /* Vector 36: Timer 0 B */ - .word lm3s_tmr1a /* Vector 37: Timer 1 A */ - .word lm3s_tmr1b /* Vector 38: Timer 1 B */ - .word lm3s_tmr2a /* Vector 39: Timer 2 A */ - .word lm3s_tmr2b /* Vector 40: Timer 3 B */ - .word lm3s_cmp0 /* Vector 41: Analog Comparator 0 */ - .word lm3s_cmp1 /* Vector 42: Analog Comparator 1 */ - .word lm3s_reserved /* Vector 43: Reserved */ - .word lm3s_syscon /* Vector 44: System Control */ - .word lm3s_flashcon /* Vector 45: FLASH Control */ - .word lm3s_gpiof /* Vector 46: GPIO Port F */ - .word lm3s_gpiog /* Vector 47: GPIO Port G */ - .word lm3s_reserved /* Vector 48: Reserved */ - .word lm3s_uart2 /* Vector 49: UART 2 */ - .word lm3s_reserved /* Vector 50: Reserved */ - .word lm3s_tmr3a /* Vector 51: Timer 3 A */ - .word lm3s_tmr3b /* Vector 52: Timer 3 B */ - .word lm3s_i2c1 /* Vector 53: I2C 1 */ - .word lm3s_qei1 /* Vector 54: QEI1 */ - .word lm3s_reserved /* Vector 55: Reserved */ - .word lm3s_reserved /* Vector 56: Reserved */ - .word lm3s_reserved /* Vector 57: Reserved */ - .word lm3s_eth /* Vector 58: Ethernet Controller */ - .word lm3s_hib /* Vector 59: Hibernation Module */ - .word lm3s_reserved /* Vector 60: Reserved */ - .word lm3s_reserved /* Vector 61: Reserved */ - .word lm3s_reserved /* Vector 62: Reserved */ - .word lm3s_reserved /* Vector 63: Reserved */ - .word lm3s_reserved /* Vector 64: Reserved */ - .word lm3s_reserved /* Vector 65: Reserved */ - .word lm3s_reserved /* Vector 66: Reserved */ - .word lm3s_reserved /* Vector 67: Reserved */ - .word lm3s_reserved /* Vector 68: Reserved */ - .word lm3s_reserved /* Vector 69: Reserved */ - .word lm3s_reserved /* Vector 70: Reserved */ -#elif defined(CONFIG_ARCH_CHIP_LM3S9B96) - .word lm3s_gpioa /* Vector 16: GPIO Port A */ - .word lm3s_gpiob /* Vector 17: GPIO Port B */ - .word lm3s_gpioc /* Vector 18: GPIO Port C */ - .word lm3s_gpiod /* Vector 19: GPIO Port D */ - .word lm3s_gpioe /* Vector 20: GPIO Port E */ - .word lm3s_uart0 /* Vector 21: UART 0 */ - .word lm3s_uart1 /* Vector 22: UART 1 */ - .word lm3s_ssi0 /* Vector 23: SSI 0 */ - .word lm3s_i2c0 /* Vector 24: I2C 0 */ - .word lm3s_pwmfault /* Vector 25: PWM Fault */ - .word lm3s_pwm0 /* Vector 26: PWM Generator 0 */ - .word lm3s_pwm1 /* Vector 27: PWM Generator 1 */ - .word lm3s_pwm2 /* Vector 28: PWM Generator 2 */ - .word lm3s_qei0 /* Vector 29: QEI0 */ - .word lm3s_adc0 /* Vector 30: ADC Sequence 0 */ - .word lm3s_adc1 /* Vector 31: ADC Sequence 1 */ - .word lm3s_adc2 /* Vector 32: ADC Sequence 2 */ - .word lm3s_adc3 /* Vector 33: ADC Sequence 3 */ - .word lm3s_wdog /* Vector 34: Watchdog Timer */ - .word lm3s_tmr0a /* Vector 35: Timer 0 A */ - .word lm3s_tmr0b /* Vector 36: Timer 0 B */ - .word lm3s_tmr1a /* Vector 37: Timer 1 A */ - .word lm3s_tmr1b /* Vector 38: Timer 1 B */ - .word lm3s_tmr2a /* Vector 39: Timer 2 A */ - .word lm3s_tmr2b /* Vector 40: Timer 3 B */ - .word lm3s_cmp0 /* Vector 41: Analog Comparator 0 */ - .word lm3s_cmp1 /* Vector 42: Analog Comparator 1 */ - .word lm3s_cmp2 /* Vector 43: Reserved */ - .word lm3s_syscon /* Vector 44: System Control */ - .word lm3s_flashcon /* Vector 45: FLASH Control */ - .word lm3s_gpiof /* Vector 46: GPIO Port F */ - .word lm3s_gpiog /* Vector 47: GPIO Port G */ - .word lm3s_gpioh /* Vector 48: GPIO Port H */ - .word lm3s_uart2 /* Vector 49: UART 2 */ - .word lm3s_ssi1 /* Vector 50: SSI 1 */ - .word lm3s_tmr3a /* Vector 51: Timer 3 A */ - .word lm3s_tmr3b /* Vector 52: Timer 3 B */ - .word lm3s_i2c1 /* Vector 53: I2C 1 */ - .word lm3s_qei1 /* Vector 54: QEI1 */ - .word lm3s_can0 /* Vector 55: CAN 0 */ - .word lm3s_can1 /* Vector 56: CAN 1 */ - .word lm3s_reserved /* Vector 57: Reserved */ - .word lm3s_eth /* Vector 58: Ethernet Controller */ - .word lm3s_reserved /* Vector 59: Reserved */ - .word lm3s_usb /* Vector 60: USB */ - .word lm3s_pwm3 /* Vector 61: PWM 3 */ - .word lm3s_udmasoft /* Vector 62: uDMA Software */ - .word lm3s_udmaerror /* Vector 63: uDMA Error */ - .word lm3s_adc1_0 /* Vector 64: ADC1 Sequence 0 */ - .word lm3s_adc1_1 /* Vector 65: ADC1 Sequence 1 */ - .word lm3s_adc1_2 /* Vector 66: ADC1 Sequence 2 */ - .word lm3s_adc1_3 /* Vector 67: ADC1 Sequence 3 */ - .word lm3s_i2s0 /* Vector 68: I2S 0 */ - .word lm3s_epi /* Vector 69: Reserved */ - .word lm3s_gpioj /* Vector 70: GPIO J */ - .word lm3s_reserved /* Vector 71: Reserved */ - #elif defined(CONFIG_ARCH_CHIP_LM3S8962) - .word lm3s_gpioa /* Vector 16: GPIO Port A */ - .word lm3s_gpiob /* Vector 17: GPIO Port B */ - .word lm3s_gpioc /* Vector 18: GPIO Port C */ - .word lm3s_gpiod /* Vector 19: GPIO Port D */ - .word lm3s_gpioe /* Vector 20: GPIO Port E */ - .word lm3s_uart0 /* Vector 21: UART 0 */ - .word lm3s_uart1 /* Vector 22: UART 1 */ - .word lm3s_ssi0 /* Vector 23: SSI 0 */ - .word lm3s_i2c0 /* Vector 24: I2C 0 */ - .word lm3s_pwmfault /* Vector 25: PWM Fault */ - .word lm3s_pwm0 /* Vector 26: PWM Generator 0 */ - .word lm3s_pwm1 /* Vector 27: PWM Generator 1 */ - .word lm3s_pwm2 /* Vector 28: PWM Generator 2 */ - .word lm3s_qei0 /* Vector 29: QEI0 */ - .word lm3s_adc0 /* Vector 30: ADC Sequence 0 */ - .word lm3s_adc1 /* Vector 31: ADC Sequence 1 */ - .word lm3s_adc2 /* Vector 32: ADC Sequence 2 */ - .word lm3s_adc3 /* Vector 33: ADC Sequence 3 */ - .word lm3s_wdog /* Vector 34: Watchdog Timer */ - .word lm3s_tmr0a /* Vector 35: Timer 0 A */ - .word lm3s_tmr0b /* Vector 36: Timer 0 B */ - .word lm3s_tmr1a /* Vector 37: Timer 1 A */ - .word lm3s_tmr1b /* Vector 38: Timer 1 B */ - .word lm3s_tmr2a /* Vector 39: Timer 2 A */ - .word lm3s_tmr2b /* Vector 40: Timer 3 B */ - .word lm3s_cmp0 /* Vector 41: Analog Comparator 0 */ - .word lm3s_reserved /* Vector 42: Reserved */ - .word lm3s_reserved /* Vector 43: Reserved */ - .word lm3s_syscon /* Vector 44: System Control */ - .word lm3s_flashcon /* Vector 45: FLASH Control */ - .word lm3s_gpiof /* Vector 46: GPIO Port F */ - .word lm3s_gpiog /* Vector 47: GPIO Port G */ - .word lm3s_reserved /* Vector 48: Reserved */ - .word lm3s_reserved /* Vector 49: Reserved */ - .word lm3s_reserved /* Vector 50: Reserved */ - .word lm3s_tmr3a /* Vector 51: Timer 3 A */ - .word lm3s_tmr3b /* Vector 52: Timer 3 B */ - .word lm3s_reserved /* Vector 53: Reserved*/ - .word lm3s_qei1 /* Vector 54: QEI1 */ - .word lm3s_can0 /* Vector 55: Can Controller */ - .word lm3s_reserved /* Vector 56: Reserved */ - .word lm3s_reserved /* Vector 57: Reserved */ - .word lm3s_eth /* Vector 58: Ethernet Controller */ - .word lm3s_hib /* Vector 59: Hibernation Module */ - .word lm3s_reserved /* Vector 60: Reserved */ - .word lm3s_reserved /* Vector 61: Reserved */ - .word lm3s_reserved /* Vector 62: Reserved */ - .word lm3s_reserved /* Vector 63: Reserved */ - .word lm3s_reserved /* Vector 64: Reserved */ - .word lm3s_reserved /* Vector 65: Reserved */ - .word lm3s_reserved /* Vector 66: Reserved */ - .word lm3s_reserved /* Vector 67: Reserved */ - .word lm3s_reserved /* Vector 68: Reserved */ - .word lm3s_reserved /* Vector 69: Reserved */ - .word lm3s_reserved /* Vector 70: Reserved */ -#else -# error "Vectors not specified for this LM3S chip" -#endif - .size lm3s_vectors, .-lm3s_vectors - -/************************************************************************************ - * .text - ************************************************************************************/ - - .text - .type handlers, function - .thumb_func -handlers: - HANDLER lm3s_reserved, LM3S_IRQ_RESERVED /* Unexpected/reserved vector */ - HANDLER lm3s_nmi, LM3S_IRQ_NMI /* Vector 2: Non-Maskable Interrupt (NMI) */ - HANDLER lm3s_hardfault, LM3S_IRQ_HARDFAULT /* Vector 3: Hard fault */ - HANDLER lm3s_mpu, LM3S_IRQ_MPU /* Vector 4: Memory management (MPU) */ - HANDLER lm3s_busfault, LM3S_IRQ_BUSFAULT /* Vector 5: Bus fault */ - HANDLER lm3s_usagefault, LM3S_IRQ_USAGEFAULT /* Vector 6: Usage fault */ - HANDLER lm3s_svcall, LM3S_IRQ_SVCALL /* Vector 11: SVC call */ - HANDLER lm3s_dbgmonitor, LM3S_IRQ_DBGMONITOR /* Vector 12: Debug Monitor */ - HANDLER lm3s_pendsv, LM3S_IRQ_PENDSV /* Vector 14: Penable system service request */ - HANDLER lm3s_systick, LM3S_IRQ_SYSTICK /* Vector 15: System tick */ - -#if defined(CONFIG_ARCH_CHIP_LM3S6918) - HANDLER lm3s_gpioa, LM3S_IRQ_GPIOA /* Vector 16: GPIO Port A */ - HANDLER lm3s_gpiob, LM3S_IRQ_GPIOB /* Vector 17: GPIO Port B */ - HANDLER lm3s_gpioc, LM3S_IRQ_GPIOC /* Vector 18: GPIO Port C */ - HANDLER lm3s_gpiod, LM3S_IRQ_GPIOD /* Vector 19: GPIO Port D */ - HANDLER lm3s_gpioe, LM3S_IRQ_GPIOE /* Vector 20: GPIO Port E */ - HANDLER lm3s_uart0, LM3S_IRQ_UART0 /* Vector 21: UART 0 */ - HANDLER lm3s_uart1, LM3S_IRQ_UART1 /* Vector 22: UART 1 */ - HANDLER lm3s_ssi0, LM3S_IRQ_SSI0 /* Vector 23: SSI 0 */ - HANDLER lm3s_i2c0, LM3S_IRQ_I2C0 /* Vector 24: I2C 0 */ - HANDLER lm3s_adc0, LM3S_IRQ_ADC0 /* Vector 30: ADC Sequence 0 */ - HANDLER lm3s_adc1, LM3S_IRQ_ADC1 /* Vector 31: ADC Sequence 1 */ - HANDLER lm3s_adc2, LM3S_IRQ_ADC2 /* Vector 32: ADC Sequence 2 */ - HANDLER lm3s_adc3, LM3S_IRQ_ADC3 /* Vector 33: ADC Sequence 3 */ - HANDLER lm3s_wdog, LM3S_IRQ_WDOG /* Vector 34: Watchdog Timer */ - HANDLER lm3s_tmr0a, LM3S_IRQ_TIMER0A /* Vector 35: Timer 0 A */ - HANDLER lm3s_tmr0b, LM3S_IRQ_TIMER0B /* Vector 36: Timer 0 B */ - HANDLER lm3s_tmr1a, LM3S_IRQ_TIMER1A /* Vector 37: Timer 1 A */ - HANDLER lm3s_tmr1b, LM3S_IRQ_TIMER1B /* Vector 38: Timer 1 B */ - HANDLER lm3s_tmr2a, LM3S_IRQ_TIMER2A /* Vector 39: Timer 2 A */ - HANDLER lm3s_tmr2b, LM3S_IRQ_TIMER2B /* Vector 40: Timer 3 B */ - HANDLER lm3s_cmp0, LM3S_IRQ_COMPARE0 /* Vector 41: Analog Comparator 0 */ - HANDLER lm3s_cmp1, LM3S_IRQ_COMPARE1 /* Vector 42: Analog Comparator 1 */ - HANDLER lm3s_syscon, LM3S_IRQ_SYSCON /* Vector 44: System Control */ - HANDLER lm3s_flashcon, LM3S_IRQ_FLASHCON /* Vector 45: FLASH Control */ - HANDLER lm3s_gpiof, LM3S_IRQ_GPIOF /* Vector 46: GPIO Port F */ - HANDLER lm3s_gpiog, LM3S_IRQ_GPIOG /* Vector 47: GPIO Port G */ - HANDLER lm3s_gpioh, LM3S_IRQ_GPIOH /* Vector 48: GPIO Port H */ - HANDLER lm3s_ssi1, LM3S_IRQ_SSI1 /* Vector 50: SSI 1 */ - HANDLER lm3s_tmr3a, LM3S_IRQ_TIMER3A /* Vector 51: Timer 3 A */ - HANDLER lm3s_tmr3b, LM3S_IRQ_TIMER3B /* Vector 52: Timer 3 B */ - HANDLER lm3s_i2c1, LM3S_IRQ_I2C1 /* Vector 53: I2C 1 */ - HANDLER lm3s_eth, LM3S_IRQ_ETHCON /* Vector 58: Ethernet Controller */ - HANDLER lm3s_hib, LM3S_IRQ_HIBERNATE /* Vector 59: Hibernation Module */ -#elif defined(CONFIG_ARCH_CHIP_LM3S6965) - HANDLER lm3s_gpioa, LM3S_IRQ_GPIOA /* Vector 16: GPIO Port A */ - HANDLER lm3s_gpiob, LM3S_IRQ_GPIOB /* Vector 17: GPIO Port B */ - HANDLER lm3s_gpioc, LM3S_IRQ_GPIOC /* Vector 18: GPIO Port C */ - HANDLER lm3s_gpiod, LM3S_IRQ_GPIOD /* Vector 19: GPIO Port D */ - HANDLER lm3s_gpioe, LM3S_IRQ_GPIOE /* Vector 20: GPIO Port E */ - HANDLER lm3s_uart0, LM3S_IRQ_UART0 /* Vector 21: UART 0 */ - HANDLER lm3s_uart1, LM3S_IRQ_UART1 /* Vector 22: UART 1 */ - HANDLER lm3s_ssi0, LM3S_IRQ_SSI0 /* Vector 23: SSI 0 */ - HANDLER lm3s_i2c0, LM3S_IRQ_I2C0 /* Vector 24: I2C 0 */ - HANDLER lm3s_pwmfault, LM3S_IRQ_PWMFAULT /* Vector 25: PWM Fault */ - HANDLER lm3s_pwm0, LM3S_IRQ_PWM0 /* Vector 26: PWM Generator 0 */ - HANDLER lm3s_pwm1, LM3S_IRQ_PWM1 /* Vector 27: PWM Generator 1 */ - HANDLER lm3s_pwm2, LM3S_IRQ_PWM2 /* Vector 28: PWM Generator 2 */ - HANDLER lm3s_qei0, LM3S_IRQ_QEI0 /* Vector 29: QEI 0 */ - HANDLER lm3s_adc0, LM3S_IRQ_ADC0 /* Vector 30: ADC Sequence 0 */ - HANDLER lm3s_adc1, LM3S_IRQ_ADC1 /* Vector 31: ADC Sequence 1 */ - HANDLER lm3s_adc2, LM3S_IRQ_ADC2 /* Vector 32: ADC Sequence 2 */ - HANDLER lm3s_adc3, LM3S_IRQ_ADC3 /* Vector 33: ADC Sequence 3 */ - HANDLER lm3s_wdog, LM3S_IRQ_WDOG /* Vector 34: Watchdog Timer */ - HANDLER lm3s_tmr0a, LM3S_IRQ_TIMER0A /* Vector 35: Timer 0 A */ - HANDLER lm3s_tmr0b, LM3S_IRQ_TIMER0B /* Vector 36: Timer 0 B */ - HANDLER lm3s_tmr1a, LM3S_IRQ_TIMER1A /* Vector 37: Timer 1 A */ - HANDLER lm3s_tmr1b, LM3S_IRQ_TIMER1B /* Vector 38: Timer 1 B */ - HANDLER lm3s_tmr2a, LM3S_IRQ_TIMER2A /* Vector 39: Timer 2 A */ - HANDLER lm3s_tmr2b, LM3S_IRQ_TIMER2B /* Vector 40: Timer 3 B */ - HANDLER lm3s_cmp0, LM3S_IRQ_COMPARE0 /* Vector 41: Analog Comparator 0 */ - HANDLER lm3s_cmp1, LM3S_IRQ_COMPARE1 /* Vector 42: Analog Comparator 1 */ - HANDLER lm3s_syscon, LM3S_IRQ_SYSCON /* Vector 44: System Control */ - HANDLER lm3s_flashcon, LM3S_IRQ_FLASHCON /* Vector 45: FLASH Control */ - HANDLER lm3s_gpiof, LM3S_IRQ_GPIOF /* Vector 46: GPIO Port F */ - HANDLER lm3s_gpiog, LM3S_IRQ_GPIOG /* Vector 47: GPIO Port G */ - HANDLER lm3s_uart2, LM3S_IRQ_UART1 /* Vector 49: UART 1 */ - HANDLER lm3s_tmr3a, LM3S_IRQ_TIMER3A /* Vector 51: Timer 3 A */ - HANDLER lm3s_tmr3b, LM3S_IRQ_TIMER3B /* Vector 52: Timer 3 B */ - HANDLER lm3s_i2c1, LM3S_IRQ_I2C1 /* Vector 53: I2C 1 */ - HANDLER lm3s_qei1, LM3S_IRQ_QEI1 /* Vector 54: QEI 1 */ - HANDLER lm3s_eth, LM3S_IRQ_ETHCON /* Vector 58: Ethernet Controller */ - HANDLER lm3s_hib, LM3S_IRQ_HIBERNATE /* Vector 59: Hibernation Module */ -#elif defined(CONFIG_ARCH_CHIP_LM3S8962) - HANDLER lm3s_gpioa, LM3S_IRQ_GPIOA /* Vector 16: GPIO Port A */ - HANDLER lm3s_gpiob, LM3S_IRQ_GPIOB /* Vector 17: GPIO Port B */ - HANDLER lm3s_gpioc, LM3S_IRQ_GPIOC /* Vector 18: GPIO Port C */ - HANDLER lm3s_gpiod, LM3S_IRQ_GPIOD /* Vector 19: GPIO Port D */ - HANDLER lm3s_gpioe, LM3S_IRQ_GPIOE /* Vector 20: GPIO Port E */ - HANDLER lm3s_uart0, LM3S_IRQ_UART0 /* Vector 21: UART 0 */ - HANDLER lm3s_uart1, LM3S_IRQ_UART1 /* Vector 22: UART 1 */ - HANDLER lm3s_ssi0, LM3S_IRQ_SSI0 /* Vector 23: SSI 0 */ - HANDLER lm3s_i2c0, LM3S_IRQ_I2C0 /* Vector 24: I2C 0 */ - HANDLER lm3s_pwmfault, LM3S_IRQ_PWMFAULT /* Vector 25: PWM Fault */ - HANDLER lm3s_pwm0, LM3S_IRQ_PWM0 /* Vector 26: PWM Generator 0 */ - HANDLER lm3s_pwm1, LM3S_IRQ_PWM1 /* Vector 27: PWM Generator 1 */ - HANDLER lm3s_pwm2, LM3S_IRQ_PWM2 /* Vector 28: PWM Generator 2 */ - HANDLER lm3s_qei0, LM3S_IRQ_QEI0 /* Vector 29: QEI 0 */ - HANDLER lm3s_adc0, LM3S_IRQ_ADC0 /* Vector 30: ADC Sequence 0 */ - HANDLER lm3s_adc1, LM3S_IRQ_ADC1 /* Vector 31: ADC Sequence 1 */ - HANDLER lm3s_adc2, LM3S_IRQ_ADC2 /* Vector 32: ADC Sequence 2 */ - HANDLER lm3s_adc3, LM3S_IRQ_ADC3 /* Vector 33: ADC Sequence 3 */ - HANDLER lm3s_wdog, LM3S_IRQ_WDOG /* Vector 34: Watchdog Timer */ - HANDLER lm3s_tmr0a, LM3S_IRQ_TIMER0A /* Vector 35: Timer 0 A */ - HANDLER lm3s_tmr0b, LM3S_IRQ_TIMER0B /* Vector 36: Timer 0 B */ - HANDLER lm3s_tmr1a, LM3S_IRQ_TIMER1A /* Vector 37: Timer 1 A */ - HANDLER lm3s_tmr1b, LM3S_IRQ_TIMER1B /* Vector 38: Timer 1 B */ - HANDLER lm3s_tmr2a, LM3S_IRQ_TIMER2A /* Vector 39: Timer 2 A */ - HANDLER lm3s_tmr2b, LM3S_IRQ_TIMER2B /* Vector 40: Timer 3 B */ - HANDLER lm3s_cmp0, LM3S_IRQ_COMPARE0 /* Vector 41: Analog Comparator 0 */ - HANDLER lm3s_syscon, LM3S_IRQ_SYSCON /* Vector 44: System Control */ - HANDLER lm3s_flashcon, LM3S_IRQ_FLASHCON /* Vector 45: FLASH Control */ - HANDLER lm3s_gpiof, LM3S_IRQ_GPIOF /* Vector 46: GPIO Port F */ - HANDLER lm3s_gpiog, LM3S_IRQ_GPIOG /* Vector 47: GPIO Port G */ - HANDLER lm3s_uart2, LM3S_IRQ_UART1 /* Vector 49: UART 1 */ - HANDLER lm3s_tmr3a, LM3S_IRQ_TIMER3A /* Vector 51: Timer 3 A */ - HANDLER lm3s_tmr3b, LM3S_IRQ_TIMER3B /* Vector 52: Timer 3 B */ - HANDLER lm3s_i2c1, LM3S_IRQ_I2C1 /* Vector 53: I2C 1 */ - HANDLER lm3s_qei1, LM3S_IRQ_QEI1 /* Vector 54: QEI 1 */ - HANDLER lm3s_can0, LM3S_IRQ_CAN0 /* Vector 55: CAN 0 */ - HANDLER lm3s_eth, LM3S_IRQ_ETHCON /* Vector 58: Ethernet Controller */ - HANDLER lm3s_hib, LM3S_IRQ_HIBERNATE /* Vector 59: Hibernation Module */ -#elif defined(CONFIG_ARCH_CHIP_LM3S9B96) - HANDLER lm3s_gpioa, LM3S_IRQ_GPIOA /* Vector 16: GPIO Port A */ - HANDLER lm3s_gpiob, LM3S_IRQ_GPIOB /* Vector 17: GPIO Port B */ - HANDLER lm3s_gpioc, LM3S_IRQ_GPIOC /* Vector 18: GPIO Port C */ - HANDLER lm3s_gpiod, LM3S_IRQ_GPIOD /* Vector 19: GPIO Port D */ - HANDLER lm3s_gpioe, LM3S_IRQ_GPIOE /* Vector 20: GPIO Port E */ - HANDLER lm3s_uart0, LM3S_IRQ_UART0 /* Vector 21: UART 0 */ - HANDLER lm3s_uart1, LM3S_IRQ_UART1 /* Vector 22: UART 1 */ - HANDLER lm3s_ssi0, LM3S_IRQ_SSI0 /* Vector 23: SSI 0 */ - HANDLER lm3s_i2c0, LM3S_IRQ_I2C0 /* Vector 24: I2C 0 */ - HANDLER lm3s_pwmfault, LM3S_IRQ_PWMFAULT /* Vector 25: PWM Fault */ - HANDLER lm3s_pwm0, LM3S_IRQ_PWM0 /* Vector 26: PWM Generator 0 */ - HANDLER lm3s_pwm1, LM3S_IRQ_PWM1 /* Vector 27: PWM Generator 1 */ - HANDLER lm3s_pwm2, LM3S_IRQ_PWM2 /* Vector 28: PWM Generator 2 */ - HANDLER lm3s_qei0, LM3S_IRQ_QEI0 /* Vector 29: QEI 0 */ - HANDLER lm3s_adc0, LM3S_IRQ_ADC0 /* Vector 30: ADC Sequence 0 */ - HANDLER lm3s_adc1, LM3S_IRQ_ADC1 /* Vector 31: ADC Sequence 1 */ - HANDLER lm3s_adc2, LM3S_IRQ_ADC2 /* Vector 32: ADC Sequence 2 */ - HANDLER lm3s_adc3, LM3S_IRQ_ADC3 /* Vector 33: ADC Sequence 3 */ - HANDLER lm3s_wdog, LM3S_IRQ_WDOG /* Vector 34: Watchdog Timer */ - HANDLER lm3s_tmr0a, LM3S_IRQ_TIMER0A /* Vector 35: Timer 0 A */ - HANDLER lm3s_tmr0b, LM3S_IRQ_TIMER0B /* Vector 36: Timer 0 B */ - HANDLER lm3s_tmr1a, LM3S_IRQ_TIMER1A /* Vector 37: Timer 1 A */ - HANDLER lm3s_tmr1b, LM3S_IRQ_TIMER1B /* Vector 38: Timer 1 B */ - HANDLER lm3s_tmr2a, LM3S_IRQ_TIMER2A /* Vector 39: Timer 2 A */ - HANDLER lm3s_tmr2b, LM3S_IRQ_TIMER2B /* Vector 40: Timer 3 B */ - HANDLER lm3s_cmp0, LM3S_IRQ_COMPARE0 /* Vector 41: Analog Comparator 0 */ - HANDLER lm3s_cmp1, LM3S_IRQ_COMPARE1 /* Vector 42: Analog Comparator 1 */ - HANDLER lm3s_cmp2, LM3S_IRQ_COMPARE2 /* Vector 43: Analog Comparator 2 */ - HANDLER lm3s_syscon, LM3S_IRQ_SYSCON /* Vector 44: System Control */ - HANDLER lm3s_flashcon, LM3S_IRQ_FLASHCON /* Vector 45: FLASH Control */ - HANDLER lm3s_gpiof, LM3S_IRQ_GPIOF /* Vector 46: GPIO Port F */ - HANDLER lm3s_gpiog, LM3S_IRQ_GPIOG /* Vector 47: GPIO Port G */ - HANDLER lm3s_gpioh, LM3S_IRQ_GPIOH /* Vector 48: GPIO Port H */ - HANDLER lm3s_uart2, LM3S_IRQ_UART2 /* Vector 49: UART 2 */ - HANDLER lm3s_ssi1, LM3S_IRQ_SSI1 /* Vector 50: GPIO Port H */ - HANDLER lm3s_tmr3a, LM3S_IRQ_TIMER3A /* Vector 51: Timer 3 A */ - HANDLER lm3s_tmr3b, LM3S_IRQ_TIMER3B /* Vector 52: Timer 3 B */ - HANDLER lm3s_i2c1, LM3S_IRQ_I2C1 /* Vector 53: I2C 1 */ - HANDLER lm3s_qei1, LM3S_IRQ_QEI1 /* Vector 54: QEI 1 */ - HANDLER lm3s_can0, LM3S_IRQ_CAN0 /* Vector 55: CAN 0 */ - HANDLER lm3s_can1, LM3S_IRQ_CAN1 /* Vector 56: CAN 1 */ - HANDLER lm3s_eth, LM3S_IRQ_ETHCON /* Vector 58: Ethernet Controller */ - HANDLER lm3s_usb, LM3S_IRQ_USB /* Vector 60: USB */ - HANDLER lm3s_pwm3, LM3S_IRQ_PWM3 /* Vector 61: PWM 3 */ - HANDLER lm3s_udmasoft, LM3S_IRQ_UDMASOFT /* Vector 62: uDMA Software */ - HANDLER lm3s_udmaerror, LM3S_IRQ_UDMAERROR /* Vector 63: uDMA Error */ - HANDLER lm3s_adc1_0, LM3S_IRQ_ADC1_0 /* Vector 64: ADC1 Sequence 0 */ - HANDLER lm3s_adc1_1, LM3S_IRQ_ADC1_1 /* Vector 65: ADC1 Sequence 1 */ - HANDLER lm3s_adc1_2, LM3S_IRQ_ADC1_2 /* Vector 66: ADC1 Sequence 2 */ - HANDLER lm3s_adc1_3, LM3S_IRQ_ADC1_3 /* Vector 67: ADC1 Sequence 3 */ - HANDLER lm3s_i2s0, LM3S_IRQ_I2S0 /* Vector 68: I2S 0 */ - HANDLER lm3s_epi, LM3S_IRQ_EPI /* Vector 69: EPI */ - HANDLER lm3s_gpioj, LM3S_IRQ_GPIOJ /* Vector 70: GPIO Port J */ -#else -# error "Vectors not specified for this LM3S chip" -#endif - - -/* Common IRQ handling logic. On entry here, the stack is like the following: - * - * REG_XPSR - * REG_R15 - * REG_R14 - * REG_R12 - * REG_R3 - * REG_R2 - * REG_R1 - * MSP->REG_R0 - * - * and R0 contains the IRQ number - */ - -lm3s_irqcommon: - - /* Complete the context save */ - - mrs r1, msp /* R1=The main stack pointer */ - mov r2, r1 /* R2=Copy of the main stack pointer */ - add r2, #HW_XCPT_SIZE /* R2=MSP before the interrupt was taken */ - mrs r3, primask /* R3=Current PRIMASK setting */ - stmdb r1!, {r2-r11} /* Save the remaining registers plus the SP value */ - - /* Disable interrupts, select the stack to use for interrupt handling - * and call up_doirq to handle the interrupt - */ - - cpsid i /* Disable further interrupts */ - - /* If CONFIG_ARCH_INTERRUPTSTACK is defined, we will use a special interrupt - * stack pointer. The way that this is done here prohibits nested interrupts! - * Otherwise, we will re-use the main stack for interrupt level processing. - */ - -#ifdef CONFIG_ARCH_INTERRUPTSTACK - ldr sp, =g_intstackbase - str r1, [sp, #-4]! /* Save the MSP on the interrupt stack */ - bl up_doirq /* R0=IRQ, R1=register save (msp) */ - ldr r1, [sp, #+4]! /* Recover R1=main stack pointer */ -#else - mov sp, r1 /* We are using the main stack pointer */ - bl up_doirq /* R0=IRQ, R1=register save (msp) */ - mov r1, sp /* Recover R1=main stack pointer */ -#endif - - /* On return from up_doirq, R0 will hold a pointer to register context - * array to use for the interrupt return. If that return value is the same - * as current stack pointer, then things are relatively easy. - */ - - cmp r0, r1 /* Context switch? */ - beq 1f /* Branch if no context switch */ - - /* We are returning with a pending context switch. This case is different - * because in this case, the register save structure does not lie on the - * stack but, rather, are within a TCB structure. We'll have to copy some - * values to the stack. - */ - - add r1, r0, #SW_XCPT_SIZE /* R1=Address of HW save area in reg array */ - ldmia r1, {r4-r11} /* Fetch eight registers in HW save area */ - ldr r1, [r0, #(4*REG_SP)] /* R1=Value of SP before interrupt */ - stmdb r1!, {r4-r11} /* Store eight registers in HW save area */ - ldmia r0, {r2-r11} /* Recover R4-R11 + 2 temp values */ - b 2f /* Re-join common logic */ - - /* We are returning with no context switch. We simply need to "unwind" - * the same stack frame that we created - */ -1: - ldmia r1!, {r2-r11} /* Recover R4-R11 + 2 temp values */ -2: - msr msp, r1 /* Recover the return MSP value */ - - /* Restore the interrupt state. Preload r14 with the special return - * value first (so that the return actually occurs with interrupts - * still disabled). - */ - - ldr r14, =EXC_RETURN /* Load the special value */ - msr primask, r3 /* Restore interrupts */ - - /* Always return with R14 containing the special value that will: (1) - * return to thread mode, and (2) continue to use the MSP - */ - - bx r14 /* And return */ - .size handlers, .-handlers - -/************************************************************************************ - * Name: up_interruptstack/g_intstackbase - * - * Description: - * Shouldn't happen - * - ************************************************************************************/ - -#if CONFIG_ARCH_INTERRUPTSTACK > 3 - .bss - .global g_intstackbase - .align 4 -up_interruptstack: - .skip (CONFIG_ARCH_INTERRUPTSTACK & ~3) -g_intstackbase: - .size up_interruptstack, .-up_interruptstack -#endif - -/************************************************************************************ - * .rodata - ************************************************************************************/ - - .section .rodata, "a" - -/* Variables: _sbss is the start of the BSS region (see ld.script) _ebss is the end - * of the BSS regsion (see ld.script). The idle task stack starts at the end of BSS - * and is of size CONFIG_IDLETHREAD_STACKSIZE. The IDLE thread is the thread that - * the system boots on and, eventually, becomes the idle, do nothing task that runs - * only when there is nothing else to run. The heap continues from there until the - * end of memory. See g_heapbase below. - */ - - .globl g_heapbase - .type g_heapbase, object -g_heapbase: - .long _ebss+CONFIG_IDLETHREAD_STACKSIZE - .size g_heapbase, .-g_heapbase - - .end +/************************************************************************************ + * arch/arm/src/lm3s/lm3s_vectors.S + * arch/arm/src/chip/lm3s_vectors.S + * + * Copyright (C) 2009-2010 Gregory Nutt. All rights reserved. + * Author: Gregory Nutt + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * + * 1. Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * 3. Neither the name NuttX nor the names of its contributors may be + * used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS + * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE + * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, + * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, + * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS + * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED + * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT + * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN + * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + * POSSIBILITY OF SUCH DAMAGE. + * + ************************************************************************************/ + +/************************************************************************************ + * Included Files + ************************************************************************************/ + +#include +#include + +/************************************************************************************ + * Preprocessor Definitions + ************************************************************************************/ + +/* Memory Map: + * + * 0x0000:0000 - Beginning of FLASH. Address of vectors (if not using bootloader) + * 0x0002:0000 - Address of vectors if using bootloader + * 0x0003:ffff - End of flash + * 0x2000:0000 - Start of SRAM and start of .data (_sdata) + * - End of .data (_edata) abd start of .bss (_sbss) + * - End of .bss (_ebss) and bottom of idle stack + * - _ebss + CONFIG_IDLETHREAD_STACKSIZE = end of idle stack, start of heap + * 0x2000:ffff - End of SRAM and end of heap + */ + +#define IDLE_STACK (_ebss+CONFIG_IDLETHREAD_STACKSIZE-4) +#define HEAP_BASE (_ebss+CONFIG_IDLETHREAD_STACKSIZE-4) + +/* The Cortex-M3 return from interrupt is unusual. We provide the following special + * address to the BX instruction. The particular value also forces a return to + * thread mode and covers state from the main stack point, the MSP (vs. the MSP). + */ + +#define EXC_RETURN 0xfffffff9 + +/************************************************************************************ + * Global Symbols + ************************************************************************************/ + + .globl __start + + .syntax unified + .thumb + .file "lm3s_vectors.S" + +/************************************************************************************ + * Macros + ************************************************************************************/ + +/* On entry into an IRQ, the hardware automatically saves the xPSR, PC, LR, R12, R0-R3 + * registers on the stack, then branches to an instantantiation of the following + * macro. This macro simply loads the IRQ number into R0, then jumps to the common + * IRQ handling logic. + */ + + .macro HANDLER, label, irqno + .thumb_func +\label: + mov r0, #\irqno + b lm3s_irqcommon + .endm + +/************************************************************************************ + * Vectors + ************************************************************************************/ + + .section .vectors, "ax" + .code 16 + .align 2 + .globl lm3s_vectors + .type lm3s_vectors, function + +lm3s_vectors: + +/* Processor Exceptions */ + + .word IDLE_STACK /* Vector 0: Reset stack pointer */ + .word __start /* Vector 1: Reset vector */ + .word lm3s_nmi /* Vector 2: Non-Maskable Interrupt (NMI) */ + .word lm3s_hardfault /* Vector 3: Hard fault */ + .word lm3s_mpu /* Vector 4: Memory management (MPU) */ + .word lm3s_busfault /* Vector 5: Bus fault */ + .word lm3s_usagefault /* Vector 6: Usage fault */ + .word lm3s_reserved /* Vector 7: Reserved */ + .word lm3s_reserved /* Vector 8: Reserved */ + .word lm3s_reserved /* Vector 9: Reserved */ + .word lm3s_reserved /* Vector 10: Reserved */ + .word lm3s_svcall /* Vector 11: SVC call */ + .word lm3s_dbgmonitor /* Vector 12: Debug monitor */ + .word lm3s_reserved /* Vector 13: Reserved */ + .word lm3s_pendsv /* Vector 14: Pendable system service request */ + .word lm3s_systick /* Vector 15: System tick */ + +/* External Interrupts */ + +#if defined(CONFIG_ARCH_CHIP_LM3S6918) + .word lm3s_gpioa /* Vector 16: GPIO Port A */ + .word lm3s_gpiob /* Vector 17: GPIO Port B */ + .word lm3s_gpioc /* Vector 18: GPIO Port C */ + .word lm3s_gpiod /* Vector 19: GPIO Port D */ + .word lm3s_gpioe /* Vector 20: GPIO Port E */ + .word lm3s_uart0 /* Vector 21: UART 0 */ + .word lm3s_uart1 /* Vector 22: UART 1 */ + .word lm3s_ssi0 /* Vector 23: SSI 0 */ + .word lm3s_i2c0 /* Vector 24: I2C 0 */ + .word lm3s_reserved /* Vector 25: Reserved */ + .word lm3s_reserved /* Vector 26: Reserved */ + .word lm3s_reserved /* Vector 27: Reserved */ + .word lm3s_reserved /* Vector 28: Reserved */ + .word lm3s_reserved /* Vector 29: Reserved */ + .word lm3s_adc0 /* Vector 30: ADC Sequence 0 */ + .word lm3s_adc1 /* Vector 31: ADC Sequence 1 */ + .word lm3s_adc2 /* Vector 32: ADC Sequence 2 */ + .word lm3s_adc3 /* Vector 33: ADC Sequence 3 */ + .word lm3s_wdog /* Vector 34: Watchdog Timer */ + .word lm3s_tmr0a /* Vector 35: Timer 0 A */ + .word lm3s_tmr0b /* Vector 36: Timer 0 B */ + .word lm3s_tmr1a /* Vector 37: Timer 1 A */ + .word lm3s_tmr1b /* Vector 38: Timer 1 B */ + .word lm3s_tmr2a /* Vector 39: Timer 2 A */ + .word lm3s_tmr2b /* Vector 40: Timer 3 B */ + .word lm3s_cmp0 /* Vector 41: Analog Comparator 0 */ + .word lm3s_cmp1 /* Vector 42: Analog Comparator 1 */ + .word lm3s_reserved /* Vector 43: Reserved */ + .word lm3s_syscon /* Vector 44: System Control */ + .word lm3s_flashcon /* Vector 45: FLASH Control */ + .word lm3s_gpiof /* Vector 46: GPIO Port F */ + .word lm3s_gpiog /* Vector 47: GPIO Port G */ + .word lm3s_gpioh /* Vector 48: GPIO Port H */ + .word lm3s_reserved /* Vector 49: Reserved */ + .word lm3s_ssi1 /* Vector 50: SSI 1 */ + .word lm3s_tmr3a /* Vector 51: Timer 3 A */ + .word lm3s_tmr3b /* Vector 52: Timer 3 B */ + .word lm3s_i2c1 /* Vector 53: I2C 1 */ + .word lm3s_reserved /* Vector 54: Reserved */ + .word lm3s_reserved /* Vector 55: Reserved */ + .word lm3s_reserved /* Vector 56: Reserved */ + .word lm3s_reserved /* Vector 57: Reserved */ + .word lm3s_eth /* Vector 58: Ethernet Controller */ + .word lm3s_hib /* Vector 59: Hibernation Module */ + .word lm3s_reserved /* Vector 60: Reserved */ + .word lm3s_reserved /* Vector 61: Reserved */ + .word lm3s_reserved /* Vector 62: Reserved */ + .word lm3s_reserved /* Vector 63: Reserved */ + .word lm3s_reserved /* Vector 64: Reserved */ + .word lm3s_reserved /* Vector 65: Reserved */ + .word lm3s_reserved /* Vector 66: Reserved */ + .word lm3s_reserved /* Vector 67: Reserved */ + .word lm3s_reserved /* Vector 68: Reserved */ + .word lm3s_reserved /* Vector 69: Reserved */ + .word lm3s_reserved /* Vector 70: Reserved */ +#elif defined(CONFIG_ARCH_CHIP_LM3S6965) + .word lm3s_gpioa /* Vector 16: GPIO Port A */ + .word lm3s_gpiob /* Vector 17: GPIO Port B */ + .word lm3s_gpioc /* Vector 18: GPIO Port C */ + .word lm3s_gpiod /* Vector 19: GPIO Port D */ + .word lm3s_gpioe /* Vector 20: GPIO Port E */ + .word lm3s_uart0 /* Vector 21: UART 0 */ + .word lm3s_uart1 /* Vector 22: UART 1 */ + .word lm3s_ssi0 /* Vector 23: SSI 0 */ + .word lm3s_i2c0 /* Vector 24: I2C 0 */ + .word lm3s_pwmfault /* Vector 25: PWM Fault */ + .word lm3s_pwm0 /* Vector 26: PWM Generator 0 */ + .word lm3s_pwm1 /* Vector 27: PWM Generator 1 */ + .word lm3s_pwm2 /* Vector 28: PWM Generator 2 */ + .word lm3s_qei0 /* Vector 29: QEI0 */ + .word lm3s_adc0 /* Vector 30: ADC Sequence 0 */ + .word lm3s_adc1 /* Vector 31: ADC Sequence 1 */ + .word lm3s_adc2 /* Vector 32: ADC Sequence 2 */ + .word lm3s_adc3 /* Vector 33: ADC Sequence 3 */ + .word lm3s_wdog /* Vector 34: Watchdog Timer */ + .word lm3s_tmr0a /* Vector 35: Timer 0 A */ + .word lm3s_tmr0b /* Vector 36: Timer 0 B */ + .word lm3s_tmr1a /* Vector 37: Timer 1 A */ + .word lm3s_tmr1b /* Vector 38: Timer 1 B */ + .word lm3s_tmr2a /* Vector 39: Timer 2 A */ + .word lm3s_tmr2b /* Vector 40: Timer 3 B */ + .word lm3s_cmp0 /* Vector 41: Analog Comparator 0 */ + .word lm3s_cmp1 /* Vector 42: Analog Comparator 1 */ + .word lm3s_reserved /* Vector 43: Reserved */ + .word lm3s_syscon /* Vector 44: System Control */ + .word lm3s_flashcon /* Vector 45: FLASH Control */ + .word lm3s_gpiof /* Vector 46: GPIO Port F */ + .word lm3s_gpiog /* Vector 47: GPIO Port G */ + .word lm3s_reserved /* Vector 48: Reserved */ + .word lm3s_uart2 /* Vector 49: UART 2 */ + .word lm3s_reserved /* Vector 50: Reserved */ + .word lm3s_tmr3a /* Vector 51: Timer 3 A */ + .word lm3s_tmr3b /* Vector 52: Timer 3 B */ + .word lm3s_i2c1 /* Vector 53: I2C 1 */ + .word lm3s_qei1 /* Vector 54: QEI1 */ + .word lm3s_reserved /* Vector 55: Reserved */ + .word lm3s_reserved /* Vector 56: Reserved */ + .word lm3s_reserved /* Vector 57: Reserved */ + .word lm3s_eth /* Vector 58: Ethernet Controller */ + .word lm3s_hib /* Vector 59: Hibernation Module */ + .word lm3s_reserved /* Vector 60: Reserved */ + .word lm3s_reserved /* Vector 61: Reserved */ + .word lm3s_reserved /* Vector 62: Reserved */ + .word lm3s_reserved /* Vector 63: Reserved */ + .word lm3s_reserved /* Vector 64: Reserved */ + .word lm3s_reserved /* Vector 65: Reserved */ + .word lm3s_reserved /* Vector 66: Reserved */ + .word lm3s_reserved /* Vector 67: Reserved */ + .word lm3s_reserved /* Vector 68: Reserved */ + .word lm3s_reserved /* Vector 69: Reserved */ + .word lm3s_reserved /* Vector 70: Reserved */ +#elif defined(CONFIG_ARCH_CHIP_LM3S9B96) + .word lm3s_gpioa /* Vector 16: GPIO Port A */ + .word lm3s_gpiob /* Vector 17: GPIO Port B */ + .word lm3s_gpioc /* Vector 18: GPIO Port C */ + .word lm3s_gpiod /* Vector 19: GPIO Port D */ + .word lm3s_gpioe /* Vector 20: GPIO Port E */ + .word lm3s_uart0 /* Vector 21: UART 0 */ + .word lm3s_uart1 /* Vector 22: UART 1 */ + .word lm3s_ssi0 /* Vector 23: SSI 0 */ + .word lm3s_i2c0 /* Vector 24: I2C 0 */ + .word lm3s_pwmfault /* Vector 25: PWM Fault */ + .word lm3s_pwm0 /* Vector 26: PWM Generator 0 */ + .word lm3s_pwm1 /* Vector 27: PWM Generator 1 */ + .word lm3s_pwm2 /* Vector 28: PWM Generator 2 */ + .word lm3s_qei0 /* Vector 29: QEI0 */ + .word lm3s_adc0 /* Vector 30: ADC Sequence 0 */ + .word lm3s_adc1 /* Vector 31: ADC Sequence 1 */ + .word lm3s_adc2 /* Vector 32: ADC Sequence 2 */ + .word lm3s_adc3 /* Vector 33: ADC Sequence 3 */ + .word lm3s_wdog /* Vector 34: Watchdog Timer */ + .word lm3s_tmr0a /* Vector 35: Timer 0 A */ + .word lm3s_tmr0b /* Vector 36: Timer 0 B */ + .word lm3s_tmr1a /* Vector 37: Timer 1 A */ + .word lm3s_tmr1b /* Vector 38: Timer 1 B */ + .word lm3s_tmr2a /* Vector 39: Timer 2 A */ + .word lm3s_tmr2b /* Vector 40: Timer 3 B */ + .word lm3s_cmp0 /* Vector 41: Analog Comparator 0 */ + .word lm3s_cmp1 /* Vector 42: Analog Comparator 1 */ + .word lm3s_cmp2 /* Vector 43: Reserved */ + .word lm3s_syscon /* Vector 44: System Control */ + .word lm3s_flashcon /* Vector 45: FLASH Control */ + .word lm3s_gpiof /* Vector 46: GPIO Port F */ + .word lm3s_gpiog /* Vector 47: GPIO Port G */ + .word lm3s_gpioh /* Vector 48: GPIO Port H */ + .word lm3s_uart2 /* Vector 49: UART 2 */ + .word lm3s_ssi1 /* Vector 50: SSI 1 */ + .word lm3s_tmr3a /* Vector 51: Timer 3 A */ + .word lm3s_tmr3b /* Vector 52: Timer 3 B */ + .word lm3s_i2c1 /* Vector 53: I2C 1 */ + .word lm3s_qei1 /* Vector 54: QEI1 */ + .word lm3s_can0 /* Vector 55: CAN 0 */ + .word lm3s_can1 /* Vector 56: CAN 1 */ + .word lm3s_reserved /* Vector 57: Reserved */ + .word lm3s_eth /* Vector 58: Ethernet Controller */ + .word lm3s_reserved /* Vector 59: Reserved */ + .word lm3s_usb /* Vector 60: USB */ + .word lm3s_pwm3 /* Vector 61: PWM 3 */ + .word lm3s_udmasoft /* Vector 62: uDMA Software */ + .word lm3s_udmaerror /* Vector 63: uDMA Error */ + .word lm3s_adc1_0 /* Vector 64: ADC1 Sequence 0 */ + .word lm3s_adc1_1 /* Vector 65: ADC1 Sequence 1 */ + .word lm3s_adc1_2 /* Vector 66: ADC1 Sequence 2 */ + .word lm3s_adc1_3 /* Vector 67: ADC1 Sequence 3 */ + .word lm3s_i2s0 /* Vector 68: I2S 0 */ + .word lm3s_epi /* Vector 69: Reserved */ + .word lm3s_gpioj /* Vector 70: GPIO J */ + .word lm3s_reserved /* Vector 71: Reserved */ + #elif defined(CONFIG_ARCH_CHIP_LM3S8962) + .word lm3s_gpioa /* Vector 16: GPIO Port A */ + .word lm3s_gpiob /* Vector 17: GPIO Port B */ + .word lm3s_gpioc /* Vector 18: GPIO Port C */ + .word lm3s_gpiod /* Vector 19: GPIO Port D */ + .word lm3s_gpioe /* Vector 20: GPIO Port E */ + .word lm3s_uart0 /* Vector 21: UART 0 */ + .word lm3s_uart1 /* Vector 22: UART 1 */ + .word lm3s_ssi0 /* Vector 23: SSI 0 */ + .word lm3s_i2c0 /* Vector 24: I2C 0 */ + .word lm3s_pwmfault /* Vector 25: PWM Fault */ + .word lm3s_pwm0 /* Vector 26: PWM Generator 0 */ + .word lm3s_pwm1 /* Vector 27: PWM Generator 1 */ + .word lm3s_pwm2 /* Vector 28: PWM Generator 2 */ + .word lm3s_qei0 /* Vector 29: QEI0 */ + .word lm3s_adc0 /* Vector 30: ADC Sequence 0 */ + .word lm3s_adc1 /* Vector 31: ADC Sequence 1 */ + .word lm3s_adc2 /* Vector 32: ADC Sequence 2 */ + .word lm3s_adc3 /* Vector 33: ADC Sequence 3 */ + .word lm3s_wdog /* Vector 34: Watchdog Timer */ + .word lm3s_tmr0a /* Vector 35: Timer 0 A */ + .word lm3s_tmr0b /* Vector 36: Timer 0 B */ + .word lm3s_tmr1a /* Vector 37: Timer 1 A */ + .word lm3s_tmr1b /* Vector 38: Timer 1 B */ + .word lm3s_tmr2a /* Vector 39: Timer 2 A */ + .word lm3s_tmr2b /* Vector 40: Timer 3 B */ + .word lm3s_cmp0 /* Vector 41: Analog Comparator 0 */ + .word lm3s_reserved /* Vector 42: Reserved */ + .word lm3s_reserved /* Vector 43: Reserved */ + .word lm3s_syscon /* Vector 44: System Control */ + .word lm3s_flashcon /* Vector 45: FLASH Control */ + .word lm3s_gpiof /* Vector 46: GPIO Port F */ + .word lm3s_gpiog /* Vector 47: GPIO Port G */ + .word lm3s_reserved /* Vector 48: Reserved */ + .word lm3s_reserved /* Vector 49: Reserved */ + .word lm3s_reserved /* Vector 50: Reserved */ + .word lm3s_tmr3a /* Vector 51: Timer 3 A */ + .word lm3s_tmr3b /* Vector 52: Timer 3 B */ + .word lm3s_reserved /* Vector 53: Reserved*/ + .word lm3s_qei1 /* Vector 54: QEI1 */ + .word lm3s_can0 /* Vector 55: Can Controller */ + .word lm3s_reserved /* Vector 56: Reserved */ + .word lm3s_reserved /* Vector 57: Reserved */ + .word lm3s_eth /* Vector 58: Ethernet Controller */ + .word lm3s_hib /* Vector 59: Hibernation Module */ + .word lm3s_reserved /* Vector 60: Reserved */ + .word lm3s_reserved /* Vector 61: Reserved */ + .word lm3s_reserved /* Vector 62: Reserved */ + .word lm3s_reserved /* Vector 63: Reserved */ + .word lm3s_reserved /* Vector 64: Reserved */ + .word lm3s_reserved /* Vector 65: Reserved */ + .word lm3s_reserved /* Vector 66: Reserved */ + .word lm3s_reserved /* Vector 67: Reserved */ + .word lm3s_reserved /* Vector 68: Reserved */ + .word lm3s_reserved /* Vector 69: Reserved */ + .word lm3s_reserved /* Vector 70: Reserved */ +#else +# error "Vectors not specified for this LM3S chip" +#endif + .size lm3s_vectors, .-lm3s_vectors + +/************************************************************************************ + * .text + ************************************************************************************/ + + .text + .type handlers, function + .thumb_func +handlers: + HANDLER lm3s_reserved, LM3S_IRQ_RESERVED /* Unexpected/reserved vector */ + HANDLER lm3s_nmi, LM3S_IRQ_NMI /* Vector 2: Non-Maskable Interrupt (NMI) */ + HANDLER lm3s_hardfault, LM3S_IRQ_HARDFAULT /* Vector 3: Hard fault */ + HANDLER lm3s_mpu, LM3S_IRQ_MEMFAULT /* Vector 4: Memory management (MPU) */ + HANDLER lm3s_busfault, LM3S_IRQ_BUSFAULT /* Vector 5: Bus fault */ + HANDLER lm3s_usagefault, LM3S_IRQ_USAGEFAULT /* Vector 6: Usage fault */ + HANDLER lm3s_svcall, LM3S_IRQ_SVCALL /* Vector 11: SVC call */ + HANDLER lm3s_dbgmonitor, LM3S_IRQ_DBGMONITOR /* Vector 12: Debug Monitor */ + HANDLER lm3s_pendsv, LM3S_IRQ_PENDSV /* Vector 14: Penable system service request */ + HANDLER lm3s_systick, LM3S_IRQ_SYSTICK /* Vector 15: System tick */ + +#if defined(CONFIG_ARCH_CHIP_LM3S6918) + HANDLER lm3s_gpioa, LM3S_IRQ_GPIOA /* Vector 16: GPIO Port A */ + HANDLER lm3s_gpiob, LM3S_IRQ_GPIOB /* Vector 17: GPIO Port B */ + HANDLER lm3s_gpioc, LM3S_IRQ_GPIOC /* Vector 18: GPIO Port C */ + HANDLER lm3s_gpiod, LM3S_IRQ_GPIOD /* Vector 19: GPIO Port D */ + HANDLER lm3s_gpioe, LM3S_IRQ_GPIOE /* Vector 20: GPIO Port E */ + HANDLER lm3s_uart0, LM3S_IRQ_UART0 /* Vector 21: UART 0 */ + HANDLER lm3s_uart1, LM3S_IRQ_UART1 /* Vector 22: UART 1 */ + HANDLER lm3s_ssi0, LM3S_IRQ_SSI0 /* Vector 23: SSI 0 */ + HANDLER lm3s_i2c0, LM3S_IRQ_I2C0 /* Vector 24: I2C 0 */ + HANDLER lm3s_adc0, LM3S_IRQ_ADC0 /* Vector 30: ADC Sequence 0 */ + HANDLER lm3s_adc1, LM3S_IRQ_ADC1 /* Vector 31: ADC Sequence 1 */ + HANDLER lm3s_adc2, LM3S_IRQ_ADC2 /* Vector 32: ADC Sequence 2 */ + HANDLER lm3s_adc3, LM3S_IRQ_ADC3 /* Vector 33: ADC Sequence 3 */ + HANDLER lm3s_wdog, LM3S_IRQ_WDOG /* Vector 34: Watchdog Timer */ + HANDLER lm3s_tmr0a, LM3S_IRQ_TIMER0A /* Vector 35: Timer 0 A */ + HANDLER lm3s_tmr0b, LM3S_IRQ_TIMER0B /* Vector 36: Timer 0 B */ + HANDLER lm3s_tmr1a, LM3S_IRQ_TIMER1A /* Vector 37: Timer 1 A */ + HANDLER lm3s_tmr1b, LM3S_IRQ_TIMER1B /* Vector 38: Timer 1 B */ + HANDLER lm3s_tmr2a, LM3S_IRQ_TIMER2A /* Vector 39: Timer 2 A */ + HANDLER lm3s_tmr2b, LM3S_IRQ_TIMER2B /* Vector 40: Timer 3 B */ + HANDLER lm3s_cmp0, LM3S_IRQ_COMPARE0 /* Vector 41: Analog Comparator 0 */ + HANDLER lm3s_cmp1, LM3S_IRQ_COMPARE1 /* Vector 42: Analog Comparator 1 */ + HANDLER lm3s_syscon, LM3S_IRQ_SYSCON /* Vector 44: System Control */ + HANDLER lm3s_flashcon, LM3S_IRQ_FLASHCON /* Vector 45: FLASH Control */ + HANDLER lm3s_gpiof, LM3S_IRQ_GPIOF /* Vector 46: GPIO Port F */ + HANDLER lm3s_gpiog, LM3S_IRQ_GPIOG /* Vector 47: GPIO Port G */ + HANDLER lm3s_gpioh, LM3S_IRQ_GPIOH /* Vector 48: GPIO Port H */ + HANDLER lm3s_ssi1, LM3S_IRQ_SSI1 /* Vector 50: SSI 1 */ + HANDLER lm3s_tmr3a, LM3S_IRQ_TIMER3A /* Vector 51: Timer 3 A */ + HANDLER lm3s_tmr3b, LM3S_IRQ_TIMER3B /* Vector 52: Timer 3 B */ + HANDLER lm3s_i2c1, LM3S_IRQ_I2C1 /* Vector 53: I2C 1 */ + HANDLER lm3s_eth, LM3S_IRQ_ETHCON /* Vector 58: Ethernet Controller */ + HANDLER lm3s_hib, LM3S_IRQ_HIBERNATE /* Vector 59: Hibernation Module */ +#elif defined(CONFIG_ARCH_CHIP_LM3S6965) + HANDLER lm3s_gpioa, LM3S_IRQ_GPIOA /* Vector 16: GPIO Port A */ + HANDLER lm3s_gpiob, LM3S_IRQ_GPIOB /* Vector 17: GPIO Port B */ + HANDLER lm3s_gpioc, LM3S_IRQ_GPIOC /* Vector 18: GPIO Port C */ + HANDLER lm3s_gpiod, LM3S_IRQ_GPIOD /* Vector 19: GPIO Port D */ + HANDLER lm3s_gpioe, LM3S_IRQ_GPIOE /* Vector 20: GPIO Port E */ + HANDLER lm3s_uart0, LM3S_IRQ_UART0 /* Vector 21: UART 0 */ + HANDLER lm3s_uart1, LM3S_IRQ_UART1 /* Vector 22: UART 1 */ + HANDLER lm3s_ssi0, LM3S_IRQ_SSI0 /* Vector 23: SSI 0 */ + HANDLER lm3s_i2c0, LM3S_IRQ_I2C0 /* Vector 24: I2C 0 */ + HANDLER lm3s_pwmfault, LM3S_IRQ_PWMFAULT /* Vector 25: PWM Fault */ + HANDLER lm3s_pwm0, LM3S_IRQ_PWM0 /* Vector 26: PWM Generator 0 */ + HANDLER lm3s_pwm1, LM3S_IRQ_PWM1 /* Vector 27: PWM Generator 1 */ + HANDLER lm3s_pwm2, LM3S_IRQ_PWM2 /* Vector 28: PWM Generator 2 */ + HANDLER lm3s_qei0, LM3S_IRQ_QEI0 /* Vector 29: QEI 0 */ + HANDLER lm3s_adc0, LM3S_IRQ_ADC0 /* Vector 30: ADC Sequence 0 */ + HANDLER lm3s_adc1, LM3S_IRQ_ADC1 /* Vector 31: ADC Sequence 1 */ + HANDLER lm3s_adc2, LM3S_IRQ_ADC2 /* Vector 32: ADC Sequence 2 */ + HANDLER lm3s_adc3, LM3S_IRQ_ADC3 /* Vector 33: ADC Sequence 3 */ + HANDLER lm3s_wdog, LM3S_IRQ_WDOG /* Vector 34: Watchdog Timer */ + HANDLER lm3s_tmr0a, LM3S_IRQ_TIMER0A /* Vector 35: Timer 0 A */ + HANDLER lm3s_tmr0b, LM3S_IRQ_TIMER0B /* Vector 36: Timer 0 B */ + HANDLER lm3s_tmr1a, LM3S_IRQ_TIMER1A /* Vector 37: Timer 1 A */ + HANDLER lm3s_tmr1b, LM3S_IRQ_TIMER1B /* Vector 38: Timer 1 B */ + HANDLER lm3s_tmr2a, LM3S_IRQ_TIMER2A /* Vector 39: Timer 2 A */ + HANDLER lm3s_tmr2b, LM3S_IRQ_TIMER2B /* Vector 40: Timer 3 B */ + HANDLER lm3s_cmp0, LM3S_IRQ_COMPARE0 /* Vector 41: Analog Comparator 0 */ + HANDLER lm3s_cmp1, LM3S_IRQ_COMPARE1 /* Vector 42: Analog Comparator 1 */ + HANDLER lm3s_syscon, LM3S_IRQ_SYSCON /* Vector 44: System Control */ + HANDLER lm3s_flashcon, LM3S_IRQ_FLASHCON /* Vector 45: FLASH Control */ + HANDLER lm3s_gpiof, LM3S_IRQ_GPIOF /* Vector 46: GPIO Port F */ + HANDLER lm3s_gpiog, LM3S_IRQ_GPIOG /* Vector 47: GPIO Port G */ + HANDLER lm3s_uart2, LM3S_IRQ_UART1 /* Vector 49: UART 1 */ + HANDLER lm3s_tmr3a, LM3S_IRQ_TIMER3A /* Vector 51: Timer 3 A */ + HANDLER lm3s_tmr3b, LM3S_IRQ_TIMER3B /* Vector 52: Timer 3 B */ + HANDLER lm3s_i2c1, LM3S_IRQ_I2C1 /* Vector 53: I2C 1 */ + HANDLER lm3s_qei1, LM3S_IRQ_QEI1 /* Vector 54: QEI 1 */ + HANDLER lm3s_eth, LM3S_IRQ_ETHCON /* Vector 58: Ethernet Controller */ + HANDLER lm3s_hib, LM3S_IRQ_HIBERNATE /* Vector 59: Hibernation Module */ +#elif defined(CONFIG_ARCH_CHIP_LM3S8962) + HANDLER lm3s_gpioa, LM3S_IRQ_GPIOA /* Vector 16: GPIO Port A */ + HANDLER lm3s_gpiob, LM3S_IRQ_GPIOB /* Vector 17: GPIO Port B */ + HANDLER lm3s_gpioc, LM3S_IRQ_GPIOC /* Vector 18: GPIO Port C */ + HANDLER lm3s_gpiod, LM3S_IRQ_GPIOD /* Vector 19: GPIO Port D */ + HANDLER lm3s_gpioe, LM3S_IRQ_GPIOE /* Vector 20: GPIO Port E */ + HANDLER lm3s_uart0, LM3S_IRQ_UART0 /* Vector 21: UART 0 */ + HANDLER lm3s_uart1, LM3S_IRQ_UART1 /* Vector 22: UART 1 */ + HANDLER lm3s_ssi0, LM3S_IRQ_SSI0 /* Vector 23: SSI 0 */ + HANDLER lm3s_i2c0, LM3S_IRQ_I2C0 /* Vector 24: I2C 0 */ + HANDLER lm3s_pwmfault, LM3S_IRQ_PWMFAULT /* Vector 25: PWM Fault */ + HANDLER lm3s_pwm0, LM3S_IRQ_PWM0 /* Vector 26: PWM Generator 0 */ + HANDLER lm3s_pwm1, LM3S_IRQ_PWM1 /* Vector 27: PWM Generator 1 */ + HANDLER lm3s_pwm2, LM3S_IRQ_PWM2 /* Vector 28: PWM Generator 2 */ + HANDLER lm3s_qei0, LM3S_IRQ_QEI0 /* Vector 29: QEI 0 */ + HANDLER lm3s_adc0, LM3S_IRQ_ADC0 /* Vector 30: ADC Sequence 0 */ + HANDLER lm3s_adc1, LM3S_IRQ_ADC1 /* Vector 31: ADC Sequence 1 */ + HANDLER lm3s_adc2, LM3S_IRQ_ADC2 /* Vector 32: ADC Sequence 2 */ + HANDLER lm3s_adc3, LM3S_IRQ_ADC3 /* Vector 33: ADC Sequence 3 */ + HANDLER lm3s_wdog, LM3S_IRQ_WDOG /* Vector 34: Watchdog Timer */ + HANDLER lm3s_tmr0a, LM3S_IRQ_TIMER0A /* Vector 35: Timer 0 A */ + HANDLER lm3s_tmr0b, LM3S_IRQ_TIMER0B /* Vector 36: Timer 0 B */ + HANDLER lm3s_tmr1a, LM3S_IRQ_TIMER1A /* Vector 37: Timer 1 A */ + HANDLER lm3s_tmr1b, LM3S_IRQ_TIMER1B /* Vector 38: Timer 1 B */ + HANDLER lm3s_tmr2a, LM3S_IRQ_TIMER2A /* Vector 39: Timer 2 A */ + HANDLER lm3s_tmr2b, LM3S_IRQ_TIMER2B /* Vector 40: Timer 3 B */ + HANDLER lm3s_cmp0, LM3S_IRQ_COMPARE0 /* Vector 41: Analog Comparator 0 */ + HANDLER lm3s_syscon, LM3S_IRQ_SYSCON /* Vector 44: System Control */ + HANDLER lm3s_flashcon, LM3S_IRQ_FLASHCON /* Vector 45: FLASH Control */ + HANDLER lm3s_gpiof, LM3S_IRQ_GPIOF /* Vector 46: GPIO Port F */ + HANDLER lm3s_gpiog, LM3S_IRQ_GPIOG /* Vector 47: GPIO Port G */ + HANDLER lm3s_uart2, LM3S_IRQ_UART1 /* Vector 49: UART 1 */ + HANDLER lm3s_tmr3a, LM3S_IRQ_TIMER3A /* Vector 51: Timer 3 A */ + HANDLER lm3s_tmr3b, LM3S_IRQ_TIMER3B /* Vector 52: Timer 3 B */ + HANDLER lm3s_i2c1, LM3S_IRQ_I2C1 /* Vector 53: I2C 1 */ + HANDLER lm3s_qei1, LM3S_IRQ_QEI1 /* Vector 54: QEI 1 */ + HANDLER lm3s_can0, LM3S_IRQ_CAN0 /* Vector 55: CAN 0 */ + HANDLER lm3s_eth, LM3S_IRQ_ETHCON /* Vector 58: Ethernet Controller */ + HANDLER lm3s_hib, LM3S_IRQ_HIBERNATE /* Vector 59: Hibernation Module */ +#elif defined(CONFIG_ARCH_CHIP_LM3S9B96) + HANDLER lm3s_gpioa, LM3S_IRQ_GPIOA /* Vector 16: GPIO Port A */ + HANDLER lm3s_gpiob, LM3S_IRQ_GPIOB /* Vector 17: GPIO Port B */ + HANDLER lm3s_gpioc, LM3S_IRQ_GPIOC /* Vector 18: GPIO Port C */ + HANDLER lm3s_gpiod, LM3S_IRQ_GPIOD /* Vector 19: GPIO Port D */ + HANDLER lm3s_gpioe, LM3S_IRQ_GPIOE /* Vector 20: GPIO Port E */ + HANDLER lm3s_uart0, LM3S_IRQ_UART0 /* Vector 21: UART 0 */ + HANDLER lm3s_uart1, LM3S_IRQ_UART1 /* Vector 22: UART 1 */ + HANDLER lm3s_ssi0, LM3S_IRQ_SSI0 /* Vector 23: SSI 0 */ + HANDLER lm3s_i2c0, LM3S_IRQ_I2C0 /* Vector 24: I2C 0 */ + HANDLER lm3s_pwmfault, LM3S_IRQ_PWMFAULT /* Vector 25: PWM Fault */ + HANDLER lm3s_pwm0, LM3S_IRQ_PWM0 /* Vector 26: PWM Generator 0 */ + HANDLER lm3s_pwm1, LM3S_IRQ_PWM1 /* Vector 27: PWM Generator 1 */ + HANDLER lm3s_pwm2, LM3S_IRQ_PWM2 /* Vector 28: PWM Generator 2 */ + HANDLER lm3s_qei0, LM3S_IRQ_QEI0 /* Vector 29: QEI 0 */ + HANDLER lm3s_adc0, LM3S_IRQ_ADC0 /* Vector 30: ADC Sequence 0 */ + HANDLER lm3s_adc1, LM3S_IRQ_ADC1 /* Vector 31: ADC Sequence 1 */ + HANDLER lm3s_adc2, LM3S_IRQ_ADC2 /* Vector 32: ADC Sequence 2 */ + HANDLER lm3s_adc3, LM3S_IRQ_ADC3 /* Vector 33: ADC Sequence 3 */ + HANDLER lm3s_wdog, LM3S_IRQ_WDOG /* Vector 34: Watchdog Timer */ + HANDLER lm3s_tmr0a, LM3S_IRQ_TIMER0A /* Vector 35: Timer 0 A */ + HANDLER lm3s_tmr0b, LM3S_IRQ_TIMER0B /* Vector 36: Timer 0 B */ + HANDLER lm3s_tmr1a, LM3S_IRQ_TIMER1A /* Vector 37: Timer 1 A */ + HANDLER lm3s_tmr1b, LM3S_IRQ_TIMER1B /* Vector 38: Timer 1 B */ + HANDLER lm3s_tmr2a, LM3S_IRQ_TIMER2A /* Vector 39: Timer 2 A */ + HANDLER lm3s_tmr2b, LM3S_IRQ_TIMER2B /* Vector 40: Timer 3 B */ + HANDLER lm3s_cmp0, LM3S_IRQ_COMPARE0 /* Vector 41: Analog Comparator 0 */ + HANDLER lm3s_cmp1, LM3S_IRQ_COMPARE1 /* Vector 42: Analog Comparator 1 */ + HANDLER lm3s_cmp2, LM3S_IRQ_COMPARE2 /* Vector 43: Analog Comparator 2 */ + HANDLER lm3s_syscon, LM3S_IRQ_SYSCON /* Vector 44: System Control */ + HANDLER lm3s_flashcon, LM3S_IRQ_FLASHCON /* Vector 45: FLASH Control */ + HANDLER lm3s_gpiof, LM3S_IRQ_GPIOF /* Vector 46: GPIO Port F */ + HANDLER lm3s_gpiog, LM3S_IRQ_GPIOG /* Vector 47: GPIO Port G */ + HANDLER lm3s_gpioh, LM3S_IRQ_GPIOH /* Vector 48: GPIO Port H */ + HANDLER lm3s_uart2, LM3S_IRQ_UART2 /* Vector 49: UART 2 */ + HANDLER lm3s_ssi1, LM3S_IRQ_SSI1 /* Vector 50: GPIO Port H */ + HANDLER lm3s_tmr3a, LM3S_IRQ_TIMER3A /* Vector 51: Timer 3 A */ + HANDLER lm3s_tmr3b, LM3S_IRQ_TIMER3B /* Vector 52: Timer 3 B */ + HANDLER lm3s_i2c1, LM3S_IRQ_I2C1 /* Vector 53: I2C 1 */ + HANDLER lm3s_qei1, LM3S_IRQ_QEI1 /* Vector 54: QEI 1 */ + HANDLER lm3s_can0, LM3S_IRQ_CAN0 /* Vector 55: CAN 0 */ + HANDLER lm3s_can1, LM3S_IRQ_CAN1 /* Vector 56: CAN 1 */ + HANDLER lm3s_eth, LM3S_IRQ_ETHCON /* Vector 58: Ethernet Controller */ + HANDLER lm3s_usb, LM3S_IRQ_USB /* Vector 60: USB */ + HANDLER lm3s_pwm3, LM3S_IRQ_PWM3 /* Vector 61: PWM 3 */ + HANDLER lm3s_udmasoft, LM3S_IRQ_UDMASOFT /* Vector 62: uDMA Software */ + HANDLER lm3s_udmaerror, LM3S_IRQ_UDMAERROR /* Vector 63: uDMA Error */ + HANDLER lm3s_adc1_0, LM3S_IRQ_ADC1_0 /* Vector 64: ADC1 Sequence 0 */ + HANDLER lm3s_adc1_1, LM3S_IRQ_ADC1_1 /* Vector 65: ADC1 Sequence 1 */ + HANDLER lm3s_adc1_2, LM3S_IRQ_ADC1_2 /* Vector 66: ADC1 Sequence 2 */ + HANDLER lm3s_adc1_3, LM3S_IRQ_ADC1_3 /* Vector 67: ADC1 Sequence 3 */ + HANDLER lm3s_i2s0, LM3S_IRQ_I2S0 /* Vector 68: I2S 0 */ + HANDLER lm3s_epi, LM3S_IRQ_EPI /* Vector 69: EPI */ + HANDLER lm3s_gpioj, LM3S_IRQ_GPIOJ /* Vector 70: GPIO Port J */ +#else +# error "Vectors not specified for this LM3S chip" +#endif + +/* Common IRQ handling logic. On entry here, the stack is like the following: + * + * REG_XPSR + * REG_R15 + * REG_R14 + * REG_R12 + * REG_R3 + * REG_R2 + * REG_R1 + * MSP->REG_R0 + * + * and R0 contains the IRQ number + */ + +lm3s_irqcommon: + + /* Complete the context save */ + + mrs r1, msp /* R1=The main stack pointer */ + mov r2, r1 /* R2=Copy of the main stack pointer */ + add r2, #HW_XCPT_SIZE /* R2=MSP before the interrupt was taken */ + mrs r3, primask /* R3=Current PRIMASK setting */ + stmdb r1!, {r2-r11} /* Save the remaining registers plus the SP value */ + + /* Disable interrupts, select the stack to use for interrupt handling + * and call up_doirq to handle the interrupt + */ + + cpsid i /* Disable further interrupts */ + + /* If CONFIG_ARCH_INTERRUPTSTACK is defined, we will use a special interrupt + * stack pointer. The way that this is done here prohibits nested interrupts! + * Otherwise, we will re-use the main stack for interrupt level processing. + */ + +#ifdef CONFIG_ARCH_INTERRUPTSTACK + ldr sp, =g_intstackbase + str r1, [sp, #-4]! /* Save the MSP on the interrupt stack */ + bl up_doirq /* R0=IRQ, R1=register save (msp) */ + ldr r1, [sp, #+4]! /* Recover R1=main stack pointer */ +#else + mov sp, r1 /* We are using the main stack pointer */ + bl up_doirq /* R0=IRQ, R1=register save (msp) */ + mov r1, sp /* Recover R1=main stack pointer */ +#endif + + /* On return from up_doirq, R0 will hold a pointer to register context + * array to use for the interrupt return. If that return value is the same + * as current stack pointer, then things are relatively easy. + */ + + cmp r0, r1 /* Context switch? */ + beq 1f /* Branch if no context switch */ + + /* We are returning with a pending context switch. This case is different + * because in this case, the register save structure does not lie on the + * stack but, rather, are within a TCB structure. We'll have to copy some + * values to the stack. + */ + + add r1, r0, #SW_XCPT_SIZE /* R1=Address of HW save area in reg array */ + ldmia r1, {r4-r11} /* Fetch eight registers in HW save area */ + ldr r1, [r0, #(4*REG_SP)] /* R1=Value of SP before interrupt */ + stmdb r1!, {r4-r11} /* Store eight registers in HW save area */ + ldmia r0, {r2-r11} /* Recover R4-R11 + 2 temp values */ + b 2f /* Re-join common logic */ + + /* We are returning with no context switch. We simply need to "unwind" + * the same stack frame that we created + */ +1: + ldmia r1!, {r2-r11} /* Recover R4-R11 + 2 temp values */ +2: + msr msp, r1 /* Recover the return MSP value */ + + /* Restore the interrupt state. Preload r14 with the special return + * value first (so that the return actually occurs with interrupts + * still disabled). + */ + + ldr r14, =EXC_RETURN /* Load the special value */ + msr primask, r3 /* Restore interrupts */ + + /* Always return with R14 containing the special value that will: (1) + * return to thread mode, and (2) continue to use the MSP + */ + + bx r14 /* And return */ + .size handlers, .-handlers + +/************************************************************************************ + * Name: up_interruptstack/g_intstackbase + * + * Description: + * Shouldn't happen + * + ************************************************************************************/ + +#if CONFIG_ARCH_INTERRUPTSTACK > 3 + .bss + .global g_intstackbase + .align 4 +up_interruptstack: + .skip (CONFIG_ARCH_INTERRUPTSTACK & ~3) +g_intstackbase: + .size up_interruptstack, .-up_interruptstack +#endif + +/************************************************************************************ + * .rodata + ************************************************************************************/ + + .section .rodata, "a" + +/* Variables: _sbss is the start of the BSS region (see ld.script) _ebss is the end + * of the BSS regsion (see ld.script). The idle task stack starts at the end of BSS + * and is of size CONFIG_IDLETHREAD_STACKSIZE. The IDLE thread is the thread that + * the system boots on and, eventually, becomes the idle, do nothing task that runs + * only when there is nothing else to run. The heap continues from there until the + * end of memory. See g_heapbase below. + */ + + .globl g_heapbase + .type g_heapbase, object +g_heapbase: + .long _ebss+CONFIG_IDLETHREAD_STACKSIZE + .size g_heapbase, .-g_heapbase + + .end diff --git a/arch/arm/src/lpc17xx/Make.defs b/arch/arm/src/lpc17xx/Make.defs index 74f0e3188b..2ec1d5d8d5 100755 --- a/arch/arm/src/lpc17xx/Make.defs +++ b/arch/arm/src/lpc17xx/Make.defs @@ -41,7 +41,7 @@ HEAD_ASRC = lpc17_vectors.S CMN_ASRCS = up_saveusercontext.S up_fullcontextrestore.S up_switchcontext.S CMN_CSRCS = up_assert.c up_blocktask.c up_copystate.c up_createstack.c \ - up_mdelay.c up_udelay.c up_exit.c up_initialize.c \ + up_mdelay.c up_udelay.c up_exit.c up_initialize.c up_memfault.c \ up_initialstate.c up_interruptcontext.c up_modifyreg8.c \ up_modifyreg16.c up_modifyreg32.c up_releasepending.c \ up_releasestack.c up_reprioritizertr.c up_schedulesigaction.c \ diff --git a/arch/arm/src/lpc17xx/lpc17_irq.c b/arch/arm/src/lpc17xx/lpc17_irq.c index 5190c8e660..967de45d71 100755 --- a/arch/arm/src/lpc17xx/lpc17_irq.c +++ b/arch/arm/src/lpc17xx/lpc17_irq.c @@ -127,7 +127,7 @@ static void lpc17_dumpnvic(const char *msg, int irq) #endif /**************************************************************************** - * Name: lpc17_nmi, lpc17_mpu, lpc17_busfault, lpc17_usagefault, lpc17_pendsv, + * Name: lpc17_nmi, lpc17_busfault, lpc17_usagefault, lpc17_pendsv, * lpc17_dbgmonitor, lpc17_pendsv, lpc17_reserved * * Description: @@ -146,14 +146,6 @@ static int lpc17_nmi(int irq, FAR void *context) return 0; } -static int lpc17_mpu(int irq, FAR void *context) -{ - (void)irqsave(); - dbg("PANIC!!! MPU interrupt received\n"); - PANIC(OSERR_UNEXPECTEDISR); - return 0; -} - static int lpc17_busfault(int irq, FAR void *context) { (void)irqsave(); @@ -233,7 +225,7 @@ static int lpc17_irqinfo(int irq, uint32_t *regaddr, uint32_t *bit) else { *regaddr = NVIC_SYSHCON; - if (irq == LPC17_IRQ_MPU) + if (irq == LPC17_IRQ_MEMFAULT) { *bit = NVIC_SYSHCON_MEMFAULTENA; } @@ -312,11 +304,22 @@ void up_irqinitialize(void) /* up_prioritize_irq(LPC17_IRQ_PENDSV, NVIC_SYSH_PRIORITY_MIN); */ #endif + /* If the MPU is enabled, then attach and enable the Memory Management + * Fault handler. + */ + +#ifdef CONFIG_CORTEXM3_MPU + irq_attach(LPC17_IRQ_MEMFAULT, up_memfault); + up_enable_irq(LPC17_IRQ_MEMFAULT); +#endif + /* Attach all other processor exceptions (except reset and sys tick) */ #ifdef CONFIG_DEBUG irq_attach(LPC17_IRQ_NMI, lpc17_nmi); - irq_attach(LPC17_IRQ_MPU, lpc17_mpu); +#ifndef CONFIG_CORTEXM3_MPU + irq_attach(LPC17_IRQ_MEMFAULT, up_memfault); +#endif irq_attach(LPC17_IRQ_BUSFAULT, lpc17_busfault); irq_attach(LPC17_IRQ_USAGEFAULT, lpc17_usagefault); irq_attach(LPC17_IRQ_PENDSV, lpc17_pendsv); @@ -449,7 +452,7 @@ int up_prioritize_irq(int irq, int priority) uint32_t regval; int shift; - DEBUGASSERT(irq >= LPC17_IRQ_MPU && irq < LPC17_IRQ_NIRQS && (unsigned)priority <= NVIC_SYSH_PRIORITY_MIN); + DEBUGASSERT(irq >= LPC17_IRQ_MEMFAULT && irq < LPC17_IRQ_NIRQS && (unsigned)priority <= NVIC_SYSH_PRIORITY_MIN); if (irq < LPC17_IRQ_EXTINT) { diff --git a/arch/arm/src/lpc17xx/lpc17_vectors.S b/arch/arm/src/lpc17xx/lpc17_vectors.S index ed0f10fad6..7a25c5610a 100755 --- a/arch/arm/src/lpc17xx/lpc17_vectors.S +++ b/arch/arm/src/lpc17xx/lpc17_vectors.S @@ -1,351 +1,351 @@ -/************************************************************************************************ - * arch/arm/src/lpc17xx/lpc17_vectors.S - * arch/arm/src/chip/lpc17_vectors.S - * - * Copyright (C) 2010 Gregory Nutt. All rights reserved. - * Author: Gregory Nutt - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions - * are met: - * - * 1. Redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer. - * 2. Redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in - * the documentation and/or other materials provided with the - * distribution. - * 3. Neither the name NuttX nor the names of its contributors may be - * used to endorse or promote products derived from this software - * without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS - * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE - * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, - * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, - * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS - * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED - * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT - * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN - * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE - * POSSIBILITY OF SUCH DAMAGE. - * - ************************************************************************************************/ - -/************************************************************************************************ - * Included Files - ************************************************************************************************/ - -#include -#include - -/************************************************************************************************ - * Preprocessor Definitions - ************************************************************************************************/ - -/* Memory Map: - * - * 0x0000:0000 - Beginning of FLASH. Address of vectors - * 0x0003:ffff - End of flash - * 0x1000:0000 - Start of CPU SRAM and start of .data (_sdata) - * - End of .data (_edata) and start of .bss (_sbss) - * - End of .bss (_ebss) and bottom of idle stack - * - _ebss + CONFIG_IDLETHREAD_STACKSIZE = end of idle stack, start of heap. NOTE - * that the ARM uses a decrement before store stack so that the correct initial - * value is the end of the stack + 4; - * 0x1000:7fff - End of CPU SRAM and end of heap (1st region) - */ - -#define IDLE_STACK (_ebss+CONFIG_IDLETHREAD_STACKSIZE) -#define HEAP_BASE (_ebss+CONFIG_IDLETHREAD_STACKSIZE) - -/* The Cortex-M3 return from interrupt is unusual. We provide the following special - * address to the BX instruction. The particular value also forces a return to - * thread mode and covers state from the main stack point, the MSP (vs. the MSP). - */ - -#define EXC_RETURN 0xfffffff9 - -/************************************************************************************************ - * Global Symbols - ************************************************************************************************/ - - .globl __start - - .syntax unified - .thumb - .file "lpc17_vectors.S" - -/************************************************************************************************ - * Macros - ************************************************************************************************/ - -/* On entry into an IRQ, the hardware automatically saves the xPSR, PC, LR, R12, R0-R3 - * registers on the stack, then branches to an instantantiation of the following - * macro. This macro simply loads the IRQ number into R0, then jumps to the common - * IRQ handling logic. - */ - - .macro HANDLER, label, irqno - .thumb_func -\label: - mov r0, #\irqno - b lpc17_common - .endm - -/************************************************************************************************ - * Vectors - ************************************************************************************************/ - - .section .vectors, "ax" - .code 16 - .align 2 - .globl lpc17_vectors - .type lpc17_vectors, function - -lpc17_vectors: - -/* Processor Exceptions */ - - .word IDLE_STACK /* Vector 0: Reset stack pointer */ - .word __start /* Vector 1: Reset vector */ - .word lpc17_nmi /* Vector 2: Non-Maskable Interrupt (NMI) */ - .word lpc17_hardfault /* Vector 3: Hard fault */ - .word lpc17_mpu /* Vector 4: Memory management (MPU) */ - .word lpc17_busfault /* Vector 5: Bus fault */ - .word lpc17_usagefault /* Vector 6: Usage fault */ - .word lpc17_reserved /* Vector 7: Reserved */ - .word lpc17_reserved /* Vector 8: Reserved */ - .word lpc17_reserved /* Vector 9: Reserved */ - .word lpc17_reserved /* Vector 10: Reserved */ - .word lpc17_svcall /* Vector 11: SVC call */ - .word lpc17_dbgmonitor /* Vector 12: Debug monitor */ - .word lpc17_reserved /* Vector 13: Reserved */ - .word lpc17_pendsv /* Vector 14: Pendable system service request */ - .word lpc17_systick /* Vector 15: System tick */ - -/* External Interrupts */ - - .word lpc17_wdt /* Vector 16+0: Watchdog timer */ - .word lpc17_tmr0 /* Vector 16+1: Timer 0 */ - .word lpc17_tmr1 /* Vector 16+2: Timer 1 */ - .word lpc17_tmr2 /* Vector 16+3: Timer 2 */ - .word lpc17_tmr3 /* Vector 16+4: Timer 3 */ - .word lpc17_uart0 /* Vector 16+5: UART 0 */ - .word lpc17_uart1 /* Vector 16+6: UART 1 */ - .word lpc17_uart2 /* Vector 16+7: UART 2 */ - .word lpc17_uart3 /* Vector 16+8: UART 3 */ - .word lpc17_pwm1 /* Vector 16+9: PWM */ - .word lpc17_i2c0 /* Vector 16+10: I2C 0 */ - .word lpc17_i2c1 /* Vector 16+11: I2C 1 */ - .word lpc17_i2c2 /* Vector 16+12: I2C 2 */ - .word lpc17_spif /* Vector 16+13: SPI */ - .word lpc17_ssp0 /* Vector 16+14: SSP 0 */ - .word lpc17_ssp1 /* Vector 16+15: SSP 1 */ - .word lpc17_pll0 /* Vector 16+16: PLL 0 */ - .word lpc17_rtc /* Vector 16+17: Real time clock */ - .word lpc17_eint0 /* Vector 16+18: External interrupt 0 */ - .word lpc17_eint1 /* Vector 16+19: External interrupt 1 */ - .word lpc17_eint2 /* Vector 16+20: External interrupt 2 */ - .word lpc17_eint3 /* Vector 16+21: External interrupt 3 */ - .word lpc17_adc /* Vector 16+22: A/D Converter */ - .word lpc17_bod /* Vector 16+23: Brown Out detect */ - .word lpc17_usb /* Vector 16+24: USB */ - .word lpc17_can /* Vector 16+25: CAN */ - .word lpc17_gpdma /* Vector 16+26: GPDMA */ - .word lpc17_i2s /* Vector 16+27: I2S */ - .word lpc17_eth /* Vector 16+28: Ethernet */ - .word lpc17_ritint /* Vector 16+29: Repetitive Interrupt Timer */ - .word lpc17_mcpwm /* Vector 16+30: Motor Control PWM */ - .word lpc17_qei /* Vector 16+31: Quadrature Encoder */ - .word lpc17_pll1 /* Vector 16+32: PLL 1 */ - .word lpc17_usbact /* Vector 16+33: USB Activity Interrupt */ - .word lpc17_canact /* Vector 16+34: CAN Activity Interrupt */ - .size lpc17_vectors, .-lpc17_vectors - -/************************************************************************************************ - * .text - ************************************************************************************************/ - - .text - .type handlers, function - .thumb_func -handlers: - HANDLER lpc17_reserved, LPC17_IRQ_RESERVED /* Unexpected/reserved vector */ - HANDLER lpc17_nmi, LPC17_IRQ_NMI /* Vector 2: Non-Maskable Interrupt (NMI) */ - HANDLER lpc17_hardfault, LPC17_IRQ_HARDFAULT /* Vector 3: Hard fault */ - HANDLER lpc17_mpu, LPC17_IRQ_MPU /* Vector 4: Memory management (MPU) */ - HANDLER lpc17_busfault, LPC17_IRQ_BUSFAULT /* Vector 5: Bus fault */ - HANDLER lpc17_usagefault, LPC17_IRQ_USAGEFAULT /* Vector 6: Usage fault */ - HANDLER lpc17_svcall, LPC17_IRQ_SVCALL /* Vector 11: SVC call */ - HANDLER lpc17_dbgmonitor, LPC17_IRQ_DBGMONITOR /* Vector 12: Debug Monitor */ - HANDLER lpc17_pendsv, LPC17_IRQ_PENDSV /* Vector 14: Penable system service request */ - HANDLER lpc17_systick, LPC17_IRQ_SYSTICK /* Vector 15: System tick */ - - HANDLER lpc17_wdt, LPC17_IRQ_WDT /* Vector 16+0: Watchdog timer */ - HANDLER lpc17_tmr0, LPC17_IRQ_TMR0 /* Vector 16+1: Timer 0 */ - HANDLER lpc17_tmr1, LPC17_IRQ_TMR1 /* Vector 16+2: Timer 1 */ - HANDLER lpc17_tmr2, LPC17_IRQ_TMR2 /* Vector 16+3: Timer 2 */ - HANDLER lpc17_tmr3, LPC17_IRQ_TMR3 /* Vector 16+4: Timer 3 */ - HANDLER lpc17_uart0, LPC17_IRQ_UART0 /* Vector 16+5: UART 0 */ - HANDLER lpc17_uart1, LPC17_IRQ_UART1 /* Vector 16+6: UART 1 */ - HANDLER lpc17_uart2, LPC17_IRQ_UART2 /* Vector 16+7: UART 2 */ - HANDLER lpc17_uart3, LPC17_IRQ_UART3 /* Vector 16+8: UART 3 */ - HANDLER lpc17_pwm1, LPC17_IRQ_PWM1 /* Vector 16+9: PWM 1 */ - HANDLER lpc17_i2c0, LPC17_IRQ_I2C0 /* Vector 16+10: I2C 0 */ - HANDLER lpc17_i2c1, LPC17_IRQ_I2C1 /* Vector 16+11: I2C 1 */ - HANDLER lpc17_i2c2, LPC17_IRQ_I2C2 /* Vector 16+12: I2C 2 */ - HANDLER lpc17_spif, LPC17_IRQ_SPIF /* Vector 16+13: SPI */ - HANDLER lpc17_ssp0, LPC17_IRQ_SSP0 /* Vector 16+14: SSP 0 */ - HANDLER lpc17_ssp1, LPC17_IRQ_SSP1 /* Vector 16+15: SSP 1 */ - HANDLER lpc17_pll0, LPC17_IRQ_PLL0 /* Vector 16+16: PLL 0 */ - HANDLER lpc17_rtc, LPC17_IRQ_RTC /* Vector 16+17: Real time clock */ - HANDLER lpc17_eint0, LPC17_IRQ_EINT0 /* Vector 16+18: External interrupt 0 */ - HANDLER lpc17_eint1, LPC17_IRQ_EINT1 /* Vector 16+19: External interrupt 1 */ - HANDLER lpc17_eint2, LPC17_IRQ_EINT2 /* Vector 16+20: External interrupt 2 */ - HANDLER lpc17_eint3, LPC17_IRQ_EINT3 /* Vector 16+21: External interrupt 3 */ - HANDLER lpc17_adc, LPC17_IRQ_ADC /* Vector 16+22: A/D Converter */ - HANDLER lpc17_bod, LPC17_IRQ_BOD /* Vector 16+23: Brown Out detect */ - HANDLER lpc17_usb, LPC17_IRQ_USB /* Vector 16+24: USB */ - HANDLER lpc17_can, LPC17_IRQ_CAN /* Vector 16+25: CAN */ - HANDLER lpc17_gpdma, LPC17_IRQ_GPDMA /* Vector 16+26: GPDMA */ - HANDLER lpc17_i2s, LPC17_IRQ_I2S /* Vector 16+27: I2S */ - HANDLER lpc17_eth, LPC17_IRQ_ETH /* Vector 16+28: Ethernet */ - HANDLER lpc17_ritint, LPC17_IRQ_RITINT /* Vector 16+29: Repetitive Interrupt Timer */ - HANDLER lpc17_mcpwm, LPC17_IRQ_MCPWM /* Vector 16+30: Motor Control PWM */ - HANDLER lpc17_qei, LPC17_IRQ_QEI /* Vector 16+31: Quadrature Encoder */ - HANDLER lpc17_pll1, LPC17_IRQ_PLL1 /* Vector 16+32: PLL 1 */ - HANDLER lpc17_usbact, LPC17_IRQ_USBACT /* Vector 16+33: USB Activity Interrupt */ - HANDLER lpc17_canact, LPC17_IRQ_CANACT /* Vector 16+34: CAN Activity Interrupt */ - -/* Common IRQ handling logic. On entry here, the stack is like the following: - * - * REG_XPSR - * REG_R15 - * REG_R14 - * REG_R12 - * REG_R3 - * REG_R2 - * REG_R1 - * MSP->REG_R0 - * - * and R0 contains the IRQ number - */ - -lpc17_common: - - /* Complete the context save */ - - mrs r1, msp /* R1=The main stack pointer */ - mov r2, r1 /* R2=Copy of the main stack pointer */ - add r2, #HW_XCPT_SIZE /* R2=MSP before the interrupt was taken */ - mrs r3, primask /* R3=Current PRIMASK setting */ - stmdb r1!, {r2-r11} /* Save the remaining registers plus the SP value */ - - /* Disable interrupts, select the stack to use for interrupt handling - * and call up_doirq to handle the interrupt - */ - - cpsid i /* Disable further interrupts */ - - /* If CONFIG_ARCH_INTERRUPTSTACK is defined, we will use a special interrupt - * stack pointer. The way that this is done here prohibits nested interrupts! - * Otherwise, we will re-use the main stack for interrupt level processing. - */ - -#if CONFIG_ARCH_INTERRUPTSTACK > 3 - ldr sp, =g_intstackbase - str r1, [sp, #-4]! /* Save the MSP on the interrupt stack */ - bl up_doirq /* R0=IRQ, R1=register save (msp) */ - ldr r1, [sp, #+4]! /* Recover R1=main stack pointer */ -#else - mov sp, r1 /* We are using the main stack pointer */ - bl up_doirq /* R0=IRQ, R1=register save (msp) */ - mov r1, sp /* Recover R1=main stack pointer */ -#endif - - /* On return from up_doirq, R0 will hold a pointer to register context - * array to use for the interrupt return. If that return value is the same - * as current stack pointer, then things are relatively easy. - */ - - cmp r0, r1 /* Context switch? */ - beq 1f /* Branch if no context switch */ - - /* We are returning with a pending context switch. This case is different - * because in this case, the register save structure does not lie on the - * stack but, rather, are within a TCB structure. We'll have to copy some - * values to the stack. - */ - - add r1, r0, #SW_XCPT_SIZE /* R1=Address of HW save area in reg array */ - ldmia r1, {r4-r11} /* Fetch eight registers in HW save area */ - ldr r1, [r0, #(4*REG_SP)] /* R1=Value of SP before interrupt */ - stmdb r1!, {r4-r11} /* Store eight registers in HW save area */ - ldmia r0, {r2-r11} /* Recover R4-R11 + 2 temp values */ - b 2f /* Re-join common logic */ - - /* We are returning with no context switch. We simply need to "unwind" - * the same stack frame that we created - */ -1: - ldmia r1!, {r2-r11} /* Recover R4-R11 + 2 temp values */ -2: - msr msp, r1 /* Recover the return MSP value */ - - /* Restore the interrupt state. Preload r14 with the special return - * value first (so that the return actually occurs with interrupts - * still disabled). - */ - - ldr r14, =EXC_RETURN /* Load the special value */ - msr primask, r3 /* Restore interrupts */ - - /* Always return with R14 containing the special value that will: (1) - * return to thread mode, and (2) continue to use the MSP - */ - - bx r14 /* And return */ - .size handlers, .-handlers - -/************************************************************************************************ - * Name: up_interruptstack/g_intstackbase - * - * Description: - * Shouldn't happen - * - ************************************************************************************************/ - -#if CONFIG_ARCH_INTERRUPTSTACK > 3 - .bss - .global g_intstackbase - .align 4 -up_interruptstack: - .skip (CONFIG_ARCH_INTERRUPTSTACK & ~3) -g_intstackbase: - .size up_interruptstack, .-up_interruptstack -#endif - -/************************************************************************************************ - * .rodata - ************************************************************************************************/ - - .section .rodata, "a" - -/* Variables: _sbss is the start of the BSS region (see ld.script) _ebss is the end - * of the BSS regsion (see ld.script). The idle task stack starts at the end of BSS - * and is of size CONFIG_IDLETHREAD_STACKSIZE. The IDLE thread is the thread that - * the system boots on and, eventually, becomes the idle, do nothing task that runs - * only when there is nothing else to run. The heap continues from there until the - * end of memory. See g_heapbase below. - */ - - .globl g_heapbase - .type g_heapbase, object -g_heapbase: - .word HEAP_BASE - .size g_heapbase, .-g_heapbase - - .end +/************************************************************************************************ + * arch/arm/src/lpc17xx/lpc17_vectors.S + * arch/arm/src/chip/lpc17_vectors.S + * + * Copyright (C) 2010-2011 Gregory Nutt. All rights reserved. + * Author: Gregory Nutt + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * + * 1. Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * 3. Neither the name NuttX nor the names of its contributors may be + * used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS + * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE + * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, + * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, + * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS + * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED + * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT + * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN + * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + * POSSIBILITY OF SUCH DAMAGE. + * + ************************************************************************************************/ + +/************************************************************************************************ + * Included Files + ************************************************************************************************/ + +#include +#include + +/************************************************************************************************ + * Preprocessor Definitions + ************************************************************************************************/ + +/* Memory Map: + * + * 0x0000:0000 - Beginning of FLASH. Address of vectors + * 0x0003:ffff - End of flash + * 0x1000:0000 - Start of CPU SRAM and start of .data (_sdata) + * - End of .data (_edata) and start of .bss (_sbss) + * - End of .bss (_ebss) and bottom of idle stack + * - _ebss + CONFIG_IDLETHREAD_STACKSIZE = end of idle stack, start of heap. NOTE + * that the ARM uses a decrement before store stack so that the correct initial + * value is the end of the stack + 4; + * 0x1000:7fff - End of CPU SRAM and end of heap (1st region) + */ + +#define IDLE_STACK (_ebss+CONFIG_IDLETHREAD_STACKSIZE) +#define HEAP_BASE (_ebss+CONFIG_IDLETHREAD_STACKSIZE) + +/* The Cortex-M3 return from interrupt is unusual. We provide the following special + * address to the BX instruction. The particular value also forces a return to + * thread mode and covers state from the main stack point, the MSP (vs. the MSP). + */ + +#define EXC_RETURN 0xfffffff9 + +/************************************************************************************************ + * Global Symbols + ************************************************************************************************/ + + .globl __start + + .syntax unified + .thumb + .file "lpc17_vectors.S" + +/************************************************************************************************ + * Macros + ************************************************************************************************/ + +/* On entry into an IRQ, the hardware automatically saves the xPSR, PC, LR, R12, R0-R3 + * registers on the stack, then branches to an instantantiation of the following + * macro. This macro simply loads the IRQ number into R0, then jumps to the common + * IRQ handling logic. + */ + + .macro HANDLER, label, irqno + .thumb_func +\label: + mov r0, #\irqno + b lpc17_common + .endm + +/************************************************************************************************ + * Vectors + ************************************************************************************************/ + + .section .vectors, "ax" + .code 16 + .align 2 + .globl lpc17_vectors + .type lpc17_vectors, function + +lpc17_vectors: + +/* Processor Exceptions */ + + .word IDLE_STACK /* Vector 0: Reset stack pointer */ + .word __start /* Vector 1: Reset vector */ + .word lpc17_nmi /* Vector 2: Non-Maskable Interrupt (NMI) */ + .word lpc17_hardfault /* Vector 3: Hard fault */ + .word lpc17_mpu /* Vector 4: Memory management (MPU) */ + .word lpc17_busfault /* Vector 5: Bus fault */ + .word lpc17_usagefault /* Vector 6: Usage fault */ + .word lpc17_reserved /* Vector 7: Reserved */ + .word lpc17_reserved /* Vector 8: Reserved */ + .word lpc17_reserved /* Vector 9: Reserved */ + .word lpc17_reserved /* Vector 10: Reserved */ + .word lpc17_svcall /* Vector 11: SVC call */ + .word lpc17_dbgmonitor /* Vector 12: Debug monitor */ + .word lpc17_reserved /* Vector 13: Reserved */ + .word lpc17_pendsv /* Vector 14: Pendable system service request */ + .word lpc17_systick /* Vector 15: System tick */ + +/* External Interrupts */ + + .word lpc17_wdt /* Vector 16+0: Watchdog timer */ + .word lpc17_tmr0 /* Vector 16+1: Timer 0 */ + .word lpc17_tmr1 /* Vector 16+2: Timer 1 */ + .word lpc17_tmr2 /* Vector 16+3: Timer 2 */ + .word lpc17_tmr3 /* Vector 16+4: Timer 3 */ + .word lpc17_uart0 /* Vector 16+5: UART 0 */ + .word lpc17_uart1 /* Vector 16+6: UART 1 */ + .word lpc17_uart2 /* Vector 16+7: UART 2 */ + .word lpc17_uart3 /* Vector 16+8: UART 3 */ + .word lpc17_pwm1 /* Vector 16+9: PWM */ + .word lpc17_i2c0 /* Vector 16+10: I2C 0 */ + .word lpc17_i2c1 /* Vector 16+11: I2C 1 */ + .word lpc17_i2c2 /* Vector 16+12: I2C 2 */ + .word lpc17_spif /* Vector 16+13: SPI */ + .word lpc17_ssp0 /* Vector 16+14: SSP 0 */ + .word lpc17_ssp1 /* Vector 16+15: SSP 1 */ + .word lpc17_pll0 /* Vector 16+16: PLL 0 */ + .word lpc17_rtc /* Vector 16+17: Real time clock */ + .word lpc17_eint0 /* Vector 16+18: External interrupt 0 */ + .word lpc17_eint1 /* Vector 16+19: External interrupt 1 */ + .word lpc17_eint2 /* Vector 16+20: External interrupt 2 */ + .word lpc17_eint3 /* Vector 16+21: External interrupt 3 */ + .word lpc17_adc /* Vector 16+22: A/D Converter */ + .word lpc17_bod /* Vector 16+23: Brown Out detect */ + .word lpc17_usb /* Vector 16+24: USB */ + .word lpc17_can /* Vector 16+25: CAN */ + .word lpc17_gpdma /* Vector 16+26: GPDMA */ + .word lpc17_i2s /* Vector 16+27: I2S */ + .word lpc17_eth /* Vector 16+28: Ethernet */ + .word lpc17_ritint /* Vector 16+29: Repetitive Interrupt Timer */ + .word lpc17_mcpwm /* Vector 16+30: Motor Control PWM */ + .word lpc17_qei /* Vector 16+31: Quadrature Encoder */ + .word lpc17_pll1 /* Vector 16+32: PLL 1 */ + .word lpc17_usbact /* Vector 16+33: USB Activity Interrupt */ + .word lpc17_canact /* Vector 16+34: CAN Activity Interrupt */ + .size lpc17_vectors, .-lpc17_vectors + +/************************************************************************************************ + * .text + ************************************************************************************************/ + + .text + .type handlers, function + .thumb_func +handlers: + HANDLER lpc17_reserved, LPC17_IRQ_RESERVED /* Unexpected/reserved vector */ + HANDLER lpc17_nmi, LPC17_IRQ_NMI /* Vector 2: Non-Maskable Interrupt (NMI) */ + HANDLER lpc17_hardfault, LPC17_IRQ_HARDFAULT /* Vector 3: Hard fault */ + HANDLER lpc17_mpu, LPC17_IRQ_MEMFAULT /* Vector 4: Memory management (MPU) */ + HANDLER lpc17_busfault, LPC17_IRQ_BUSFAULT /* Vector 5: Bus fault */ + HANDLER lpc17_usagefault, LPC17_IRQ_USAGEFAULT /* Vector 6: Usage fault */ + HANDLER lpc17_svcall, LPC17_IRQ_SVCALL /* Vector 11: SVC call */ + HANDLER lpc17_dbgmonitor, LPC17_IRQ_DBGMONITOR /* Vector 12: Debug Monitor */ + HANDLER lpc17_pendsv, LPC17_IRQ_PENDSV /* Vector 14: Penable system service request */ + HANDLER lpc17_systick, LPC17_IRQ_SYSTICK /* Vector 15: System tick */ + + HANDLER lpc17_wdt, LPC17_IRQ_WDT /* Vector 16+0: Watchdog timer */ + HANDLER lpc17_tmr0, LPC17_IRQ_TMR0 /* Vector 16+1: Timer 0 */ + HANDLER lpc17_tmr1, LPC17_IRQ_TMR1 /* Vector 16+2: Timer 1 */ + HANDLER lpc17_tmr2, LPC17_IRQ_TMR2 /* Vector 16+3: Timer 2 */ + HANDLER lpc17_tmr3, LPC17_IRQ_TMR3 /* Vector 16+4: Timer 3 */ + HANDLER lpc17_uart0, LPC17_IRQ_UART0 /* Vector 16+5: UART 0 */ + HANDLER lpc17_uart1, LPC17_IRQ_UART1 /* Vector 16+6: UART 1 */ + HANDLER lpc17_uart2, LPC17_IRQ_UART2 /* Vector 16+7: UART 2 */ + HANDLER lpc17_uart3, LPC17_IRQ_UART3 /* Vector 16+8: UART 3 */ + HANDLER lpc17_pwm1, LPC17_IRQ_PWM1 /* Vector 16+9: PWM 1 */ + HANDLER lpc17_i2c0, LPC17_IRQ_I2C0 /* Vector 16+10: I2C 0 */ + HANDLER lpc17_i2c1, LPC17_IRQ_I2C1 /* Vector 16+11: I2C 1 */ + HANDLER lpc17_i2c2, LPC17_IRQ_I2C2 /* Vector 16+12: I2C 2 */ + HANDLER lpc17_spif, LPC17_IRQ_SPIF /* Vector 16+13: SPI */ + HANDLER lpc17_ssp0, LPC17_IRQ_SSP0 /* Vector 16+14: SSP 0 */ + HANDLER lpc17_ssp1, LPC17_IRQ_SSP1 /* Vector 16+15: SSP 1 */ + HANDLER lpc17_pll0, LPC17_IRQ_PLL0 /* Vector 16+16: PLL 0 */ + HANDLER lpc17_rtc, LPC17_IRQ_RTC /* Vector 16+17: Real time clock */ + HANDLER lpc17_eint0, LPC17_IRQ_EINT0 /* Vector 16+18: External interrupt 0 */ + HANDLER lpc17_eint1, LPC17_IRQ_EINT1 /* Vector 16+19: External interrupt 1 */ + HANDLER lpc17_eint2, LPC17_IRQ_EINT2 /* Vector 16+20: External interrupt 2 */ + HANDLER lpc17_eint3, LPC17_IRQ_EINT3 /* Vector 16+21: External interrupt 3 */ + HANDLER lpc17_adc, LPC17_IRQ_ADC /* Vector 16+22: A/D Converter */ + HANDLER lpc17_bod, LPC17_IRQ_BOD /* Vector 16+23: Brown Out detect */ + HANDLER lpc17_usb, LPC17_IRQ_USB /* Vector 16+24: USB */ + HANDLER lpc17_can, LPC17_IRQ_CAN /* Vector 16+25: CAN */ + HANDLER lpc17_gpdma, LPC17_IRQ_GPDMA /* Vector 16+26: GPDMA */ + HANDLER lpc17_i2s, LPC17_IRQ_I2S /* Vector 16+27: I2S */ + HANDLER lpc17_eth, LPC17_IRQ_ETH /* Vector 16+28: Ethernet */ + HANDLER lpc17_ritint, LPC17_IRQ_RITINT /* Vector 16+29: Repetitive Interrupt Timer */ + HANDLER lpc17_mcpwm, LPC17_IRQ_MCPWM /* Vector 16+30: Motor Control PWM */ + HANDLER lpc17_qei, LPC17_IRQ_QEI /* Vector 16+31: Quadrature Encoder */ + HANDLER lpc17_pll1, LPC17_IRQ_PLL1 /* Vector 16+32: PLL 1 */ + HANDLER lpc17_usbact, LPC17_IRQ_USBACT /* Vector 16+33: USB Activity Interrupt */ + HANDLER lpc17_canact, LPC17_IRQ_CANACT /* Vector 16+34: CAN Activity Interrupt */ + +/* Common IRQ handling logic. On entry here, the stack is like the following: + * + * REG_XPSR + * REG_R15 + * REG_R14 + * REG_R12 + * REG_R3 + * REG_R2 + * REG_R1 + * MSP->REG_R0 + * + * and R0 contains the IRQ number + */ + +lpc17_common: + + /* Complete the context save */ + + mrs r1, msp /* R1=The main stack pointer */ + mov r2, r1 /* R2=Copy of the main stack pointer */ + add r2, #HW_XCPT_SIZE /* R2=MSP before the interrupt was taken */ + mrs r3, primask /* R3=Current PRIMASK setting */ + stmdb r1!, {r2-r11} /* Save the remaining registers plus the SP value */ + + /* Disable interrupts, select the stack to use for interrupt handling + * and call up_doirq to handle the interrupt + */ + + cpsid i /* Disable further interrupts */ + + /* If CONFIG_ARCH_INTERRUPTSTACK is defined, we will use a special interrupt + * stack pointer. The way that this is done here prohibits nested interrupts! + * Otherwise, we will re-use the main stack for interrupt level processing. + */ + +#if CONFIG_ARCH_INTERRUPTSTACK > 3 + ldr sp, =g_intstackbase + str r1, [sp, #-4]! /* Save the MSP on the interrupt stack */ + bl up_doirq /* R0=IRQ, R1=register save (msp) */ + ldr r1, [sp, #+4]! /* Recover R1=main stack pointer */ +#else + mov sp, r1 /* We are using the main stack pointer */ + bl up_doirq /* R0=IRQ, R1=register save (msp) */ + mov r1, sp /* Recover R1=main stack pointer */ +#endif + + /* On return from up_doirq, R0 will hold a pointer to register context + * array to use for the interrupt return. If that return value is the same + * as current stack pointer, then things are relatively easy. + */ + + cmp r0, r1 /* Context switch? */ + beq 1f /* Branch if no context switch */ + + /* We are returning with a pending context switch. This case is different + * because in this case, the register save structure does not lie on the + * stack but, rather, are within a TCB structure. We'll have to copy some + * values to the stack. + */ + + add r1, r0, #SW_XCPT_SIZE /* R1=Address of HW save area in reg array */ + ldmia r1, {r4-r11} /* Fetch eight registers in HW save area */ + ldr r1, [r0, #(4*REG_SP)] /* R1=Value of SP before interrupt */ + stmdb r1!, {r4-r11} /* Store eight registers in HW save area */ + ldmia r0, {r2-r11} /* Recover R4-R11 + 2 temp values */ + b 2f /* Re-join common logic */ + + /* We are returning with no context switch. We simply need to "unwind" + * the same stack frame that we created + */ +1: + ldmia r1!, {r2-r11} /* Recover R4-R11 + 2 temp values */ +2: + msr msp, r1 /* Recover the return MSP value */ + + /* Restore the interrupt state. Preload r14 with the special return + * value first (so that the return actually occurs with interrupts + * still disabled). + */ + + ldr r14, =EXC_RETURN /* Load the special value */ + msr primask, r3 /* Restore interrupts */ + + /* Always return with R14 containing the special value that will: (1) + * return to thread mode, and (2) continue to use the MSP + */ + + bx r14 /* And return */ + .size handlers, .-handlers + +/************************************************************************************************ + * Name: up_interruptstack/g_intstackbase + * + * Description: + * Shouldn't happen + * + ************************************************************************************************/ + +#if CONFIG_ARCH_INTERRUPTSTACK > 3 + .bss + .global g_intstackbase + .align 4 +up_interruptstack: + .skip (CONFIG_ARCH_INTERRUPTSTACK & ~3) +g_intstackbase: + .size up_interruptstack, .-up_interruptstack +#endif + +/************************************************************************************************ + * .rodata + ************************************************************************************************/ + + .section .rodata, "a" + +/* Variables: _sbss is the start of the BSS region (see ld.script) _ebss is the end + * of the BSS regsion (see ld.script). The idle task stack starts at the end of BSS + * and is of size CONFIG_IDLETHREAD_STACKSIZE. The IDLE thread is the thread that + * the system boots on and, eventually, becomes the idle, do nothing task that runs + * only when there is nothing else to run. The heap continues from there until the + * end of memory. See g_heapbase below. + */ + + .globl g_heapbase + .type g_heapbase, object +g_heapbase: + .word HEAP_BASE + .size g_heapbase, .-g_heapbase + + .end diff --git a/arch/arm/src/sam3u/Make.defs b/arch/arm/src/sam3u/Make.defs index 44d618913c..9da2eadb5c 100755 --- a/arch/arm/src/sam3u/Make.defs +++ b/arch/arm/src/sam3u/Make.defs @@ -42,7 +42,7 @@ HEAD_ASRC = sam3u_vectors.S CMN_ASRCS = up_saveusercontext.S up_fullcontextrestore.S up_switchcontext.S CMN_CSRCS = up_assert.c up_blocktask.c up_copystate.c up_createstack.c \ up_mdelay.c up_udelay.c up_exit.c up_idle.c up_initialize.c \ - up_initialstate.c up_interruptcontext.c up_modifyreg8.c \ + up_initialstate.c up_interruptcontext.c up_memfault.c up_modifyreg8.c \ up_modifyreg16.c up_modifyreg32.c up_releasepending.c \ up_releasestack.c up_reprioritizertr.c up_schedulesigaction.c \ up_sigdeliver.c up_unblocktask.c up_usestack.c up_doirq.c \ diff --git a/arch/arm/src/sam3u/sam3u_irq.c b/arch/arm/src/sam3u/sam3u_irq.c index 6ab7d25511..1d19c126ec 100755 --- a/arch/arm/src/sam3u/sam3u_irq.c +++ b/arch/arm/src/sam3u/sam3u_irq.c @@ -2,7 +2,7 @@ * arch/arm/src/sam3u/sam3u_irq.c * arch/arm/src/chip/sam3u_irq.c * - * Copyright (C) 2009 Gregory Nutt. All rights reserved. + * Copyright (C) 2009, 2011 Gregory Nutt. All rights reserved. * Author: Gregory Nutt * * Redistribution and use in source and binary forms, with or without @@ -124,7 +124,7 @@ static void sam3u_dumpnvic(const char *msg, int irq) #endif /**************************************************************************** - * Name: sam3u_nmi, sam3u_mpu, sam3u_busfault, sam3u_usagefault, sam3u_pendsv, + * Name: sam3u_nmi, sam3u_busfault, sam3u_usagefault, sam3u_pendsv, * sam3u_dbgmonitor, sam3u_pendsv, sam3u_reserved * * Description: @@ -143,14 +143,6 @@ static int sam3u_nmi(int irq, FAR void *context) return 0; } -static int sam3u_mpu(int irq, FAR void *context) -{ - (void)irqsave(); - dbg("PANIC!!! MPU interrupt received\n"); - PANIC(OSERR_UNEXPECTEDISR); - return 0; -} - static int sam3u_busfault(int irq, FAR void *context) { (void)irqsave(); @@ -225,7 +217,7 @@ static int sam3u_irqinfo(int irq, uint32_t *regaddr, uint32_t *bit) else { *regaddr = NVIC_SYSHCON; - if (irq == SAM3U_IRQ_MPU) + if (irq == SAM3U_IRQ_MEMFAULT) { *bit = NVIC_SYSHCON_MEMFAULTENA; } @@ -305,11 +297,22 @@ void up_irqinitialize(void) /* up_prioritize_irq(SAM3U_IRQ_PENDSV, NVIC_SYSH_PRIORITY_MIN); */ #endif + /* If the MPU is enabled, then attach and enable the Memory Management + * Fault handler. + */ + +#ifdef CONFIG_CORTEXM3_MPU + irq_attach(SAM3U_IRQ_MEMFAULT, up_memfault); + up_enable_irq(SAM3U_IRQ_MEMFAULT); +#endif + /* Attach all other processor exceptions (except reset and sys tick) */ #ifdef CONFIG_DEBUG irq_attach(SAM3U_IRQ_NMI, sam3u_nmi); - irq_attach(SAM3U_IRQ_MPU, sam3u_mpu); +#ifndef CONFIG_CORTEXM3_MPU + irq_attach(SAM3U_IRQ_MEMFAULT, up_memfault); +#endif irq_attach(SAM3U_IRQ_BUSFAULT, sam3u_busfault); irq_attach(SAM3U_IRQ_USAGEFAULT, sam3u_usagefault); irq_attach(SAM3U_IRQ_PENDSV, sam3u_pendsv); @@ -439,7 +442,7 @@ int up_prioritize_irq(int irq, int priority) uint32_t regval; int shift; - DEBUGASSERT(irq >= SAM3U_IRQ_MPU && irq < SAM3U_IRQ_NIRQS && (unsigned)priority <= NVIC_SYSH_PRIORITY_MIN); + DEBUGASSERT(irq >= SAM3U_IRQ_MEMFAULT && irq < SAM3U_IRQ_NIRQS && (unsigned)priority <= NVIC_SYSH_PRIORITY_MIN); if (irq < SAM3U_IRQ_EXTINT) { diff --git a/arch/arm/src/sam3u/sam3u_vectors.S b/arch/arm/src/sam3u/sam3u_vectors.S index 4411cc5b55..d035932971 100755 --- a/arch/arm/src/sam3u/sam3u_vectors.S +++ b/arch/arm/src/sam3u/sam3u_vectors.S @@ -1,342 +1,342 @@ -/************************************************************************************************ - * arch/arm/src/sam3u/sam3u_vectors.S - * arch/arm/src/chip/sam3u_vectors.S - * - * Copyright (C) 2009-2010 Gregory Nutt. All rights reserved. - * Author: Gregory Nutt - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions - * are met: - * - * 1. Redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer. - * 2. Redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in - * the documentation and/or other materials provided with the - * distribution. - * 3. Neither the name NuttX nor the names of its contributors may be - * used to endorse or promote products derived from this software - * without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS - * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE - * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, - * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, - * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS - * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED - * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT - * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN - * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE - * POSSIBILITY OF SUCH DAMAGE. - * - ************************************************************************************************/ - -/************************************************************************************************ - * Included Files - ************************************************************************************************/ - -#include -#include - -/************************************************************************************************ - * Preprocessor Definitions - ************************************************************************************************/ - -/* Memory Map: - * - * 0x0800:0000 - Beginning of FLASH. Address of vectors. Mapped to address 0x0000:0000 at boot - * time. - * 0x0803:ffff - End of flash - * 0x2000:0000 - Start of SRAM and start of .data (_sdata) - * - End of .data (_edata) and start of .bss (_sbss) - * - End of .bss (_ebss) and bottom of idle stack - * - _ebss + CONFIG_IDLETHREAD_STACKSIZE = end of idle stack, start of heap. NOTE - * that the ARM uses a decrement before store stack so that the correct initial - * value is the end of the stack + 4; - * 0x2000:bfff - End of SRAM and end of heap - */ - -#define IDLE_STACK (_ebss+CONFIG_IDLETHREAD_STACKSIZE) -#define HEAP_BASE (_ebss+CONFIG_IDLETHREAD_STACKSIZE) - -/* The Cortex-M3 return from interrupt is unusual. We provide the following special - * address to the BX instruction. The particular value also forces a return to - * thread mode and covers state from the main stack point, the MSP (vs. the MSP). - */ - -#define EXC_RETURN 0xfffffff9 - -/************************************************************************************************ - * Global Symbols - ************************************************************************************************/ - - .globl __start - - .syntax unified - .thumb - .file "sam3u_vectors.S" - -/************************************************************************************************ - * Macros - ************************************************************************************************/ - -/* On entry into an IRQ, the hardware automatically saves the xPSR, PC, LR, R12, R0-R3 - * registers on the stack, then branches to an instantantiation of the following - * macro. This macro simply loads the IRQ number into R0, then jumps to the common - * IRQ handling logic. - */ - - .macro HANDLER, label, irqno - .thumb_func -\label: - mov r0, #\irqno - b sam3u_common - .endm - -/************************************************************************************************ - * Vectors - ************************************************************************************************/ - - .section .vectors, "ax" - .code 16 - .align 2 - .globl sam3u_vectors - .type sam3u_vectors, function - -sam3u_vectors: - -/* Processor Exceptions */ - - .word IDLE_STACK /* Vector 0: Reset stack pointer */ - .word __start /* Vector 1: Reset vector */ - .word sam3u_nmi /* Vector 2: Non-Maskable Interrupt (NMI) */ - .word sam3u_hardfault /* Vector 3: Hard fault */ - .word sam3u_mpu /* Vector 4: Memory management (MPU) */ - .word sam3u_busfault /* Vector 5: Bus fault */ - .word sam3u_usagefault /* Vector 6: Usage fault */ - .word sam3u_reserved /* Vector 7: Reserved */ - .word sam3u_reserved /* Vector 8: Reserved */ - .word sam3u_reserved /* Vector 9: Reserved */ - .word sam3u_reserved /* Vector 10: Reserved */ - .word sam3u_svcall /* Vector 11: SVC call */ - .word sam3u_dbgmonitor /* Vector 12: Debug monitor */ - .word sam3u_reserved /* Vector 13: Reserved */ - .word sam3u_pendsv /* Vector 14: Pendable system service request */ - .word sam3u_systick /* Vector 15: System tick */ - -/* External Interrupts */ - - .word sam3u_supc /* Vector 16+0: Supply Controller */ - .word sam3u_rstc /* Vector 16+1: Reset Controller */ - .word sam3u_rtc /* Vector 16+2: Real Time Clock */ - .word sam3u_rtt /* Vector 16+3: Real Time Timer */ - .word sam3u_wdt /* Vector 16+4: Watchdog Timer */ - .word sam3u_pmc /* Vector 16+5: Power Management Controller */ - .word sam3u_eefc0 /* Vector 16+6: Enhanced Embedded Flash Controller 0 */ - .word sam3u_eefc1 /* Vector 16+7: Enhanced Embedded Flash Controller 1 */ - .word sam3u_uart /* Vector 16+8: Universal Asynchronous Receiver Transmitter */ - .word sam3u_smc /* Vector 16+9: Static Memory Controller */ - .word sam3u_pioa /* Vector 16+10: Parallel I/O Controller A */ - .word sam3u_piob /* Vector 16+11: Parallel I/O Controller B */ - .word sam3u_pioc /* Vector 16+12: Parallel I/O Controller C */ - .word sam3u_usart0 /* Vector 16+13: USART 0 */ - .word sam3u_usart1 /* Vector 16+14: USART 1 */ - .word sam3u_usart2 /* Vector 16+15: USART 2 */ - .word sam3u_usart3 /* Vector 16+16: USART 3 */ - .word sam3u_hsmci /* Vector 16+17: High Speed Multimedia Card Interface */ - .word sam3u_twi0 /* Vector 16+18: Two-Wire Interface 0 */ - .word sam3u_twi1 /* Vector 16+19: Two-Wire Interface 1 */ - .word sam3u_spi /* Vector 16+20: Serial Peripheral Interface */ - .word sam3u_ssc /* Vector 16+21: Synchronous Serial Controller */ - .word sam3u_tc0 /* Vector 16+22: Timer Counter 0 */ - .word sam3u_tc1 /* Vector 16+23: Timer Counter 1 */ - .word sam3u_tc2 /* Vector 16+24: Timer Counter 2 */ - .word sam3u_pwm /* Vector 16+25: Pulse Width Modulation Controller */ - .word sam3u_adc12b /* Vector 16+26: 12-bit ADC Controller */ - .word sam3u_adc /* Vector 16+27: 10-bit ADC Controller */ - .word sam3u_dmac /* Vector 16+28: DMA Controller */ - .word sam3u_udphs /* Vector 16+29: USB Device High Speed */ - .size sam3u_vectors, .-sam3u_vectors - -/************************************************************************************************ - * .text - ************************************************************************************************/ - - .text - .type handlers, function - .thumb_func -handlers: - HANDLER sam3u_reserved, SAM3U_IRQ_RESERVED /* Unexpected/reserved vector */ - HANDLER sam3u_nmi, SAM3U_IRQ_NMI /* Vector 2: Non-Maskable Interrupt (NMI) */ - HANDLER sam3u_hardfault, SAM3U_IRQ_HARDFAULT /* Vector 3: Hard fault */ - HANDLER sam3u_mpu, SAM3U_IRQ_MPU /* Vector 4: Memory management (MPU) */ - HANDLER sam3u_busfault, SAM3U_IRQ_BUSFAULT /* Vector 5: Bus fault */ - HANDLER sam3u_usagefault, SAM3U_IRQ_USAGEFAULT /* Vector 6: Usage fault */ - HANDLER sam3u_svcall, SAM3U_IRQ_SVCALL /* Vector 11: SVC call */ - HANDLER sam3u_dbgmonitor, SAM3U_IRQ_DBGMONITOR /* Vector 12: Debug Monitor */ - HANDLER sam3u_pendsv, SAM3U_IRQ_PENDSV /* Vector 14: Penable system service request */ - HANDLER sam3u_systick, SAM3U_IRQ_SYSTICK /* Vector 15: System tick */ - - HANDLER sam3u_supc, SAM3U_IRQ_SUPC /* Vector 16+0: Supply Controller */ - HANDLER sam3u_rstc, SAM3U_IRQ_RSTC /* Vector 16+1: Reset Controller */ - HANDLER sam3u_rtc, SAM3U_IRQ_RTC /* Vector 16+2: Real Time Clock */ - HANDLER sam3u_rtt, SAM3U_IRQ_RTT /* Vector 16+3: Real Time Timer */ - HANDLER sam3u_wdt, SAM3U_IRQ_WDT /* Vector 16+4: Watchdog Timer */ - HANDLER sam3u_pmc, SAM3U_IRQ_PMC /* Vector 16+5: Power Management Controller */ - HANDLER sam3u_eefc0, SAM3U_IRQ_EEFC0 /* Vector 16+6: Enhanced Embedded Flash Controller 0 */ - HANDLER sam3u_eefc1, SAM3U_IRQ_EEFC1 /* Vector 16+7: Enhanced Embedded Flash Controller 1 */ - HANDLER sam3u_uart, SAM3U_IRQ_UART /* Vector 16+8: Universal Asynchronous Receiver Transmitter */ - HANDLER sam3u_smc, SAM3U_IRQ_SMC /* Vector 16+9: Static Memory Controller */ - HANDLER sam3u_pioa, SAM3U_IRQ_PIOA /* Vector 16+10: Parallel I/O Controller A */ - HANDLER sam3u_piob, SAM3U_IRQ_PIOB /* Vector 16+11: Parallel I/O Controller B */ - HANDLER sam3u_pioc, SAM3U_IRQ_PIOC /* Vector 16+12: Parallel I/O Controller C */ - HANDLER sam3u_usart0, SAM3U_IRQ_USART0 /* Vector 16+13: USART 0 */ - HANDLER sam3u_usart1, SAM3U_IRQ_USART1 /* Vector 16+14: USART 1 */ - HANDLER sam3u_usart2, SAM3U_IRQ_USART2 /* Vector 16+15: USART 2 */ - HANDLER sam3u_usart3, SAM3U_IRQ_USART3 /* Vector 16+16: USART 3 */ - HANDLER sam3u_hsmci, SAM3U_IRQ_HSMCI /* Vector 16+17: High Speed Multimedia Card Interface */ - HANDLER sam3u_twi0, SAM3U_IRQ_TWI0 /* Vector 16+18: Two-Wire Interface 0 */ - HANDLER sam3u_twi1, SAM3U_IRQ_TWI1 /* Vector 16+19: Two-Wire Interface 1 */ - HANDLER sam3u_spi, SAM3U_IRQ_SPI /* Vector 16+20: Serial Peripheral Interface */ - HANDLER sam3u_ssc, SAM3U_IRQ_SSC /* Vector 16+21: Synchronous Serial Controller */ - HANDLER sam3u_tc0, SAM3U_IRQ_TC0 /* Vector 16+22: Timer Counter 0 */ - HANDLER sam3u_tc1, SAM3U_IRQ_TC1 /* Vector 16+23: Timer Counter 1 */ - HANDLER sam3u_tc2, SAM3U_IRQ_TC2 /* Vector 16+24: Timer Counter 2 */ - HANDLER sam3u_pwm, SAM3U_IRQ_PWM /* Vector 16+25: Pulse Width Modulation Controller */ - HANDLER sam3u_adc12b, SAM3U_IRQ_ADC12B /* Vector 16+26: 12-bit ADC Controller */ - HANDLER sam3u_adc, SAM3U_IRQ_ADC /* Vector 16+27: 10-bit ADC Controller */ - HANDLER sam3u_dmac, SAM3U_IRQ_DMAC /* Vector 16+28: DMA Controller */ - HANDLER sam3u_udphs, SAM3U_IRQ_UDPHS /* Vector 16+29: USB Device High Speed */ - -/* Common IRQ handling logic. On entry here, the stack is like the following: - * - * REG_XPSR - * REG_R15 - * REG_R14 - * REG_R12 - * REG_R3 - * REG_R2 - * REG_R1 - * MSP->REG_R0 - * - * and R0 contains the IRQ number - */ - -sam3u_common: - - /* Complete the context save */ - - mrs r1, msp /* R1=The main stack pointer */ - mov r2, r1 /* R2=Copy of the main stack pointer */ - add r2, #HW_XCPT_SIZE /* R2=MSP before the interrupt was taken */ - mrs r3, primask /* R3=Current PRIMASK setting */ - stmdb r1!, {r2-r11} /* Save the remaining registers plus the SP value */ - - /* Disable interrupts, select the stack to use for interrupt handling - * and call up_doirq to handle the interrupt - */ - - cpsid i /* Disable further interrupts */ - - /* If CONFIG_ARCH_INTERRUPTSTACK is defined, we will use a special interrupt - * stack pointer. The way that this is done here prohibits nested interrupts! - * Otherwise, we will re-use the main stack for interrupt level processing. - */ - -#ifdef CONFIG_ARCH_INTERRUPTSTACK - ldr sp, =g_intstackbase - str r1, [sp, #-4]! /* Save the MSP on the interrupt stack */ - bl up_doirq /* R0=IRQ, R1=register save (msp) */ - ldr r1, [sp, #+4]! /* Recover R1=main stack pointer */ -#else - mov sp, r1 /* We are using the main stack pointer */ - bl up_doirq /* R0=IRQ, R1=register save (msp) */ - mov r1, sp /* Recover R1=main stack pointer */ -#endif - - /* On return from up_doirq, R0 will hold a pointer to register context - * array to use for the interrupt return. If that return value is the same - * as current stack pointer, then things are relatively easy. - */ - - cmp r0, r1 /* Context switch? */ - beq 1f /* Branch if no context switch */ - - /* We are returning with a pending context switch. This case is different - * because in this case, the register save structure does not lie on the - * stack but, rather, are within a TCB structure. We'll have to copy some - * values to the stack. - */ - - add r1, r0, #SW_XCPT_SIZE /* R1=Address of HW save area in reg array */ - ldmia r1, {r4-r11} /* Fetch eight registers in HW save area */ - ldr r1, [r0, #(4*REG_SP)] /* R1=Value of SP before interrupt */ - stmdb r1!, {r4-r11} /* Store eight registers in HW save area */ - ldmia r0, {r2-r11} /* Recover R4-R11 + 2 temp values */ - b 2f /* Re-join common logic */ - - /* We are returning with no context switch. We simply need to "unwind" - * the same stack frame that we created - */ -1: - ldmia r1!, {r2-r11} /* Recover R4-R11 + 2 temp values */ -2: - msr msp, r1 /* Recover the return MSP value */ - - /* Restore the interrupt state. Preload r14 with the special return - * value first (so that the return actually occurs with interrupts - * still disabled). - */ - - ldr r14, =EXC_RETURN /* Load the special value */ - msr primask, r3 /* Restore interrupts */ - - /* Always return with R14 containing the special value that will: (1) - * return to thread mode, and (2) continue to use the MSP - */ - - bx r14 /* And return */ - .size handlers, .-handlers - -/************************************************************************************************ - * Name: up_interruptstack/g_intstackbase - * - * Description: - * Shouldn't happen - * - ************************************************************************************************/ - -#if CONFIG_ARCH_INTERRUPTSTACK > 3 - .bss - .global g_intstackbase - .align 4 -up_interruptstack: - .skip (CONFIG_ARCH_INTERRUPTSTACK & ~3) -g_intstackbase: - .size up_interruptstack, .-up_interruptstack -#endif - -/************************************************************************************************ - * .rodata - ************************************************************************************************/ - - .section .rodata, "a" - -/* Variables: _sbss is the start of the BSS region (see ld.script) _ebss is the end - * of the BSS regsion (see ld.script). The idle task stack starts at the end of BSS - * and is of size CONFIG_IDLETHREAD_STACKSIZE. The IDLE thread is the thread that - * the system boots on and, eventually, becomes the idle, do nothing task that runs - * only when there is nothing else to run. The heap continues from there until the - * end of memory. See g_heapbase below. - */ - - .globl g_heapbase - .type g_heapbase, object -g_heapbase: - .word HEAP_BASE - .size g_heapbase, .-g_heapbase - - .end +/************************************************************************************************ + * arch/arm/src/sam3u/sam3u_vectors.S + * arch/arm/src/chip/sam3u_vectors.S + * + * Copyright (C) 2009-2010 Gregory Nutt. All rights reserved. + * Author: Gregory Nutt + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * + * 1. Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * 3. Neither the name NuttX nor the names of its contributors may be + * used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS + * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE + * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, + * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, + * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS + * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED + * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT + * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN + * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + * POSSIBILITY OF SUCH DAMAGE. + * + ************************************************************************************************/ + +/************************************************************************************************ + * Included Files + ************************************************************************************************/ + +#include +#include + +/************************************************************************************************ + * Preprocessor Definitions + ************************************************************************************************/ + +/* Memory Map: + * + * 0x0800:0000 - Beginning of FLASH. Address of vectors. Mapped to address 0x0000:0000 at boot + * time. + * 0x0803:ffff - End of flash + * 0x2000:0000 - Start of SRAM and start of .data (_sdata) + * - End of .data (_edata) and start of .bss (_sbss) + * - End of .bss (_ebss) and bottom of idle stack + * - _ebss + CONFIG_IDLETHREAD_STACKSIZE = end of idle stack, start of heap. NOTE + * that the ARM uses a decrement before store stack so that the correct initial + * value is the end of the stack + 4; + * 0x2000:bfff - End of SRAM and end of heap + */ + +#define IDLE_STACK (_ebss+CONFIG_IDLETHREAD_STACKSIZE) +#define HEAP_BASE (_ebss+CONFIG_IDLETHREAD_STACKSIZE) + +/* The Cortex-M3 return from interrupt is unusual. We provide the following special + * address to the BX instruction. The particular value also forces a return to + * thread mode and covers state from the main stack point, the MSP (vs. the MSP). + */ + +#define EXC_RETURN 0xfffffff9 + +/************************************************************************************************ + * Global Symbols + ************************************************************************************************/ + + .globl __start + + .syntax unified + .thumb + .file "sam3u_vectors.S" + +/************************************************************************************************ + * Macros + ************************************************************************************************/ + +/* On entry into an IRQ, the hardware automatically saves the xPSR, PC, LR, R12, R0-R3 + * registers on the stack, then branches to an instantantiation of the following + * macro. This macro simply loads the IRQ number into R0, then jumps to the common + * IRQ handling logic. + */ + + .macro HANDLER, label, irqno + .thumb_func +\label: + mov r0, #\irqno + b sam3u_common + .endm + +/************************************************************************************************ + * Vectors + ************************************************************************************************/ + + .section .vectors, "ax" + .code 16 + .align 2 + .globl sam3u_vectors + .type sam3u_vectors, function + +sam3u_vectors: + +/* Processor Exceptions */ + + .word IDLE_STACK /* Vector 0: Reset stack pointer */ + .word __start /* Vector 1: Reset vector */ + .word sam3u_nmi /* Vector 2: Non-Maskable Interrupt (NMI) */ + .word sam3u_hardfault /* Vector 3: Hard fault */ + .word sam3u_mpu /* Vector 4: Memory management (MPU) */ + .word sam3u_busfault /* Vector 5: Bus fault */ + .word sam3u_usagefault /* Vector 6: Usage fault */ + .word sam3u_reserved /* Vector 7: Reserved */ + .word sam3u_reserved /* Vector 8: Reserved */ + .word sam3u_reserved /* Vector 9: Reserved */ + .word sam3u_reserved /* Vector 10: Reserved */ + .word sam3u_svcall /* Vector 11: SVC call */ + .word sam3u_dbgmonitor /* Vector 12: Debug monitor */ + .word sam3u_reserved /* Vector 13: Reserved */ + .word sam3u_pendsv /* Vector 14: Pendable system service request */ + .word sam3u_systick /* Vector 15: System tick */ + +/* External Interrupts */ + + .word sam3u_supc /* Vector 16+0: Supply Controller */ + .word sam3u_rstc /* Vector 16+1: Reset Controller */ + .word sam3u_rtc /* Vector 16+2: Real Time Clock */ + .word sam3u_rtt /* Vector 16+3: Real Time Timer */ + .word sam3u_wdt /* Vector 16+4: Watchdog Timer */ + .word sam3u_pmc /* Vector 16+5: Power Management Controller */ + .word sam3u_eefc0 /* Vector 16+6: Enhanced Embedded Flash Controller 0 */ + .word sam3u_eefc1 /* Vector 16+7: Enhanced Embedded Flash Controller 1 */ + .word sam3u_uart /* Vector 16+8: Universal Asynchronous Receiver Transmitter */ + .word sam3u_smc /* Vector 16+9: Static Memory Controller */ + .word sam3u_pioa /* Vector 16+10: Parallel I/O Controller A */ + .word sam3u_piob /* Vector 16+11: Parallel I/O Controller B */ + .word sam3u_pioc /* Vector 16+12: Parallel I/O Controller C */ + .word sam3u_usart0 /* Vector 16+13: USART 0 */ + .word sam3u_usart1 /* Vector 16+14: USART 1 */ + .word sam3u_usart2 /* Vector 16+15: USART 2 */ + .word sam3u_usart3 /* Vector 16+16: USART 3 */ + .word sam3u_hsmci /* Vector 16+17: High Speed Multimedia Card Interface */ + .word sam3u_twi0 /* Vector 16+18: Two-Wire Interface 0 */ + .word sam3u_twi1 /* Vector 16+19: Two-Wire Interface 1 */ + .word sam3u_spi /* Vector 16+20: Serial Peripheral Interface */ + .word sam3u_ssc /* Vector 16+21: Synchronous Serial Controller */ + .word sam3u_tc0 /* Vector 16+22: Timer Counter 0 */ + .word sam3u_tc1 /* Vector 16+23: Timer Counter 1 */ + .word sam3u_tc2 /* Vector 16+24: Timer Counter 2 */ + .word sam3u_pwm /* Vector 16+25: Pulse Width Modulation Controller */ + .word sam3u_adc12b /* Vector 16+26: 12-bit ADC Controller */ + .word sam3u_adc /* Vector 16+27: 10-bit ADC Controller */ + .word sam3u_dmac /* Vector 16+28: DMA Controller */ + .word sam3u_udphs /* Vector 16+29: USB Device High Speed */ + .size sam3u_vectors, .-sam3u_vectors + +/************************************************************************************************ + * .text + ************************************************************************************************/ + + .text + .type handlers, function + .thumb_func +handlers: + HANDLER sam3u_reserved, SAM3U_IRQ_RESERVED /* Unexpected/reserved vector */ + HANDLER sam3u_nmi, SAM3U_IRQ_NMI /* Vector 2: Non-Maskable Interrupt (NMI) */ + HANDLER sam3u_hardfault, SAM3U_IRQ_HARDFAULT /* Vector 3: Hard fault */ + HANDLER sam3u_mpu, SAM3U_IRQ_MEMFAULT /* Vector 4: Memory management (MPU) */ + HANDLER sam3u_busfault, SAM3U_IRQ_BUSFAULT /* Vector 5: Bus fault */ + HANDLER sam3u_usagefault, SAM3U_IRQ_USAGEFAULT /* Vector 6: Usage fault */ + HANDLER sam3u_svcall, SAM3U_IRQ_SVCALL /* Vector 11: SVC call */ + HANDLER sam3u_dbgmonitor, SAM3U_IRQ_DBGMONITOR /* Vector 12: Debug Monitor */ + HANDLER sam3u_pendsv, SAM3U_IRQ_PENDSV /* Vector 14: Penable system service request */ + HANDLER sam3u_systick, SAM3U_IRQ_SYSTICK /* Vector 15: System tick */ + + HANDLER sam3u_supc, SAM3U_IRQ_SUPC /* Vector 16+0: Supply Controller */ + HANDLER sam3u_rstc, SAM3U_IRQ_RSTC /* Vector 16+1: Reset Controller */ + HANDLER sam3u_rtc, SAM3U_IRQ_RTC /* Vector 16+2: Real Time Clock */ + HANDLER sam3u_rtt, SAM3U_IRQ_RTT /* Vector 16+3: Real Time Timer */ + HANDLER sam3u_wdt, SAM3U_IRQ_WDT /* Vector 16+4: Watchdog Timer */ + HANDLER sam3u_pmc, SAM3U_IRQ_PMC /* Vector 16+5: Power Management Controller */ + HANDLER sam3u_eefc0, SAM3U_IRQ_EEFC0 /* Vector 16+6: Enhanced Embedded Flash Controller 0 */ + HANDLER sam3u_eefc1, SAM3U_IRQ_EEFC1 /* Vector 16+7: Enhanced Embedded Flash Controller 1 */ + HANDLER sam3u_uart, SAM3U_IRQ_UART /* Vector 16+8: Universal Asynchronous Receiver Transmitter */ + HANDLER sam3u_smc, SAM3U_IRQ_SMC /* Vector 16+9: Static Memory Controller */ + HANDLER sam3u_pioa, SAM3U_IRQ_PIOA /* Vector 16+10: Parallel I/O Controller A */ + HANDLER sam3u_piob, SAM3U_IRQ_PIOB /* Vector 16+11: Parallel I/O Controller B */ + HANDLER sam3u_pioc, SAM3U_IRQ_PIOC /* Vector 16+12: Parallel I/O Controller C */ + HANDLER sam3u_usart0, SAM3U_IRQ_USART0 /* Vector 16+13: USART 0 */ + HANDLER sam3u_usart1, SAM3U_IRQ_USART1 /* Vector 16+14: USART 1 */ + HANDLER sam3u_usart2, SAM3U_IRQ_USART2 /* Vector 16+15: USART 2 */ + HANDLER sam3u_usart3, SAM3U_IRQ_USART3 /* Vector 16+16: USART 3 */ + HANDLER sam3u_hsmci, SAM3U_IRQ_HSMCI /* Vector 16+17: High Speed Multimedia Card Interface */ + HANDLER sam3u_twi0, SAM3U_IRQ_TWI0 /* Vector 16+18: Two-Wire Interface 0 */ + HANDLER sam3u_twi1, SAM3U_IRQ_TWI1 /* Vector 16+19: Two-Wire Interface 1 */ + HANDLER sam3u_spi, SAM3U_IRQ_SPI /* Vector 16+20: Serial Peripheral Interface */ + HANDLER sam3u_ssc, SAM3U_IRQ_SSC /* Vector 16+21: Synchronous Serial Controller */ + HANDLER sam3u_tc0, SAM3U_IRQ_TC0 /* Vector 16+22: Timer Counter 0 */ + HANDLER sam3u_tc1, SAM3U_IRQ_TC1 /* Vector 16+23: Timer Counter 1 */ + HANDLER sam3u_tc2, SAM3U_IRQ_TC2 /* Vector 16+24: Timer Counter 2 */ + HANDLER sam3u_pwm, SAM3U_IRQ_PWM /* Vector 16+25: Pulse Width Modulation Controller */ + HANDLER sam3u_adc12b, SAM3U_IRQ_ADC12B /* Vector 16+26: 12-bit ADC Controller */ + HANDLER sam3u_adc, SAM3U_IRQ_ADC /* Vector 16+27: 10-bit ADC Controller */ + HANDLER sam3u_dmac, SAM3U_IRQ_DMAC /* Vector 16+28: DMA Controller */ + HANDLER sam3u_udphs, SAM3U_IRQ_UDPHS /* Vector 16+29: USB Device High Speed */ + +/* Common IRQ handling logic. On entry here, the stack is like the following: + * + * REG_XPSR + * REG_R15 + * REG_R14 + * REG_R12 + * REG_R3 + * REG_R2 + * REG_R1 + * MSP->REG_R0 + * + * and R0 contains the IRQ number + */ + +sam3u_common: + + /* Complete the context save */ + + mrs r1, msp /* R1=The main stack pointer */ + mov r2, r1 /* R2=Copy of the main stack pointer */ + add r2, #HW_XCPT_SIZE /* R2=MSP before the interrupt was taken */ + mrs r3, primask /* R3=Current PRIMASK setting */ + stmdb r1!, {r2-r11} /* Save the remaining registers plus the SP value */ + + /* Disable interrupts, select the stack to use for interrupt handling + * and call up_doirq to handle the interrupt + */ + + cpsid i /* Disable further interrupts */ + + /* If CONFIG_ARCH_INTERRUPTSTACK is defined, we will use a special interrupt + * stack pointer. The way that this is done here prohibits nested interrupts! + * Otherwise, we will re-use the main stack for interrupt level processing. + */ + +#ifdef CONFIG_ARCH_INTERRUPTSTACK + ldr sp, =g_intstackbase + str r1, [sp, #-4]! /* Save the MSP on the interrupt stack */ + bl up_doirq /* R0=IRQ, R1=register save (msp) */ + ldr r1, [sp, #+4]! /* Recover R1=main stack pointer */ +#else + mov sp, r1 /* We are using the main stack pointer */ + bl up_doirq /* R0=IRQ, R1=register save (msp) */ + mov r1, sp /* Recover R1=main stack pointer */ +#endif + + /* On return from up_doirq, R0 will hold a pointer to register context + * array to use for the interrupt return. If that return value is the same + * as current stack pointer, then things are relatively easy. + */ + + cmp r0, r1 /* Context switch? */ + beq 1f /* Branch if no context switch */ + + /* We are returning with a pending context switch. This case is different + * because in this case, the register save structure does not lie on the + * stack but, rather, are within a TCB structure. We'll have to copy some + * values to the stack. + */ + + add r1, r0, #SW_XCPT_SIZE /* R1=Address of HW save area in reg array */ + ldmia r1, {r4-r11} /* Fetch eight registers in HW save area */ + ldr r1, [r0, #(4*REG_SP)] /* R1=Value of SP before interrupt */ + stmdb r1!, {r4-r11} /* Store eight registers in HW save area */ + ldmia r0, {r2-r11} /* Recover R4-R11 + 2 temp values */ + b 2f /* Re-join common logic */ + + /* We are returning with no context switch. We simply need to "unwind" + * the same stack frame that we created + */ +1: + ldmia r1!, {r2-r11} /* Recover R4-R11 + 2 temp values */ +2: + msr msp, r1 /* Recover the return MSP value */ + + /* Restore the interrupt state. Preload r14 with the special return + * value first (so that the return actually occurs with interrupts + * still disabled). + */ + + ldr r14, =EXC_RETURN /* Load the special value */ + msr primask, r3 /* Restore interrupts */ + + /* Always return with R14 containing the special value that will: (1) + * return to thread mode, and (2) continue to use the MSP + */ + + bx r14 /* And return */ + .size handlers, .-handlers + +/************************************************************************************************ + * Name: up_interruptstack/g_intstackbase + * + * Description: + * Shouldn't happen + * + ************************************************************************************************/ + +#if CONFIG_ARCH_INTERRUPTSTACK > 3 + .bss + .global g_intstackbase + .align 4 +up_interruptstack: + .skip (CONFIG_ARCH_INTERRUPTSTACK & ~3) +g_intstackbase: + .size up_interruptstack, .-up_interruptstack +#endif + +/************************************************************************************************ + * .rodata + ************************************************************************************************/ + + .section .rodata, "a" + +/* Variables: _sbss is the start of the BSS region (see ld.script) _ebss is the end + * of the BSS regsion (see ld.script). The idle task stack starts at the end of BSS + * and is of size CONFIG_IDLETHREAD_STACKSIZE. The IDLE thread is the thread that + * the system boots on and, eventually, becomes the idle, do nothing task that runs + * only when there is nothing else to run. The heap continues from there until the + * end of memory. See g_heapbase below. + */ + + .globl g_heapbase + .type g_heapbase, object +g_heapbase: + .word HEAP_BASE + .size g_heapbase, .-g_heapbase + + .end diff --git a/arch/arm/src/stm32/Make.defs b/arch/arm/src/stm32/Make.defs index be772f1791..9dd63950d2 100755 --- a/arch/arm/src/stm32/Make.defs +++ b/arch/arm/src/stm32/Make.defs @@ -39,7 +39,7 @@ CMN_ASRCS = up_saveusercontext.S up_fullcontextrestore.S up_switchcontext.S CMN_CSRCS = up_allocateheap.c up_assert.c up_blocktask.c up_copystate.c \ up_createstack.c up_mdelay.c up_udelay.c up_exit.c \ up_initialize.c up_initialstate.c up_interruptcontext.c \ - up_modifyreg8.c up_modifyreg16.c up_modifyreg32.c \ + up_memfault.c up_modifyreg8.c up_modifyreg16.c up_modifyreg32.c \ up_releasepending.c up_releasestack.c up_reprioritizertr.c \ up_schedulesigaction.c up_sigdeliver.c up_unblocktask.c \ up_usestack.c up_doirq.c up_hardfault.c up_svcall.c diff --git a/arch/arm/src/stm32/stm32_irq.c b/arch/arm/src/stm32/stm32_irq.c index 0c43723e7d..7f963a1170 100644 --- a/arch/arm/src/stm32/stm32_irq.c +++ b/arch/arm/src/stm32/stm32_irq.c @@ -2,7 +2,7 @@ * arch/arm/src/stm32/stm32_irq.c * arch/arm/src/chip/stm32_irq.c * - * Copyright (C) 2009-2010 Gregory Nutt. All rights reserved. + * Copyright (C) 2009-2011 Gregory Nutt. All rights reserved. * Author: Gregory Nutt * * Redistribution and use in source and binary forms, with or without @@ -134,7 +134,7 @@ static void stm32_dumpnvic(const char *msg, int irq) #endif /**************************************************************************** - * Name: stm32_nmi, stm32_mpu, stm32_busfault, stm32_usagefault, stm32_pendsv, + * Name: stm32_nmi, stm32_busfault, stm32_usagefault, stm32_pendsv, * stm32_dbgmonitor, stm32_pendsv, stm32_reserved * * Description: @@ -153,14 +153,6 @@ static int stm32_nmi(int irq, FAR void *context) return 0; } -static int stm32_mpu(int irq, FAR void *context) -{ - (void)irqsave(); - dbg("PANIC!!! MPU interrupt received\n"); - PANIC(OSERR_UNEXPECTEDISR); - return 0; -} - static int stm32_busfault(int irq, FAR void *context) { (void)irqsave(); @@ -245,7 +237,7 @@ static int stm32_irqinfo(int irq, uint32_t *regaddr, uint32_t *bit) else { *regaddr = NVIC_SYSHCON; - if (irq == STM32_IRQ_MPU) + if (irq == STM32_IRQ_MEMFAULT) { *bit = NVIC_SYSHCON_MEMFAULTENA; } @@ -339,11 +331,22 @@ void up_irqinitialize(void) /* up_prioritize_irq(STM32_IRQ_PENDSV, NVIC_SYSH_PRIORITY_MIN); */ #endif + /* If the MPU is enabled, then attach and enable the Memory Management + * Fault handler. + */ + +#ifdef CONFIG_CORTEXM3_MPU + irq_attach(STM32_IRQ_MEMFAULT, up_memfault); + up_enable_irq(STM32_IRQ_MEMFAULT); +#endif + /* Attach all other processor exceptions (except reset and sys tick) */ #ifdef CONFIG_DEBUG irq_attach(STM32_IRQ_NMI, stm32_nmi); - irq_attach(STM32_IRQ_MPU, stm32_mpu); +#ifndef CONFIG_CORTEXM3_MPU + irq_attach(STM32_IRQ_MEMFAULT, up_memfault); +#endif irq_attach(STM32_IRQ_BUSFAULT, stm32_busfault); irq_attach(STM32_IRQ_USAGEFAULT, stm32_usagefault); irq_attach(STM32_IRQ_PENDSV, stm32_pendsv); @@ -449,7 +452,7 @@ int up_prioritize_irq(int irq, int priority) uint32_t regval; int shift; - DEBUGASSERT(irq >= STM32_IRQ_MPU && irq < NR_IRQS && (unsigned)priority <= NVIC_SYSH_PRIORITY_MIN); + DEBUGASSERT(irq >= STM32_IRQ_MEMFAULT && irq < NR_IRQS && (unsigned)priority <= NVIC_SYSH_PRIORITY_MIN); if (irq < STM32_IRQ_INTERRUPTS) { diff --git a/arch/arm/src/stm32/stm32_vectors.S b/arch/arm/src/stm32/stm32_vectors.S index e0055962ef..987982dec0 100644 --- a/arch/arm/src/stm32/stm32_vectors.S +++ b/arch/arm/src/stm32/stm32_vectors.S @@ -1,534 +1,535 @@ -/************************************************************************************ - * arch/arm/src/stm32/stm32_vectors.S - * arch/arm/src/chip/stm32_vectors.S - * - * Copyright (C) 2009-2010 Gregory Nutt. All rights reserved. - * Author: Gregory Nutt - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions - * are met: - * - * 1. Redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer. - * 2. Redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in - * the documentation and/or other materials provided with the - * distribution. - * 3. Neither the name NuttX nor the names of its contributors may be - * used to endorse or promote products derived from this software - * without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS - * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE - * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, - * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, - * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS - * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED - * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT - * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN - * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE - * POSSIBILITY OF SUCH DAMAGE. - * - ************************************************************************************/ - -/************************************************************************************ - * Included Files - ************************************************************************************/ - -#include -#include - -/************************************************************************************ - * Preprocessor Definitions - ************************************************************************************/ - -/* Memory Map: - * - * 0x0800:0000 - Beginning of FLASH. Address of vectors (if not using bootloader) - * Mapped to address 0x0000:0000 at boot time. - * 0x0800:3000 - Address of vectors if using bootloader - * 0x0803:ffff - End of flash - * 0x2000:0000 - Start of SRAM and start of .data (_sdata) - * - End of .data (_edata) abd start of .bss (_sbss) - * - End of .bss (_ebss) and bottom of idle stack - * - _ebss + CONFIG_IDLETHREAD_STACKSIZE = end of idle stack, start of heap - * 0x2000:ffff - End of SRAM and end of heap - */ - -#define IDLE_STACK (_ebss+CONFIG_IDLETHREAD_STACKSIZE-4) -#define HEAP_BASE (_ebss+CONFIG_IDLETHREAD_STACKSIZE-4) - -/* The Cortex-M3 return from interrupt is unusual. We provide the following special - * address to the BX instruction. The particular value also forces a return to - * thread mode and covers state from the main stack point, the MSP (vs. the MSP). - */ - -#define EXC_RETURN 0xfffffff9 - -/************************************************************************************ - * Global Symbols - ************************************************************************************/ - - .globl __start - - .syntax unified - .thumb - .file "stm32_vectors.S" - -/************************************************************************************ - * Macros - ************************************************************************************/ - -/* On entry into an IRQ, the hardware automatically saves the xPSR, PC, LR, R12, R0-R3 - * registers on the stack, then branches to an instantantiation of the following - * macro. This macro simply loads the IRQ number into R0, then jumps to the common - * IRQ handling logic. - */ - - .macro HANDLER, label, irqno - .thumb_func -\label: - mov r0, #\irqno - b stm32_common - .endm - -/************************************************************************************ - * Vectors - ************************************************************************************/ - - .section .vectors, "ax" - .code 16 - .align 2 - .globl stm32_vectors - .type stm32_vectors, function - -stm32_vectors: - -/* Processor Exceptions */ - - .word IDLE_STACK /* Vector 0: Reset stack pointer */ - .word __start /* Vector 1: Reset vector */ - .word stm32_nmi /* Vector 2: Non-Maskable Interrupt (NMI) */ - .word stm32_hardfault /* Vector 3: Hard fault */ - .word stm32_mpu /* Vector 4: Memory management (MPU) */ - .word stm32_busfault /* Vector 5: Bus fault */ - .word stm32_usagefault /* Vector 6: Usage fault */ - .word stm32_reserved /* Vector 7: Reserved */ - .word stm32_reserved /* Vector 8: Reserved */ - .word stm32_reserved /* Vector 9: Reserved */ - .word stm32_reserved /* Vector 10: Reserved */ - .word stm32_svcall /* Vector 11: SVC call */ - .word stm32_dbgmonitor /* Vector 12: Debug monitor */ - .word stm32_reserved /* Vector 13: Reserved */ - .word stm32_pendsv /* Vector 14: Pendable system service request */ - .word stm32_systick /* Vector 15: System tick */ - -/* External Interrupts */ - -#ifdef CONFIG_STM32_CONNECTIVITY_LINE - .word stm32_wwdg /* Vector 16+0: Window Watchdog interrupt */ - .word stm32_pvd /* Vector 16+1: PVD through EXTI Line detection interrupt */ - .word stm32_tamper /* Vector 16+2: Tamper interrupt */ - .word stm32_rtc /* Vector 16+3: RTC global interrupt */ - .word stm32_flash /* Vector 16+4: Flash global interrupt */ - .word stm32_rcc /* Vector 16+5: RCC global interrupt */ - .word stm32_exti0 /* Vector 16+6: EXTI Line 0 interrupt */ - .word stm32_exti1 /* Vector 16+7: EXTI Line 1 interrupt */ - .word stm32_exti2 /* Vector 16+8: EXTI Line 2 interrupt */ - .word stm32_exti3 /* Vector 16+9: EXTI Line 3 interrupt */ - .word stm32_exti4 /* Vector 16+10: EXTI Line 4 interrupt */ - .word stm32_dma1ch1 /* Vector 16+11: DMA1 Channel 1 global interrupt */ - .word stm32_dma1ch2 /* Vector 16+12: DMA1 Channel 2 global interrupt */ - .word stm32_dma1ch3 /* Vector 16+13: DMA1 Channel 3 global interrupt */ - .word stm32_dma1ch4 /* Vector 16+14: DMA1 Channel 4 global interrupt */ - .word stm32_dma1ch5 /* Vector 16+15: DMA1 Channel 5 global interrupt */ - .word stm32_dma1ch6 /* Vector 16+16: DMA1 Channel 7 global interrupt */ - .word stm32_adc12 /* Vector 16+18: ADC1 and ADC2 global interrupt */ - .word stm32_can1tx /* Vector 16+19: CAN1 TX interrupts */ - .word stm32_can1rx0 /* Vector 16+20: CAN1 RX0 interrupts */ - .word stm32_can1rx /* Vector 16+21: CAN1 RX1 interrupt */ - .word stm32_can1sce /* Vector 16+22: CAN1 SCE interrupt */ - .word stm32_exti95 /* Vector 16+23: EXTI Line[9:5] interrupts */ - .word stm32_tim1brk /* Vector 16+24: TIM1 Break interrupt */ - .word stm32_tim1up /* Vector 16+25: TIM1 Update interrupt */ - .word stm32_tim1trgcom /* Vector 16+26: TIM1 Trigger and Commutation interrupts */ - .word stm32_tim1cc /* Vector 16+27: TIM1 Capture Compare interrupt */ - .word stm32_tim2 /* Vector 16+28: TIM2 global interrupt */ - .word stm32_tim3 /* Vector 16+29: TIM3 global interrupt */ - .word stm32_tim4 /* Vector 16+30: TIM4 global interrupt */ - .word stm32_i2c1ev /* Vector 16+31: I2C1 event interrupt */ - .word stm32_i2c1er /* Vector 16+32: I2C1 error interrupt */ - .word stm32_i2c2ev /* Vector 16+33: I2C2 event interrupt */ - .word stm32_i2c2er /* Vector 16+34: I2C2 error interrupt */ - .word stm32_spi1 /* Vector 16+35: SPI1 global interrupt */ - .word stm32_spi2 /* Vector 16+36: SPI2 global interrupt */ - .word stm32_usart1 /* Vector 16+37: USART1 global interrupt */ - .word stm32_usart2 /* Vector 16+38: USART2 global interrupt */ - .word stm32_usart3 /* Vector 16+39: USART3 global interrupt */ - .word stm32_exti1510 /* Vector 16+40: EXTI Line[15:10] interrupts */ - .word stm32_rtcalr /* Vector 16+41: RTC alarm through EXTI line interrupt */ - .word stm32_otgfswkup /* Vector 16+42: USB On-The-Go FS Wakeup through EXTI line interrupt */ - .word stm32_reserved /* Vector 16+43: Reserved */ - .word stm32_reserved /* Vector 16+44: Reserved */ - .word stm32_reserved /* Vector 16+45: Reserved */ - .word stm32_reserved /* Vector 16+46: Reserved */ - .word stm32_reserved /* Vector 16+47: Reserved */ - .word stm32_reserved /* Vector 16+48: Reserved */ - .word stm32_reserved /* Vector 16+49: Reserved */ - .word stm32_tim5 /* Vector 16+50: TIM5 global interrupt */ - .word stm32_spi3 /* Vector 16+51: SPI3 global interrupt */ - .word stm32_uart4 /* Vector 16+52: UART4 global interrupt */ - .word stm32_uart5 /* Vector 16+53: UART5 global interrupt */ - .word stm32_tim6 /* Vector 16+54: TIM6 global interrupt */ - .word stm32_tim7 /* Vector 16+55: TIM7 global interrupt */ - .word stm32_dma2ch1 /* Vector 16+56: DMA2 Channel 1 global interrupt */ - .word stm32_dma2ch2 /* Vector 16+57: DMA2 Channel 2 global interrupt */ - .word stm32_dma2ch3 /* Vector 16+58: DMA2 Channel 3 global interrupt */ - .word stm32_dma2ch4 /* Vector 16+59: DMA2 Channel 4 global interrupt */ - .word stm32_dma2ch5 /* Vector 16+60: DMA2 Channel 5 global interrupt */ - .word stm32_eth /* Vector 16+61: Ethernet global interrupt */ - .word stm32_ethwkup /* Vector 16+62: Ethernet Wakeup through EXTI line interrupt */ - .word stm32_can2tx /* Vector 16+63: CAN2 TX interrupts */ - .word stm32_can2rx0 /* Vector 16+64: CAN2 RX0 interrupts */ - .word stm32_can2rx1 /* Vector 16+65: CAN2 RX1 interrupt */ - .word stm32_can2sce /* Vector 16+66: CAN2 SCE interrupt */ - .word stm32_otgfs /* Vector 16+67: USB On The Go FS global interrupt */ -#else - .word stm32_wwdg /* Vector 16+0: Window Watchdog interrupt */ - .word stm32_pvd /* Vector 16+1: PVD through EXTI Line detection interrupt */ - .word stm32_tamper /* Vector 16+2: Tamper interrupt */ - .word stm32_rtc /* Vector 16+3: RTC global interrupt */ - .word stm32_flash /* Vector 16+4: Flash global interrupt */ - .word stm32_rcc /* Vector 16+5: RCC global interrupt */ - .word stm32_exti0 /* Vector 16+6: EXTI Line 0 interrupt */ - .word stm32_exti1 /* Vector 16+7: EXTI Line 1 interrupt */ - .word stm32_exti2 /* Vector 16+8: EXTI Line 2 interrupt */ - .word stm32_exti3 /* Vector 16+9: EXTI Line 3 interrupt */ - .word stm32_exti4 /* Vector 16+10: EXTI Line 4 interrupt */ - .word stm32_dma1ch1 /* Vector 16+11: DMA1 Channel 1 global interrupt */ - .word stm32_dma1ch2 /* Vector 16+12: DMA1 Channel 2 global interrupt */ - .word stm32_dma1ch3 /* Vector 16+13: DMA1 Channel 3 global interrupt */ - .word stm32_dma1ch4 /* Vector 16+14: DMA1 Channel 4 global interrupt */ - .word stm32_dma1ch5 /* Vector 16+15: DMA1 Channel 5 global interrupt */ - .word stm32_dma1ch6 /* Vector 16+16: DMA1 Channel 6 global interrupt */ - .word stm32_dma1ch7 /* Vector 16+17: DMA1 Channel 7 global interrupt */ - .word stm32_adc12 /* Vector 16+18: ADC1 and ADC2 global interrupt */ - .word stm32_usbhpcantx /* Vector 16+19: USB High Priority or CAN TX interrupts*/ - .word stm32_usblpcanrx0 /* Vector 16+20: USB Low Priority or CAN RX0 interrupts*/ - .word stm32_can1rx1 /* Vector 16+21: CAN1 RX1 interrupt */ - .word stm32_can1sce /* Vector 16+22: CAN1 SCE interrupt */ - .word stm32_exti95 /* Vector 16+23: EXTI Line[9:5] interrupts */ - .word stm32_tim1brk /* Vector 16+24: TIM1 Break interrupt */ - .word stm32_tim1up /* Vector 16+25: TIM1 Update interrupt */ - .word stm32_tim1rtgcom /* Vector 16+26: TIM1 Trigger and Commutation interrupts */ - .word stm32_tim1cc /* Vector 16+27: TIM1 Capture Compare interrupt */ - .word stm32_tim2 /* Vector 16+28: TIM2 global interrupt */ - .word stm32_tim3 /* Vector 16+29: TIM3 global interrupt */ - .word stm32_tim4 /* Vector 16+30: TIM4 global interrupt */ - .word stm32_i2c1ev /* Vector 16+31: I2C1 event interrupt */ - .word stm32_i2c1er /* Vector 16+32: I2C1 error interrupt */ - .word stm32_i2c2ev /* Vector 16+33: I2C2 event interrupt */ - .word stm32_i2c2er /* Vector 16+34: I2C2 error interrupt */ - .word stm32_spi1 /* Vector 16+35: SPI1 global interrupt */ - .word stm32_spi2 /* Vector 16+36: SPI2 global interrupt */ - .word stm32_usart1 /* Vector 16+37: USART1 global interrupt */ - .word stm32_usart2 /* Vector 16+38: USART2 global interrupt */ - .word stm32_usart3 /* Vector 16+39: USART3 global interrupt */ - .word stm32_exti1510 /* Vector 16+40: EXTI Line[15:10] interrupts */ - .word stm32_rtcalr /* Vector 16+41: RTC alarm through EXTI line interrupt */ - .word stm32_usbwkup /* Vector 16+42: USB wakeup from suspend through EXTI line interrupt*/ - .word stm32_tim8brk /* Vector 16+43: TIM8 Break interrupt */ - .word stm32_tim8up /* Vector 16+44: TIM8 Update interrupt */ - .word stm32_tim8trgcom /* Vector 16+45: TIM8 Trigger and Commutation interrupts */ - .word stm32_tim8cc /* Vector 16+46: TIM8 Capture Compare interrupt */ - .word stm32_adc3 /* Vector 16+47: ADC3 global interrupt */ - .word stm32_fsmc /* Vector 16+48: FSMC global interrupt */ - .word stm32_sdio /* Vector 16+49: SDIO global interrupt */ - .word stm32_tim5 /* Vector 16+50: TIM5 global interrupt */ - .word stm32_spi3 /* Vector 16+51: SPI3 global interrupt */ - .word stm32_uart4 /* Vector 16+52: UART4 global interrupt */ - .word stm32_uart5 /* Vector 16+53: UART5 global interrupt */ - .word stm32_tim6 /* Vector 16+54: TIM6 global interrupt */ - .word stm32_tim7 /* Vector 16+55: TIM7 global interrupt */ - .word stm32_dma2ch1 /* Vector 16+56: DMA2 Channel 1 global interrupt */ - .word stm32_dma2ch2 /* Vector 16+57: DMA2 Channel 2 global interrupt */ - .word stm32_dma2ch3 /* Vector 16+58: DMA2 Channel 3 global interrupt */ - .word stm32_dma2ch45 /* Vector 16+59: DMA2 Channel 4&5 global interrupt */ -#endif - .size stm32_vectors, .-stm32_vectors - -/************************************************************************************ - * .text - ************************************************************************************/ - - .text - .type handlers, function - .thumb_func -handlers: - HANDLER stm32_reserved, STM32_IRQ_RESERVED /* Unexpected/reserved vector */ - HANDLER stm32_nmi, STM32_IRQ_NMI /* Vector 2: Non-Maskable Interrupt (NMI) */ - HANDLER stm32_hardfault, STM32_IRQ_HARDFAULT /* Vector 3: Hard fault */ - HANDLER stm32_mpu, STM32_IRQ_MPU /* Vector 4: Memory management (MPU) */ - HANDLER stm32_busfault, STM32_IRQ_BUSFAULT /* Vector 5: Bus fault */ - HANDLER stm32_usagefault, STM32_IRQ_USAGEFAULT /* Vector 6: Usage fault */ - HANDLER stm32_svcall, STM32_IRQ_SVCALL /* Vector 11: SVC call */ - HANDLER stm32_dbgmonitor, STM32_IRQ_DBGMONITOR /* Vector 12: Debug Monitor */ - HANDLER stm32_pendsv, STM32_IRQ_PENDSV /* Vector 14: Penable system service request */ - HANDLER stm32_systick, STM32_IRQ_SYSTICK /* Vector 15: System tick */ - -#ifdef CONFIG_STM32_CONNECTIVITY_LINE - HANDLER stm32_wwdg, STM32_IRQ_WWDG /* Vector 16+0: Window Watchdog interrupt */ - HANDLER stm32_pvd, STM32_IRQ_PVD /* Vector 16+1: PVD through EXTI Line detection interrupt */ - HANDLER stm32_tamper, STM32_IRQ_TAMPER /* Vector 16+2: Tamper interrupt */ - HANDLER stm32_rtc, STM32_IRQ_RTC /* Vector 16+3: RTC global interrupt */ - HANDLER stm32_flash, STM32_IRQ_FLASH /* Vector 16+4: Flash global interrupt */ - HANDLER stm32_rcc, STM32_IRQ_RCC /* Vector 16+5: RCC global interrupt */ - HANDLER stm32_exti0, STM32_IRQ_EXTI0 /* Vector 16+6: EXTI Line 0 interrupt */ - HANDLER stm32_exti1, STM32_IRQ_EXTI1 /* Vector 16+7: EXTI Line 1 interrupt */ - HANDLER stm32_exti2, STM32_IRQ_EXTI2 /* Vector 16+8: EXTI Line 2 interrupt */ - HANDLER stm32_exti3, STM32_IRQ_EXTI3 /* Vector 16+9: EXTI Line 3 interrupt */ - HANDLER stm32_exti4, STM32_IRQ_EXTI4 /* Vector 16+10: EXTI Line 4 interrupt */ - HANDLER stm32_dma1ch1, STM32_IRQ_DMA1CH1 /* Vector 16+11: DMA1 Channel 1 global interrupt */ - HANDLER stm32_dma1ch2, STM32_IRQ_DMA1CH2 /* Vector 16+12: DMA1 Channel 2 global interrupt */ - HANDLER stm32_dma1ch3, STM32_IRQ_DMA1CH3 /* Vector 16+13: DMA1 Channel 3 global interrupt */ - HANDLER stm32_dma1ch4, STM32_IRQ_DMA1CH4 /* Vector 16+14: DMA1 Channel 4 global interrupt */ - HANDLER stm32_dma1ch5, STM32_IRQ_DMA1CH5 /* Vector 16+15: DMA1 Channel 5 global interrupt */ - HANDLER stm32_dma1ch6, STM32_IRQ_DMA1CH6 /* Vector 16+16: DMA1 Channel 7 global interrupt */ - HANDLER stm32_adc12, STM32_IRQ_ADC12 /* Vector 16+18: ADC1 and ADC2 global interrupt */ - HANDLER stm32_can1tx, STM32_IRQ_CAN1TX /* Vector 16+19: CAN1 TX interrupts */ - HANDLER stm32_can1rx0, STM32_IRQ_CAN1RX0 /* Vector 16+20: CAN1 RX0 interrupts */ - HANDLER stm32_can1rx, STM32_IRQ_CAN1RX1 /* Vector 16+21: CAN1 RX1 interrupt */ - HANDLER stm32_can1sce, STM32_IRQ_CAN1SCE /* Vector 16+22: CAN1 SCE interrupt */ - HANDLER stm32_exti95, STM32_IRQ_EXTI95 /* Vector 16+23: EXTI Line[9:5] interrupts */ - HANDLER stm32_tim1brk, STM32_IRQ_TIM1BRK /* Vector 16+24: TIM1 Break interrupt */ - HANDLER stm32_tim1up, STM32_IRQ_TIM1UP /* Vector 16+25: TIM1 Update interrupt */ - HANDLER stm32_tim1trgcom, STM32_IRQ_TIM1TRGCOM /* Vector 16+26: TIM1 Trigger and Commutation interrupts */ - HANDLER stm32_tim1cc, STM32_IRQ_TIM1CC /* Vector 16+27: TIM1 Capture Compare interrupt */ - HANDLER stm32_tim2, STM32_IRQ_TIM2 /* Vector 16+28: TIM2 global interrupt */ - HANDLER stm32_tim3, STM32_IRQ_TIM3 /* Vector 16+29: TIM3 global interrupt */ - HANDLER stm32_tim4, STM32_IRQ_TIM4 /* Vector 16+30: TIM4 global interrupt */ - HANDLER stm32_i2c1ev, STM32_IRQ_I2C1EV /* Vector 16+31: I2C1 event interrupt */ - HANDLER stm32_i2c1er, STM32_IRQ_I2C1ER /* Vector 16+32: I2C1 error interrupt */ - HANDLER stm32_i2c2ev, STM32_IRQ_I2C2EV /* Vector 16+33: I2C2 event interrupt */ - HANDLER stm32_i2c2er, STM32_IRQ_I2C2ER /* Vector 16+34: I2C2 error interrupt */ - HANDLER stm32_spi1, STM32_IRQ_SPI1 /* Vector 16+35: SPI1 global interrupt */ - HANDLER stm32_spi2, STM32_IRQ_SPI2 /* Vector 16+36: SPI2 global interrupt */ - HANDLER stm32_usart1, STM32_IRQ_USART1 /* Vector 16+37: USART1 global interrupt */ - HANDLER stm32_usart2, STM32_IRQ_USART2 /* Vector 16+38: USART2 global interrupt */ - HANDLER stm32_usart3, STM32_IRQ_USART3 /* Vector 16+39: USART3 global interrupt */ - HANDLER stm32_exti1510, STM32_IRQ_EXTI1510 /* Vector 16+40: EXTI Line[15:10] interrupts */ - HANDLER stm32_rtcalr, STM32_IRQ_RTCALR /* Vector 16+41: RTC alarm through EXTI line interrupt */ - HANDLER stm32_otgfswkup, STM32_IRQ_OTGFSWKUP /* Vector 16+42: USB On-The-Go FS Wakeup through EXTI line interrupt */ - HANDLER stm32_tim5, STM32_IRQ_TIM5 /* Vector 16+50: TIM5 global interrupt */ - HANDLER stm32_spi3, STM32_IRQ_SPI3 /* Vector 16+51: SPI3 global interrupt */ - HANDLER stm32_uart4 , STM32_IRQ_UART4 /* Vector 16+52: UART4 global interrupt */ - HANDLER stm32_uart5, STM32_IRQ_UART5 /* Vector 16+53: UART5 global interrupt */ - HANDLER stm32_tim6, STM32_IRQ_TIM6 /* Vector 16+54: TIM6 global interrupt */ - HANDLER stm32_tim7, STM32_IRQ_TIM7 /* Vector 16+55: TIM7 global interrupt */ - HANDLER stm32_dma2ch1, STM32_IRQ_DMA2CH1 /* Vector 16+56: DMA2 Channel 1 global interrupt */ - HANDLER stm32_dma2ch2, STM32_IRQ_DMA2CH2 /* Vector 16+57: DMA2 Channel 2 global interrupt */ - HANDLER stm32_dma2ch3, STM32_IRQ_DMA2CH3 /* Vector 16+58: DMA2 Channel 3 global interrupt */ - HANDLER stm32_dma2ch4, STM32_IRQ_DMA2CH4 /* Vector 16+59: DMA2 Channel 4 global interrupt */ - HANDLER stm32_dma2ch5, STM32_IRQ_DMA2CH5 /* Vector 16+60: DMA2 Channel 5 global interrupt */ - HANDLER stm32_eth, STM32_IRQ_ETH /* Vector 16+61: Ethernet global interrupt */ - HANDLER stm32_ethwkup, STM32_IRQ_ETHWKUP /* Vector 16+62: Ethernet Wakeup through EXTI line interrupt */ - HANDLER stm32_can2tx, STM32_IRQ_CAN2TX /* Vector 16+63: CAN2 TX interrupts */ - HANDLER stm32_can2rx0, STM32_IRQ_CAN2RX0 /* Vector 16+64: CAN2 RX0 interrupts */ - HANDLER stm32_can2rx1, STM32_IRQ_CAN2RX1 /* Vector 16+65: CAN2 RX1 interrupt */ - HANDLER stm32_can2sce, STM32_IRQ_CAN2SCE /* Vector 16+66: CAN2 SCE interrupt */ - HANDLER stm32_otgfs, STM32_IRQ_OTGFS /* Vector 16+67: USB On The Go FS global interrupt */ -#else - HANDLER stm32_wwdg, STM32_IRQ_WWDG /* Vector 16+0: Window Watchdog interrupt */ - HANDLER stm32_pvd, STM32_IRQ_PVD /* Vector 16+1: PVD through EXTI Line detection interrupt */ - HANDLER stm32_tamper, STM32_IRQ_TAMPER /* Vector 16+2: Tamper interrupt */ - HANDLER stm32_rtc, STM32_IRQ_RTC /* Vector 16+3: RTC global interrupt */ - HANDLER stm32_flash, STM32_IRQ_FLASH /* Vector 16+4: Flash global interrupt */ - HANDLER stm32_rcc, STM32_IRQ_RCC /* Vector 16+5: RCC global interrupt */ - HANDLER stm32_exti0, STM32_IRQ_EXTI0 /* Vector 16+6: EXTI Line 0 interrupt */ - HANDLER stm32_exti1, STM32_IRQ_EXTI1 /* Vector 16+7: EXTI Line 1 interrupt */ - HANDLER stm32_exti2, STM32_IRQ_EXTI2 /* Vector 16+8: EXTI Line 2 interrupt */ - HANDLER stm32_exti3, STM32_IRQ_EXTI3 /* Vector 16+9: EXTI Line 3 interrupt */ - HANDLER stm32_exti4, STM32_IRQ_EXTI4 /* Vector 16+10: EXTI Line 4 interrupt */ - HANDLER stm32_dma1ch1, STM32_IRQ_DMA1CH1 /* Vector 16+11: DMA1 Channel 1 global interrupt */ - HANDLER stm32_dma1ch2, STM32_IRQ_DMA1CH2 /* Vector 16+12: DMA1 Channel 2 global interrupt */ - HANDLER stm32_dma1ch3, STM32_IRQ_DMA1CH3 /* Vector 16+13: DMA1 Channel 3 global interrupt */ - HANDLER stm32_dma1ch4, STM32_IRQ_DMA1CH4 /* Vector 16+14: DMA1 Channel 4 global interrupt */ - HANDLER stm32_dma1ch5, STM32_IRQ_DMA1CH5 /* Vector 16+15: DMA1 Channel 5 global interrupt */ - HANDLER stm32_dma1ch6, STM32_IRQ_DMA1CH6 /* Vector 16+16: DMA1 Channel 6 global interrupt */ - HANDLER stm32_dma1ch7, STM32_IRQ_DMA1CH7 /* Vector 16+17: DMA1 Channel 7 global interrupt */ - HANDLER stm32_adc12, STM32_IRQ_ADC12 /* Vector 16+18: ADC1 and ADC2 global interrupt */ - HANDLER stm32_usbhpcantx, STM32_IRQ_USBHPCANTX /* Vector 16+19: USB High Priority or CAN TX interrupts*/ - HANDLER stm32_usblpcanrx0, STM32_IRQ_USBLPCANRX0 /* Vector 16+20: USB Low Priority or CAN RX0 interrupts*/ - HANDLER stm32_can1rx1, STM32_IRQ_CAN1RX1 /* Vector 16+21: CAN1 RX1 interrupt */ - HANDLER stm32_can1sce, STM32_IRQ_CAN1SCE /* Vector 16+22: CAN1 SCE interrupt */ - HANDLER stm32_exti95, STM32_IRQ_EXTI95 /* Vector 16+23: EXTI Line[9:5] interrupts */ - HANDLER stm32_tim1brk, STM32_IRQ_TIM1BRK /* Vector 16+24: TIM1 Break interrupt */ - HANDLER stm32_tim1up, STM32_IRQ_TIM1UP /* Vector 16+25: TIM1 Update interrupt */ - HANDLER stm32_tim1rtgcom, STM32_IRQ_TIM1TRGCOM /* Vector 16+26: TIM1 Trigger and Commutation interrupts */ - HANDLER stm32_tim1cc, STM32_IRQ_TIM1CC /* Vector 16+27: TIM1 Capture Compare interrupt */ - HANDLER stm32_tim2, STM32_IRQ_TIM2 /* Vector 16+28: TIM2 global interrupt */ - HANDLER stm32_tim3, STM32_IRQ_TIM3 /* Vector 16+29: TIM3 global interrupt */ - HANDLER stm32_tim4, STM32_IRQ_TIM4 /* Vector 16+30: TIM4 global interrupt */ - HANDLER stm32_i2c1ev, STM32_IRQ_I2C1EV /* Vector 16+31: I2C1 event interrupt */ - HANDLER stm32_i2c1er, STM32_IRQ_I2C1ER /* Vector 16+32: I2C1 error interrupt */ - HANDLER stm32_i2c2ev, STM32_IRQ_I2C2EV /* Vector 16+33: I2C2 event interrupt */ - HANDLER stm32_i2c2er, STM32_IRQ_I2C2ER /* Vector 16+34: I2C2 error interrupt */ - HANDLER stm32_spi1, STM32_IRQ_SPI1 /* Vector 16+35: SPI1 global interrupt */ - HANDLER stm32_spi2, STM32_IRQ_SPI2 /* Vector 16+36: SPI2 global interrupt */ - HANDLER stm32_usart1, STM32_IRQ_USART1 /* Vector 16+37: USART1 global interrupt */ - HANDLER stm32_usart2, STM32_IRQ_USART2 /* Vector 16+38: USART2 global interrupt */ - HANDLER stm32_usart3, STM32_IRQ_USART3 /* Vector 16+39: USART3 global interrupt */ - HANDLER stm32_exti1510, STM32_IRQ_EXTI1510 /* Vector 16+40: EXTI Line[15:10] interrupts */ - HANDLER stm32_rtcalr, STM32_IRQ_RTCALR /* Vector 16+41: RTC alarm through EXTI line interrupt */ - HANDLER stm32_usbwkup, STM32_IRQ_USBWKUP /* Vector 16+42: USB wakeup from suspend through EXTI line interrupt*/ - HANDLER stm32_tim8brk, STM32_IRQ_TIM8BRK /* Vector 16+43: TIM8 Break interrupt */ - HANDLER stm32_tim8up, STM32_IRQ_TIM8UP /* Vector 16+44: TIM8 Update interrupt */ - HANDLER stm32_tim8trgcom, STM32_IRQ_TIM8TRGCOM /* Vector 16+45: TIM8 Trigger and Commutation interrupts */ - HANDLER stm32_tim8cc, STM32_IRQ_TIM8CC /* Vector 16+46: TIM8 Capture Compare interrupt */ - HANDLER stm32_adc3, STM32_IRQ_ADC3 /* Vector 16+47: ADC3 global interrupt */ - HANDLER stm32_fsmc, STM32_IRQ_FSMC /* Vector 16+48: FSMC global interrupt */ - HANDLER stm32_sdio, STM32_IRQ_SDIO /* Vector 16+49: SDIO global interrupt */ - HANDLER stm32_tim5, STM32_IRQ_TIM5 /* Vector 16+50: TIM5 global interrupt */ - HANDLER stm32_spi3, STM32_IRQ_SPI3 /* Vector 16+51: SPI3 global interrupt */ - HANDLER stm32_uart4, STM32_IRQ_UART4 /* Vector 16+52: UART4 global interrupt */ - HANDLER stm32_uart5, STM32_IRQ_UART5 /* Vector 16+53: UART5 global interrupt */ - HANDLER stm32_tim6, STM32_IRQ_TIM6 /* Vector 16+54: TIM6 global interrupt */ - HANDLER stm32_tim7, STM32_IRQ_TIM7 /* Vector 16+55: TIM7 global interrupt */ - HANDLER stm32_dma2ch1, STM32_IRQ_DMA2CH1 /* Vector 16+56: DMA2 Channel 1 global interrupt */ - HANDLER stm32_dma2ch2, STM32_IRQ_DMA2CH2 /* Vector 16+57: DMA2 Channel 2 global interrupt */ - HANDLER stm32_dma2ch3, STM32_IRQ_DMA2CH3 /* Vector 16+58: DMA2 Channel 3 global interrupt */ - HANDLER stm32_dma2ch45, STM32_IRQ_DMA2CH45 /* Vector 16+59: DMA2 Channel 4&5 global interrupt */ -#endif - -/* Common IRQ handling logic. On entry here, the stack is like the following: - * - * REG_XPSR - * REG_R15 - * REG_R14 - * REG_R12 - * REG_R3 - * REG_R2 - * REG_R1 - * MSP->REG_R0 - * - * and R0 contains the IRQ number - */ - -stm32_common: - - /* Complete the context save */ - - mrs r1, msp /* R1=The main stack pointer */ - mov r2, r1 /* R2=Copy of the main stack pointer */ - add r2, #HW_XCPT_SIZE /* R2=MSP before the interrupt was taken */ - mrs r3, primask /* R3=Current PRIMASK setting */ - stmdb r1!, {r2-r11} /* Save the remaining registers plus the SP value */ - - /* Disable interrupts, select the stack to use for interrupt handling - * and call up_doirq to handle the interrupt - */ - - cpsid i /* Disable further interrupts */ - - /* If CONFIG_ARCH_INTERRUPTSTACK is defined, we will use a special interrupt - * stack pointer. The way that this is done here prohibits nested interrupts! - * Otherwise, we will re-use the main stack for interrupt level processing. - */ - -#ifdef CONFIG_ARCH_INTERRUPTSTACK - ldr sp, =g_intstackbase - str r1, [sp, #-4]! /* Save the MSP on the interrupt stack */ - bl up_doirq /* R0=IRQ, R1=register save (msp) */ - ldr r1, [sp, #+4]! /* Recover R1=main stack pointer */ -#else - mov sp, r1 /* We are using the main stack pointer */ - bl up_doirq /* R0=IRQ, R1=register save (msp) */ - mov r1, sp /* Recover R1=main stack pointer */ -#endif - - /* On return from up_doirq, R0 will hold a pointer to register context - * array to use for the interrupt return. If that return value is the same - * as current stack pointer, then things are relatively easy. - */ - - cmp r0, r1 /* Context switch? */ - beq 1f /* Branch if no context switch */ - - /* We are returning with a pending context switch. This case is different - * because in this case, the register save structure does not lie on the - * stack but, rather, are within a TCB structure. We'll have to copy some - * values to the stack. - */ - - add r1, r0, #SW_XCPT_SIZE /* R1=Address of HW save area in reg array */ - ldmia r1, {r4-r11} /* Fetch eight registers in HW save area */ - ldr r1, [r0, #(4*REG_SP)] /* R1=Value of SP before interrupt */ - stmdb r1!, {r4-r11} /* Store eight registers in HW save area */ - ldmia r0, {r2-r11} /* Recover R4-R11 + 2 temp values */ - b 2f /* Re-join common logic */ - - /* We are returning with no context switch. We simply need to "unwind" - * the same stack frame that we created - */ -1: - ldmia r1!, {r2-r11} /* Recover R4-R11 + 2 temp values */ -2: - msr msp, r1 /* Recover the return MSP value */ - - /* Restore the interrupt state. Preload r14 with the special return - * value first (so that the return actually occurs with interrupts - * still disabled). - */ - - ldr r14, =EXC_RETURN /* Load the special value */ - msr primask, r3 /* Restore interrupts */ - - /* Always return with R14 containing the special value that will: (1) - * return to thread mode, and (2) continue to use the MSP - */ - - bx r14 /* And return */ - .size handlers, .-handlers - -/************************************************************************************ - * Name: up_interruptstack/g_intstackbase - * - * Description: - * Shouldn't happen - * - ************************************************************************************/ - -#if CONFIG_ARCH_INTERRUPTSTACK > 3 - .bss - .global g_intstackbase - .align 4 -up_interruptstack: - .skip (CONFIG_ARCH_INTERRUPTSTACK & ~3) -g_intstackbase: - .size up_interruptstack, .-up_interruptstack -#endif - -/************************************************************************************ - * .rodata - ************************************************************************************/ - - .section .rodata, "a" - -/* Variables: _sbss is the start of the BSS region (see ld.script) _ebss is the end - * of the BSS regsion (see ld.script). The idle task stack starts at the end of BSS - * and is of size CONFIG_IDLETHREAD_STACKSIZE. The IDLE thread is the thread that - * the system boots on and, eventually, becomes the idle, do nothing task that runs - * only when there is nothing else to run. The heap continues from there until the - * end of memory. See g_heapbase below. - */ - - .globl g_heapbase - .type g_heapbase, object -g_heapbase: - .long _ebss+CONFIG_IDLETHREAD_STACKSIZE - .size g_heapbase, .-g_heapbase - - .end +/************************************************************************************ + * arch/arm/src/stm32/stm32_vectors.S + * arch/arm/src/chip/stm32_vectors.S + * + * Copyright (C) 2009-2011 Gregory Nutt. All rights reserved. + * Author: Gregory Nutt + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * + * 1. Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * 3. Neither the name NuttX nor the names of its contributors may be + * used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS + * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE + * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, + * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, + * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS + * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED + * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT + * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN + * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + * POSSIBILITY OF SUCH DAMAGE. + * + ************************************************************************************/ + +/************************************************************************************ + * Included Files + ************************************************************************************/ + +#include +#include + +/************************************************************************************ + * Preprocessor Definitions + ************************************************************************************/ + +/* Memory Map: + * + * 0x0800:0000 - Beginning of FLASH. Address of vectors (if not using bootloader) + * Mapped to address 0x0000:0000 at boot time. + * 0x0800:3000 - Address of vectors if using bootloader + * 0x0803:ffff - End of flash + * 0x2000:0000 - Start of SRAM and start of .data (_sdata) + * - End of .data (_edata) abd start of .bss (_sbss) + * - End of .bss (_ebss) and bottom of idle stack + * - _ebss + CONFIG_IDLETHREAD_STACKSIZE = end of idle stack, start of heap + * 0x2000:ffff - End of SRAM and end of heap + */ + +#define IDLE_STACK (_ebss+CONFIG_IDLETHREAD_STACKSIZE-4) +#define HEAP_BASE (_ebss+CONFIG_IDLETHREAD_STACKSIZE-4) + +/* The Cortex-M3 return from interrupt is unusual. We provide the following special + * address to the BX instruction. The particular value also forces a return to + * thread mode and covers state from the main stack point, the MSP (vs. the MSP). + */ + +#define EXC_RETURN 0xfffffff9 + +/************************************************************************************ + * Global Symbols + ************************************************************************************/ + + .globl __start + + .syntax unified + .thumb + .file "stm32_vectors.S" + +/************************************************************************************ + * Macros + ************************************************************************************/ + +/* On entry into an IRQ, the hardware automatically saves the xPSR, PC, LR, R12, R0-R3 + * registers on the stack, then branches to an instantantiation of the following + * macro. This macro simply loads the IRQ number into R0, then jumps to the common + * IRQ handling logic. + */ + + .macro HANDLER, label, irqno + .thumb_func +\label: + mov r0, #\irqno + b stm32_common + .endm + +/************************************************************************************ + * Vectors + ************************************************************************************/ + + .section .vectors, "ax" + .code 16 + .align 2 + .globl stm32_vectors + .type stm32_vectors, function + +stm32_vectors: + +/* Processor Exceptions */ + + .word IDLE_STACK /* Vector 0: Reset stack pointer */ + .word __start /* Vector 1: Reset vector */ + .word stm32_nmi /* Vector 2: Non-Maskable Interrupt (NMI) */ + .word stm32_hardfault /* Vector 3: Hard fault */ + .word stm32_mpu /* Vector 4: Memory management (MPU) */ + .word stm32_busfault /* Vector 5: Bus fault */ + .word stm32_usagefault /* Vector 6: Usage fault */ + .word stm32_reserved /* Vector 7: Reserved */ + .word stm32_reserved /* Vector 8: Reserved */ + .word stm32_reserved /* Vector 9: Reserved */ + .word stm32_reserved /* Vector 10: Reserved */ + .word stm32_svcall /* Vector 11: SVC call */ + .word stm32_dbgmonitor /* Vector 12: Debug monitor */ + .word stm32_reserved /* Vector 13: Reserved */ + .word stm32_pendsv /* Vector 14: Pendable system service request */ + .word stm32_systick /* Vector 15: System tick */ + +/* External Interrupts */ + +#ifdef CONFIG_STM32_CONNECTIVITY_LINE + .word stm32_wwdg /* Vector 16+0: Window Watchdog interrupt */ + .word stm32_pvd /* Vector 16+1: PVD through EXTI Line detection interrupt */ + .word stm32_tamper /* Vector 16+2: Tamper interrupt */ + .word stm32_rtc /* Vector 16+3: RTC global interrupt */ + .word stm32_flash /* Vector 16+4: Flash global interrupt */ + .word stm32_rcc /* Vector 16+5: RCC global interrupt */ + .word stm32_exti0 /* Vector 16+6: EXTI Line 0 interrupt */ + .word stm32_exti1 /* Vector 16+7: EXTI Line 1 interrupt */ + .word stm32_exti2 /* Vector 16+8: EXTI Line 2 interrupt */ + .word stm32_exti3 /* Vector 16+9: EXTI Line 3 interrupt */ + .word stm32_exti4 /* Vector 16+10: EXTI Line 4 interrupt */ + .word stm32_dma1ch1 /* Vector 16+11: DMA1 Channel 1 global interrupt */ + .word stm32_dma1ch2 /* Vector 16+12: DMA1 Channel 2 global interrupt */ + .word stm32_dma1ch3 /* Vector 16+13: DMA1 Channel 3 global interrupt */ + .word stm32_dma1ch4 /* Vector 16+14: DMA1 Channel 4 global interrupt */ + .word stm32_dma1ch5 /* Vector 16+15: DMA1 Channel 5 global interrupt */ + .word stm32_dma1ch6 /* Vector 16+16: DMA1 Channel 7 global interrupt */ + .word stm32_adc12 /* Vector 16+18: ADC1 and ADC2 global interrupt */ + .word stm32_can1tx /* Vector 16+19: CAN1 TX interrupts */ + .word stm32_can1rx0 /* Vector 16+20: CAN1 RX0 interrupts */ + .word stm32_can1rx /* Vector 16+21: CAN1 RX1 interrupt */ + .word stm32_can1sce /* Vector 16+22: CAN1 SCE interrupt */ + .word stm32_exti95 /* Vector 16+23: EXTI Line[9:5] interrupts */ + .word stm32_tim1brk /* Vector 16+24: TIM1 Break interrupt */ + .word stm32_tim1up /* Vector 16+25: TIM1 Update interrupt */ + .word stm32_tim1trgcom /* Vector 16+26: TIM1 Trigger and Commutation interrupts */ + .word stm32_tim1cc /* Vector 16+27: TIM1 Capture Compare interrupt */ + .word stm32_tim2 /* Vector 16+28: TIM2 global interrupt */ + .word stm32_tim3 /* Vector 16+29: TIM3 global interrupt */ + .word stm32_tim4 /* Vector 16+30: TIM4 global interrupt */ + .word stm32_i2c1ev /* Vector 16+31: I2C1 event interrupt */ + .word stm32_i2c1er /* Vector 16+32: I2C1 error interrupt */ + .word stm32_i2c2ev /* Vector 16+33: I2C2 event interrupt */ + .word stm32_i2c2er /* Vector 16+34: I2C2 error interrupt */ + .word stm32_spi1 /* Vector 16+35: SPI1 global interrupt */ + .word stm32_spi2 /* Vector 16+36: SPI2 global interrupt */ + .word stm32_usart1 /* Vector 16+37: USART1 global interrupt */ + .word stm32_usart2 /* Vector 16+38: USART2 global interrupt */ + .word stm32_usart3 /* Vector 16+39: USART3 global interrupt */ + .word stm32_exti1510 /* Vector 16+40: EXTI Line[15:10] interrupts */ + .word stm32_rtcalr /* Vector 16+41: RTC alarm through EXTI line interrupt */ + .word stm32_otgfswkup /* Vector 16+42: USB On-The-Go FS Wakeup through EXTI line interrupt */ + .word stm32_reserved /* Vector 16+43: Reserved */ + .word stm32_reserved /* Vector 16+44: Reserved */ + .word stm32_reserved /* Vector 16+45: Reserved */ + .word stm32_reserved /* Vector 16+46: Reserved */ + .word stm32_reserved /* Vector 16+47: Reserved */ + .word stm32_reserved /* Vector 16+48: Reserved */ + .word stm32_reserved /* Vector 16+49: Reserved */ + .word stm32_tim5 /* Vector 16+50: TIM5 global interrupt */ + .word stm32_spi3 /* Vector 16+51: SPI3 global interrupt */ + .word stm32_uart4 /* Vector 16+52: UART4 global interrupt */ + .word stm32_uart5 /* Vector 16+53: UART5 global interrupt */ + .word stm32_tim6 /* Vector 16+54: TIM6 global interrupt */ + .word stm32_tim7 /* Vector 16+55: TIM7 global interrupt */ + .word stm32_dma2ch1 /* Vector 16+56: DMA2 Channel 1 global interrupt */ + .word stm32_dma2ch2 /* Vector 16+57: DMA2 Channel 2 global interrupt */ + .word stm32_dma2ch3 /* Vector 16+58: DMA2 Channel 3 global interrupt */ + .word stm32_dma2ch4 /* Vector 16+59: DMA2 Channel 4 global interrupt */ + .word stm32_dma2ch5 /* Vector 16+60: DMA2 Channel 5 global interrupt */ + .word stm32_eth /* Vector 16+61: Ethernet global interrupt */ + .word stm32_ethwkup /* Vector 16+62: Ethernet Wakeup through EXTI line interrupt */ + .word stm32_can2tx /* Vector 16+63: CAN2 TX interrupts */ + .word stm32_can2rx0 /* Vector 16+64: CAN2 RX0 interrupts */ + .word stm32_can2rx1 /* Vector 16+65: CAN2 RX1 interrupt */ + .word stm32_can2sce /* Vector 16+66: CAN2 SCE interrupt */ + .word stm32_otgfs /* Vector 16+67: USB On The Go FS global interrupt */ +#else + .word stm32_wwdg /* Vector 16+0: Window Watchdog interrupt */ + .word stm32_pvd /* Vector 16+1: PVD through EXTI Line detection interrupt */ + .word stm32_tamper /* Vector 16+2: Tamper interrupt */ + .word stm32_rtc /* Vector 16+3: RTC global interrupt */ + .word stm32_flash /* Vector 16+4: Flash global interrupt */ + .word stm32_rcc /* Vector 16+5: RCC global interrupt */ + .word stm32_exti0 /* Vector 16+6: EXTI Line 0 interrupt */ + .word stm32_exti1 /* Vector 16+7: EXTI Line 1 interrupt */ + .word stm32_exti2 /* Vector 16+8: EXTI Line 2 interrupt */ + .word stm32_exti3 /* Vector 16+9: EXTI Line 3 interrupt */ + .word stm32_exti4 /* Vector 16+10: EXTI Line 4 interrupt */ + .word stm32_dma1ch1 /* Vector 16+11: DMA1 Channel 1 global interrupt */ + .word stm32_dma1ch2 /* Vector 16+12: DMA1 Channel 2 global interrupt */ + .word stm32_dma1ch3 /* Vector 16+13: DMA1 Channel 3 global interrupt */ + .word stm32_dma1ch4 /* Vector 16+14: DMA1 Channel 4 global interrupt */ + .word stm32_dma1ch5 /* Vector 16+15: DMA1 Channel 5 global interrupt */ + .word stm32_dma1ch6 /* Vector 16+16: DMA1 Channel 6 global interrupt */ + .word stm32_dma1ch7 /* Vector 16+17: DMA1 Channel 7 global interrupt */ + .word stm32_adc12 /* Vector 16+18: ADC1 and ADC2 global interrupt */ + .word stm32_usbhpcantx /* Vector 16+19: USB High Priority or CAN TX interrupts*/ + .word stm32_usblpcanrx0 /* Vector 16+20: USB Low Priority or CAN RX0 interrupts*/ + .word stm32_can1rx1 /* Vector 16+21: CAN1 RX1 interrupt */ + .word stm32_can1sce /* Vector 16+22: CAN1 SCE interrupt */ + .word stm32_exti95 /* Vector 16+23: EXTI Line[9:5] interrupts */ + .word stm32_tim1brk /* Vector 16+24: TIM1 Break interrupt */ + .word stm32_tim1up /* Vector 16+25: TIM1 Update interrupt */ + .word stm32_tim1rtgcom /* Vector 16+26: TIM1 Trigger and Commutation interrupts */ + .word stm32_tim1cc /* Vector 16+27: TIM1 Capture Compare interrupt */ + .word stm32_tim2 /* Vector 16+28: TIM2 global interrupt */ + .word stm32_tim3 /* Vector 16+29: TIM3 global interrupt */ + .word stm32_tim4 /* Vector 16+30: TIM4 global interrupt */ + .word stm32_i2c1ev /* Vector 16+31: I2C1 event interrupt */ + .word stm32_i2c1er /* Vector 16+32: I2C1 error interrupt */ + .word stm32_i2c2ev /* Vector 16+33: I2C2 event interrupt */ + .word stm32_i2c2er /* Vector 16+34: I2C2 error interrupt */ + .word stm32_spi1 /* Vector 16+35: SPI1 global interrupt */ + .word stm32_spi2 /* Vector 16+36: SPI2 global interrupt */ + .word stm32_usart1 /* Vector 16+37: USART1 global interrupt */ + .word stm32_usart2 /* Vector 16+38: USART2 global interrupt */ + .word stm32_usart3 /* Vector 16+39: USART3 global interrupt */ + .word stm32_exti1510 /* Vector 16+40: EXTI Line[15:10] interrupts */ + .word stm32_rtcalr /* Vector 16+41: RTC alarm through EXTI line interrupt */ + .word stm32_usbwkup /* Vector 16+42: USB wakeup from suspend through EXTI line interrupt*/ + .word stm32_tim8brk /* Vector 16+43: TIM8 Break interrupt */ + .word stm32_tim8up /* Vector 16+44: TIM8 Update interrupt */ + .word stm32_tim8trgcom /* Vector 16+45: TIM8 Trigger and Commutation interrupts */ + .word stm32_tim8cc /* Vector 16+46: TIM8 Capture Compare interrupt */ + .word stm32_adc3 /* Vector 16+47: ADC3 global interrupt */ + .word stm32_fsmc /* Vector 16+48: FSMC global interrupt */ + .word stm32_sdio /* Vector 16+49: SDIO global interrupt */ + .word stm32_tim5 /* Vector 16+50: TIM5 global interrupt */ + .word stm32_spi3 /* Vector 16+51: SPI3 global interrupt */ + .word stm32_uart4 /* Vector 16+52: UART4 global interrupt */ + .word stm32_uart5 /* Vector 16+53: UART5 global interrupt */ + .word stm32_tim6 /* Vector 16+54: TIM6 global interrupt */ + .word stm32_tim7 /* Vector 16+55: TIM7 global interrupt */ + .word stm32_dma2ch1 /* Vector 16+56: DMA2 Channel 1 global interrupt */ + .word stm32_dma2ch2 /* Vector 16+57: DMA2 Channel 2 global interrupt */ + .word stm32_dma2ch3 /* Vector 16+58: DMA2 Channel 3 global interrupt */ + .word stm32_dma2ch45 /* Vector 16+59: DMA2 Channel 4&5 global interrupt */ +#endif + .size stm32_vectors, .-stm32_vectors + +/************************************************************************************ + * .text + ************************************************************************************/ + + .text + .type handlers, function + .thumb_func +handlers: + HANDLER stm32_reserved, STM32_IRQ_RESERVED /* Unexpected/reserved vector */ + HANDLER stm32_nmi, STM32_IRQ_NMI /* Vector 2: Non-Maskable Interrupt (NMI) */ + HANDLER stm32_hardfault, STM32_IRQ_HARDFAULT /* Vector 3: Hard fault */ + HANDLER stm32_mpu, STM32_IRQ_MEMFAULT /* Vector 4: Memory management (MPU) */ + HANDLER stm32_busfault, STM32_IRQ_BUSFAULT /* Vector 5: Bus fault */ + HANDLER stm32_usagefault, STM32_IRQ_USAGEFAULT /* Vector 6: Usage fault */ + HANDLER stm32_svcall, STM32_IRQ_SVCALL /* Vector 11: SVC call */ + HANDLER stm32_dbgmonitor, STM32_IRQ_DBGMONITOR /* Vector 12: Debug Monitor */ + HANDLER stm32_pendsv, STM32_IRQ_PENDSV /* Vector 14: Penable system service request */ + HANDLER stm32_systick, STM32_IRQ_SYSTICK /* Vector 15: System tick */ + +#ifdef CONFIG_STM32_CONNECTIVITY_LINE + HANDLER stm32_wwdg, STM32_IRQ_WWDG /* Vector 16+0: Window Watchdog interrupt */ + HANDLER stm32_pvd, STM32_IRQ_PVD /* Vector 16+1: PVD through EXTI Line detection interrupt */ + HANDLER stm32_tamper, STM32_IRQ_TAMPER /* Vector 16+2: Tamper interrupt */ + HANDLER stm32_rtc, STM32_IRQ_RTC /* Vector 16+3: RTC global interrupt */ + HANDLER stm32_flash, STM32_IRQ_FLASH /* Vector 16+4: Flash global interrupt */ + HANDLER stm32_rcc, STM32_IRQ_RCC /* Vector 16+5: RCC global interrupt */ + HANDLER stm32_exti0, STM32_IRQ_EXTI0 /* Vector 16+6: EXTI Line 0 interrupt */ + HANDLER stm32_exti1, STM32_IRQ_EXTI1 /* Vector 16+7: EXTI Line 1 interrupt */ + HANDLER stm32_exti2, STM32_IRQ_EXTI2 /* Vector 16+8: EXTI Line 2 interrupt */ + HANDLER stm32_exti3, STM32_IRQ_EXTI3 /* Vector 16+9: EXTI Line 3 interrupt */ + HANDLER stm32_exti4, STM32_IRQ_EXTI4 /* Vector 16+10: EXTI Line 4 interrupt */ + HANDLER stm32_dma1ch1, STM32_IRQ_DMA1CH1 /* Vector 16+11: DMA1 Channel 1 global interrupt */ + HANDLER stm32_dma1ch2, STM32_IRQ_DMA1CH2 /* Vector 16+12: DMA1 Channel 2 global interrupt */ + HANDLER stm32_dma1ch3, STM32_IRQ_DMA1CH3 /* Vector 16+13: DMA1 Channel 3 global interrupt */ + HANDLER stm32_dma1ch4, STM32_IRQ_DMA1CH4 /* Vector 16+14: DMA1 Channel 4 global interrupt */ + HANDLER stm32_dma1ch5, STM32_IRQ_DMA1CH5 /* Vector 16+15: DMA1 Channel 5 global interrupt */ + HANDLER stm32_dma1ch6, STM32_IRQ_DMA1CH6 /* Vector 16+16: DMA1 Channel 7 global interrupt */ + HANDLER stm32_adc12, STM32_IRQ_ADC12 /* Vector 16+18: ADC1 and ADC2 global interrupt */ + HANDLER stm32_can1tx, STM32_IRQ_CAN1TX /* Vector 16+19: CAN1 TX interrupts */ + HANDLER stm32_can1rx0, STM32_IRQ_CAN1RX0 /* Vector 16+20: CAN1 RX0 interrupts */ + HANDLER stm32_can1rx, STM32_IRQ_CAN1RX1 /* Vector 16+21: CAN1 RX1 interrupt */ + HANDLER stm32_can1sce, STM32_IRQ_CAN1SCE /* Vector 16+22: CAN1 SCE interrupt */ + HANDLER stm32_exti95, STM32_IRQ_EXTI95 /* Vector 16+23: EXTI Line[9:5] interrupts */ + HANDLER stm32_tim1brk, STM32_IRQ_TIM1BRK /* Vector 16+24: TIM1 Break interrupt */ + HANDLER stm32_tim1up, STM32_IRQ_TIM1UP /* Vector 16+25: TIM1 Update interrupt */ + HANDLER stm32_tim1trgcom, STM32_IRQ_TIM1TRGCOM /* Vector 16+26: TIM1 Trigger and Commutation interrupts */ + HANDLER stm32_tim1cc, STM32_IRQ_TIM1CC /* Vector 16+27: TIM1 Capture Compare interrupt */ + HANDLER stm32_tim2, STM32_IRQ_TIM2 /* Vector 16+28: TIM2 global interrupt */ + HANDLER stm32_tim3, STM32_IRQ_TIM3 /* Vector 16+29: TIM3 global interrupt */ + HANDLER stm32_tim4, STM32_IRQ_TIM4 /* Vector 16+30: TIM4 global interrupt */ + HANDLER stm32_i2c1ev, STM32_IRQ_I2C1EV /* Vector 16+31: I2C1 event interrupt */ + HANDLER stm32_i2c1er, STM32_IRQ_I2C1ER /* Vector 16+32: I2C1 error interrupt */ + HANDLER stm32_i2c2ev, STM32_IRQ_I2C2EV /* Vector 16+33: I2C2 event interrupt */ + HANDLER stm32_i2c2er, STM32_IRQ_I2C2ER /* Vector 16+34: I2C2 error interrupt */ + HANDLER stm32_spi1, STM32_IRQ_SPI1 /* Vector 16+35: SPI1 global interrupt */ + HANDLER stm32_spi2, STM32_IRQ_SPI2 /* Vector 16+36: SPI2 global interrupt */ + HANDLER stm32_usart1, STM32_IRQ_USART1 /* Vector 16+37: USART1 global interrupt */ + HANDLER stm32_usart2, STM32_IRQ_USART2 /* Vector 16+38: USART2 global interrupt */ + HANDLER stm32_usart3, STM32_IRQ_USART3 /* Vector 16+39: USART3 global interrupt */ + HANDLER stm32_exti1510, STM32_IRQ_EXTI1510 /* Vector 16+40: EXTI Line[15:10] interrupts */ + HANDLER stm32_rtcalr, STM32_IRQ_RTCALR /* Vector 16+41: RTC alarm through EXTI line interrupt */ + HANDLER stm32_otgfswkup, STM32_IRQ_OTGFSWKUP /* Vector 16+42: USB On-The-Go FS Wakeup through EXTI line interrupt */ + HANDLER stm32_tim5, STM32_IRQ_TIM5 /* Vector 16+50: TIM5 global interrupt */ + HANDLER stm32_spi3, STM32_IRQ_SPI3 /* Vector 16+51: SPI3 global interrupt */ + HANDLER stm32_uart4 , STM32_IRQ_UART4 /* Vector 16+52: UART4 global interrupt */ + HANDLER stm32_uart5, STM32_IRQ_UART5 /* Vector 16+53: UART5 global interrupt */ + HANDLER stm32_tim6, STM32_IRQ_TIM6 /* Vector 16+54: TIM6 global interrupt */ + HANDLER stm32_tim7, STM32_IRQ_TIM7 /* Vector 16+55: TIM7 global interrupt */ + HANDLER stm32_dma2ch1, STM32_IRQ_DMA2CH1 /* Vector 16+56: DMA2 Channel 1 global interrupt */ + HANDLER stm32_dma2ch2, STM32_IRQ_DMA2CH2 /* Vector 16+57: DMA2 Channel 2 global interrupt */ + HANDLER stm32_dma2ch3, STM32_IRQ_DMA2CH3 /* Vector 16+58: DMA2 Channel 3 global interrupt */ + HANDLER stm32_dma2ch4, STM32_IRQ_DMA2CH4 /* Vector 16+59: DMA2 Channel 4 global interrupt */ + HANDLER stm32_dma2ch5, STM32_IRQ_DMA2CH5 /* Vector 16+60: DMA2 Channel 5 global interrupt */ + HANDLER stm32_eth, STM32_IRQ_ETH /* Vector 16+61: Ethernet global interrupt */ + HANDLER stm32_ethwkup, STM32_IRQ_ETHWKUP /* Vector 16+62: Ethernet Wakeup through EXTI line interrupt */ + HANDLER stm32_can2tx, STM32_IRQ_CAN2TX /* Vector 16+63: CAN2 TX interrupts */ + HANDLER stm32_can2rx0, STM32_IRQ_CAN2RX0 /* Vector 16+64: CAN2 RX0 interrupts */ + HANDLER stm32_can2rx1, STM32_IRQ_CAN2RX1 /* Vector 16+65: CAN2 RX1 interrupt */ + HANDLER stm32_can2sce, STM32_IRQ_CAN2SCE /* Vector 16+66: CAN2 SCE interrupt */ + HANDLER stm32_otgfs, STM32_IRQ_OTGFS /* Vector 16+67: USB On The Go FS global interrupt */ +#else + HANDLER stm32_wwdg, STM32_IRQ_WWDG /* Vector 16+0: Window Watchdog interrupt */ + HANDLER stm32_pvd, STM32_IRQ_PVD /* Vector 16+1: PVD through EXTI Line detection interrupt */ + HANDLER stm32_tamper, STM32_IRQ_TAMPER /* Vector 16+2: Tamper interrupt */ + HANDLER stm32_rtc, STM32_IRQ_RTC /* Vector 16+3: RTC global interrupt */ + HANDLER stm32_flash, STM32_IRQ_FLASH /* Vector 16+4: Flash global interrupt */ + HANDLER stm32_rcc, STM32_IRQ_RCC /* Vector 16+5: RCC global interrupt */ + HANDLER stm32_exti0, STM32_IRQ_EXTI0 /* Vector 16+6: EXTI Line 0 interrupt */ + HANDLER stm32_exti1, STM32_IRQ_EXTI1 /* Vector 16+7: EXTI Line 1 interrupt */ + HANDLER stm32_exti2, STM32_IRQ_EXTI2 /* Vector 16+8: EXTI Line 2 interrupt */ + HANDLER stm32_exti3, STM32_IRQ_EXTI3 /* Vector 16+9: EXTI Line 3 interrupt */ + HANDLER stm32_exti4, STM32_IRQ_EXTI4 /* Vector 16+10: EXTI Line 4 interrupt */ + HANDLER stm32_dma1ch1, STM32_IRQ_DMA1CH1 /* Vector 16+11: DMA1 Channel 1 global interrupt */ + HANDLER stm32_dma1ch2, STM32_IRQ_DMA1CH2 /* Vector 16+12: DMA1 Channel 2 global interrupt */ + HANDLER stm32_dma1ch3, STM32_IRQ_DMA1CH3 /* Vector 16+13: DMA1 Channel 3 global interrupt */ + HANDLER stm32_dma1ch4, STM32_IRQ_DMA1CH4 /* Vector 16+14: DMA1 Channel 4 global interrupt */ + HANDLER stm32_dma1ch5, STM32_IRQ_DMA1CH5 /* Vector 16+15: DMA1 Channel 5 global interrupt */ + HANDLER stm32_dma1ch6, STM32_IRQ_DMA1CH6 /* Vector 16+16: DMA1 Channel 6 global interrupt */ + HANDLER stm32_dma1ch7, STM32_IRQ_DMA1CH7 /* Vector 16+17: DMA1 Channel 7 global interrupt */ + HANDLER stm32_adc12, STM32_IRQ_ADC12 /* Vector 16+18: ADC1 and ADC2 global interrupt */ + HANDLER stm32_usbhpcantx, STM32_IRQ_USBHPCANTX /* Vector 16+19: USB High Priority or CAN TX interrupts*/ + HANDLER stm32_usblpcanrx0, STM32_IRQ_USBLPCANRX0 /* Vector 16+20: USB Low Priority or CAN RX0 interrupts*/ + HANDLER stm32_can1rx1, STM32_IRQ_CAN1RX1 /* Vector 16+21: CAN1 RX1 interrupt */ + HANDLER stm32_can1sce, STM32_IRQ_CAN1SCE /* Vector 16+22: CAN1 SCE interrupt */ + HANDLER stm32_exti95, STM32_IRQ_EXTI95 /* Vector 16+23: EXTI Line[9:5] interrupts */ + HANDLER stm32_tim1brk, STM32_IRQ_TIM1BRK /* Vector 16+24: TIM1 Break interrupt */ + HANDLER stm32_tim1up, STM32_IRQ_TIM1UP /* Vector 16+25: TIM1 Update interrupt */ + HANDLER stm32_tim1rtgcom, STM32_IRQ_TIM1TRGCOM /* Vector 16+26: TIM1 Trigger and Commutation interrupts */ + HANDLER stm32_tim1cc, STM32_IRQ_TIM1CC /* Vector 16+27: TIM1 Capture Compare interrupt */ + HANDLER stm32_tim2, STM32_IRQ_TIM2 /* Vector 16+28: TIM2 global interrupt */ + HANDLER stm32_tim3, STM32_IRQ_TIM3 /* Vector 16+29: TIM3 global interrupt */ + HANDLER stm32_tim4, STM32_IRQ_TIM4 /* Vector 16+30: TIM4 global interrupt */ + HANDLER stm32_i2c1ev, STM32_IRQ_I2C1EV /* Vector 16+31: I2C1 event interrupt */ + HANDLER stm32_i2c1er, STM32_IRQ_I2C1ER /* Vector 16+32: I2C1 error interrupt */ + HANDLER stm32_i2c2ev, STM32_IRQ_I2C2EV /* Vector 16+33: I2C2 event interrupt */ + HANDLER stm32_i2c2er, STM32_IRQ_I2C2ER /* Vector 16+34: I2C2 error interrupt */ + HANDLER stm32_spi1, STM32_IRQ_SPI1 /* Vector 16+35: SPI1 global interrupt */ + HANDLER stm32_spi2, STM32_IRQ_SPI2 /* Vector 16+36: SPI2 global interrupt */ + HANDLER stm32_usart1, STM32_IRQ_USART1 /* Vector 16+37: USART1 global interrupt */ + HANDLER stm32_usart2, STM32_IRQ_USART2 /* Vector 16+38: USART2 global interrupt */ + HANDLER stm32_usart3, STM32_IRQ_USART3 /* Vector 16+39: USART3 global interrupt */ + HANDLER stm32_exti1510, STM32_IRQ_EXTI1510 /* Vector 16+40: EXTI Line[15:10] interrupts */ + HANDLER stm32_rtcalr, STM32_IRQ_RTCALR /* Vector 16+41: RTC alarm through EXTI line interrupt */ + HANDLER stm32_usbwkup, STM32_IRQ_USBWKUP /* Vector 16+42: USB wakeup from suspend through EXTI line interrupt*/ + HANDLER stm32_tim8brk, STM32_IRQ_TIM8BRK /* Vector 16+43: TIM8 Break interrupt */ + HANDLER stm32_tim8up, STM32_IRQ_TIM8UP /* Vector 16+44: TIM8 Update interrupt */ + HANDLER stm32_tim8trgcom, STM32_IRQ_TIM8TRGCOM /* Vector 16+45: TIM8 Trigger and Commutation interrupts */ + HANDLER stm32_tim8cc, STM32_IRQ_TIM8CC /* Vector 16+46: TIM8 Capture Compare interrupt */ + HANDLER stm32_adc3, STM32_IRQ_ADC3 /* Vector 16+47: ADC3 global interrupt */ + HANDLER stm32_fsmc, STM32_IRQ_FSMC /* Vector 16+48: FSMC global interrupt */ + HANDLER stm32_sdio, STM32_IRQ_SDIO /* Vector 16+49: SDIO global interrupt */ + HANDLER stm32_tim5, STM32_IRQ_TIM5 /* Vector 16+50: TIM5 global interrupt */ + HANDLER stm32_spi3, STM32_IRQ_SPI3 /* Vector 16+51: SPI3 global interrupt */ + HANDLER stm32_uart4, STM32_IRQ_UART4 /* Vector 16+52: UART4 global interrupt */ + HANDLER stm32_uart5, STM32_IRQ_UART5 /* Vector 16+53: UART5 global interrupt */ + HANDLER stm32_tim6, STM32_IRQ_TIM6 /* Vector 16+54: TIM6 global interrupt */ + HANDLER stm32_tim7, STM32_IRQ_TIM7 /* Vector 16+55: TIM7 global interrupt */ + HANDLER stm32_dma2ch1, STM32_IRQ_DMA2CH1 /* Vector 16+56: DMA2 Channel 1 global interrupt */ + HANDLER stm32_dma2ch2, STM32_IRQ_DMA2CH2 /* Vector 16+57: DMA2 Channel 2 global interrupt */ + HANDLER stm32_dma2ch3, STM32_IRQ_DMA2CH3 /* Vector 16+58: DMA2 Channel 3 global interrupt */ + HANDLER stm32_dma2ch45, STM32_IRQ_DMA2CH45 /* Vector 16+59: DMA2 Channel 4&5 global interrupt */ +#endif + +/* Common IRQ handling logic. On entry here, the stack is like the following: + * + * REG_XPSR + * REG_R15 + * REG_R14 + * REG_R12 + * REG_R3 + * REG_R2 + * REG_R1 + * MSP->REG_R0 + * + * and R0 contains the IRQ number + */ + +stm32_common: + + /* Complete the context save */ + + mrs r1, msp /* R1=The main stack pointer */ + mov r2, r1 /* R2=Copy of the main stack pointer */ + add r2, #HW_XCPT_SIZE /* R2=MSP before the interrupt was taken */ + mrs r3, primask /* R3=Current PRIMASK setting */ + stmdb r1!, {r2-r11} /* Save the remaining registers plus the SP value */ + + /* Disable interrupts, select the stack to use for interrupt handling + * and call up_doirq to handle the interrupt + */ + + cpsid i /* Disable further interrupts */ + + /* If CONFIG_ARCH_INTERRUPTSTACK is defined, we will use a special interrupt + * stack pointer. The way that this is done here prohibits nested interrupts! + * Otherwise, we will re-use the main stack for interrupt level processing. + */ + +#ifdef CONFIG_ARCH_INTERRUPTSTACK + ldr sp, =g_intstackbase + str r1, [sp, #-4]! /* Save the MSP on the interrupt stack */ + bl up_doirq /* R0=IRQ, R1=register save (msp) */ + ldr r1, [sp, #+4]! /* Recover R1=main stack pointer */ +#else + mov sp, r1 /* We are using the main stack pointer */ + bl up_doirq /* R0=IRQ, R1=register save (msp) */ + mov r1, sp /* Recover R1=main stack pointer */ +#endif + + /* On return from up_doirq, R0 will hold a pointer to register context + * array to use for the interrupt return. If that return value is the same + * as current stack pointer, then things are relatively easy. + */ + + cmp r0, r1 /* Context switch? */ + beq 1f /* Branch if no context switch */ + + /* We are returning with a pending context switch. This case is different + * because in this case, the register save structure does not lie on the + * stack but, rather, are within a TCB structure. We'll have to copy some + * values to the stack. + */ + + add r1, r0, #SW_XCPT_SIZE /* R1=Address of HW save area in reg array */ + ldmia r1, {r4-r11} /* Fetch eight registers in HW save area */ + ldr r1, [r0, #(4*REG_SP)] /* R1=Value of SP before interrupt */ + stmdb r1!, {r4-r11} /* Store eight registers in HW save area */ + ldmia r0, {r2-r11} /* Recover R4-R11 + 2 temp values */ + b 2f /* Re-join common logic */ + + /* We are returning with no context switch. We simply need to "unwind" + * the same stack frame that we created + */ +1: + ldmia r1!, {r2-r11} /* Recover R4-R11 + 2 temp values */ +2: + msr msp, r1 /* Recover the return MSP value */ + + /* Restore the interrupt state. Preload r14 with the special return + * value first (so that the return actually occurs with interrupts + * still disabled). + */ + + ldr r14, =EXC_RETURN /* Load the special value */ + msr primask, r3 /* Restore interrupts */ + + /* Always return with R14 containing the special value that will: (1) + * return to thread mode, and (2) continue to use the MSP + */ + + bx r14 /* And return */ + .size handlers, .-handlers + +/************************************************************************************ + * Name: up_interruptstack/g_intstackbase + * + * Description: + * Shouldn't happen + * + ************************************************************************************/ + +#if CONFIG_ARCH_INTERRUPTSTACK > 3 + .bss + .global g_intstackbase + .align 4 +up_interruptstack: + .skip (CONFIG_ARCH_INTERRUPTSTACK & ~3) +g_intstackbase: + .size up_interruptstack, .-up_interruptstack +#endif + +/************************************************************************************ + * .rodata + ************************************************************************************/ + + .section .rodata, "a" + +/* Variables: _sbss is the start of the BSS region (see ld.script) _ebss is the end + * of the BSS regsion (see ld.script). The idle task stack starts at the end of BSS + * and is of size CONFIG_IDLETHREAD_STACKSIZE. The IDLE thread is the thread that + * the system boots on and, eventually, becomes the idle, do nothing task that runs + * only when there is nothing else to run. The heap continues from there until the + * end of memory. See g_heapbase below. + */ + + .globl g_heapbase + .type g_heapbase, object +g_heapbase: + .long _ebss+CONFIG_IDLETHREAD_STACKSIZE + .size g_heapbase, .-g_heapbase + + .end +