/************************************************************************************ * arch/arm/include/kinetis/irq.h * * Copyright (C) 2011, 2015 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. * ************************************************************************************/ /* This file should never be included directed but, rather, only indirectly through * nuttx/irq.h */ #ifndef __ARCH_ARM_INCLUDE_KINETIS_IRQ_H #define __ARCH_ARM_INCLUDE_KINETIS_IRQ_H /************************************************************************************ * Included Files ************************************************************************************/ #include #include /************************************************************************************ * Pre-processor Definitions ************************************************************************************/ /* IRQ numbers **********************************************************************/ /* The IRQ numbers corresponds directly to vector numbers and hence map directly to * bits in the NVIC. This does, however, waste several words of memory in the IRQ * to handle mapping tables. */ /* Processor Exceptions (vectors 0-15) */ #define KINETIS_IRQ_RESERVED (0) /* Reserved vector (only used with CONFIG_DEBUG) */ /* Vector 0: Reset stack pointer value */ /* Vector 1: Reset (not handler as an IRQ) */ #define KINETIS_IRQ_NMI (2) /* Vector 2: Non-Maskable Interrupt (NMI) */ #define KINETIS_IRQ_HARDFAULT (3) /* Vector 3: Hard fault */ #define KINETIS_IRQ_MEMFAULT (4) /* Vector 4: Memory management (MPU) */ #define KINETIS_IRQ_BUSFAULT (5) /* Vector 5: Bus fault */ #define KINETIS_IRQ_USAGEFAULT (6) /* Vector 6: Usage fault */ /* Vectors 7-10: Reserved */ #define KINETIS_IRQ_SVCALL (11) /* Vector 11: SVC call */ #define KINETIS_IRQ_DBGMONITOR (12) /* Vector 12: Debug Monitor */ /* Vector 13: Reserved */ #define KINETIS_IRQ_PENDSV (14) /* Vector 14: Pendable system service request */ #define KINETIS_IRQ_SYSTICK (15) /* Vector 15: System tick */ /* External interrupts (vectors >= 16) */ #define KINETIS_IRQ_EXTINT (16) /* K20 Family *********************************************************************** * * The interrupt vectors for the following parts is defined in Freescale document * K20P64M72SF1RM */ #if defined(CONFIG_ARCH_CHIP_MK20DX256VLH7) # define KINETIS_IRQ_DMACH0 (16) /* Vector 16: DMA channel 0 transfer complete */ # define KINETIS_IRQ_DMACH1 (17) /* Vector 17: DMA channel 1 transfer complete */ # define KINETIS_IRQ_DMACH2 (18) /* Vector 18: DMA channel 2 transfer complete */ # define KINETIS_IRQ_DMACH3 (19) /* Vector 19: DMA channel 3 transfer complete */ # define KINETIS_IRQ_DMACH4 (20) /* Vector 20: DMA channel 4 transfer complete */ # define KINETIS_IRQ_DMACH5 (21) /* Vector 21: DMA channel 5 transfer complete */ # define KINETIS_IRQ_DMACH6 (22) /* Vector 22: DMA channel 6 transfer complete */ # define KINETIS_IRQ_DMACH7 (23) /* Vector 23: DMA channel 7 transfer complete */ # define KINETIS_IRQ_DMACH8 (24) /* Vector 24: DMA channel 8 transfer complete */ # define KINETIS_IRQ_DMACH9 (25) /* Vector 25: DMA channel 9 transfer complete */ # define KINETIS_IRQ_DMACH10 (26) /* Vector 26: DMA channel 10 transfer complete */ # define KINETIS_IRQ_DMACH11 (27) /* Vector 27: DMA channel 11 transfer complete */ # define KINETIS_IRQ_DMACH12 (28) /* Vector 28: DMA channel 12 transfer complete */ # define KINETIS_IRQ_DMACH13 (29) /* Vector 29: DMA channel 13 transfer complete */ # define KINETIS_IRQ_DMACH14 (30) /* Vector 30: DMA channel 14 transfer complete */ # define KINETIS_IRQ_DMACH15 (31) /* Vector 31: DMA channel 15 transfer complete */ # define KINETIS_IRQ_DMAERR (32) /* Vector 32: DMA error interrupt channels 0-15 */ # define KINETIS_IRQ_FLASHCC (34) /* Vector 34: Flash memory command complete */ # define KINETIS_IRQ_FLASHRC (35) /* Vector 35: Flash memory read collision */ # define KINETIS_IRQ_SMCLVD (36) /* Vector 36: Mode Controller low-voltage * detect, low-voltage warning */ # define KINETIS_IRQ_LLWU (37) /* Vector 37: LLWU Normal Low Leakage Wakeup */ # define KINETIS_IRQ_WDOG (38) /* Vector 38: Watchdog */ # define KINETIS_IRQ_I2C0 (40) /* Vector 40: I2C0 */ # define KINETIS_IRQ_I2C1 (41) /* Vector 41: I2C1 */ # define KINETIS_IRQ_SPI0 (42) /* Vector 42: SPI0 all sources */ # define KINETIS_IRQ_SPI1 (43) /* Vector 43: SPI1 all sources */ # define KINETIS_IRQ_CAN0MB (45) /* Vector 45: CAN0 OR'ed Message buffer (0-15) */ # define KINETIS_IRQ_CAN0BO (46) /* Vector 46: CAN0 Bus Off */ # define KINETIS_IRQ_CAN0ERR (47) /* Vector 47: CAN0 Error */ # define KINETIS_IRQ_CAN0TW (48) /* Vector 48: CAN0 Transmit Warning */ # define KINETIS_IRQ_CAN0RW (49) /* Vector 49: CAN0 Receive Warning */ # define KINETIS_IRQ_CAN0WU (50) /* Vector 50: CAN0 Wake UP */ //TODO UART0_LON # define KINETIS_IRQ_UART0S (61) /* Vector 61: UART0 status */ # define KINETIS_IRQ_UART0E (62) /* Vector 62: UART0 error */ # define KINETIS_IRQ_UART1S (63) /* Vector 63: UART1 status */ # define KINETIS_IRQ_UART1E (64) /* Vector 64: UART1 error */ # define KINETIS_IRQ_UART2S (65) /* Vector 65: UART2 status */ # define KINETIS_IRQ_UART2E (66) /* Vector 66: UART2 error */ # define KINETIS_IRQ_ADC0 (73) /* Vector 73: ADC0 */ # define KINETIS_IRQ_ADC1 (74) /* Vector 74: ADC1 */ # define KINETIS_IRQ_CMP0 (75) /* Vector 75: CMP0 */ # define KINETIS_IRQ_CMP1 (76) /* Vector 76: CMP1 */ # define KINETIS_IRQ_CMP2 (77) /* Vector 77: CMP2 */ # define KINETIS_IRQ_FTM0 (78) /* Vector 78: FTM0 all sources */ # define KINETIS_IRQ_FTM1 (79) /* Vector 79: FTM1 all sources */ # define KINETIS_IRQ_FTM2 (80) /* Vector 80: FTM2 all sources */ # define KINETIS_IRQ_CMT (81) /* Vector 81: CMT */ # define KINETIS_IRQ_RTC (82) /* Vector 82: RTC alarm interrupt */ //TODO RTC_SECOND # define KINETIS_IRQ_PITCH0 (84) /* Vector 84: PIT channel 0 */ # define KINETIS_IRQ_PITCH1 (85) /* Vector 85: PIT channel 1 */ # define KINETIS_IRQ_PITCH2 (86) /* Vector 86: PIT channel 2 */ # define KINETIS_IRQ_PITCH3 (87) /* Vector 87: PIT channel 3 */ # define KINETIS_IRQ_PDB (88) /* Vector 88: PDB */ # define KINETIS_IRQ_USBOTG (89) /* Vector 88: USB OTG */ # define KINETIS_IRQ_USBCD (90) /* Vector 90: USB charger detect */ # define KINETIS_IRQ_DAC0 (97) /* Vector 97: DAC0 */ # define KINETIS_IRQ_TSI (99) /* Vector 97: TSI all sources */ # define KINETIS_IRQ_MCG (100) /* Vector 100: MCG */ # define KINETIS_IRQ_LPT (101) /* Vector 101: Low power timer */ # define KINETIS_IRQ_PORTA (103) /* Vector 103: Pin detect port A */ # define KINETIS_IRQ_PORTB (104) /* Vector 104: Pin detect port B */ # define KINETIS_IRQ_PORTC (105) /* Vector 105: Pin detect port C */ # define KINETIS_IRQ_PORTD (106) /* Vector 106: Pin detect port D */ # define KINETIS_IRQ_PORTE (107) /* Vector 107: Pin detect port E */ # define KINETIS_IRQ_SWI (110) /* Vector 110: Software interrupt */ # define NR_VECTORS (111) /* 111 vectors */ # define NR_IRQS (111) /* 94 interrupts but 111 IRQ numbers */ /* K40 Family *********************************************************************** * * The interrupt vectors for the following parts is defined in Freescale document * K40P144M100SF2RM */ #elif defined(CONFIG_ARCH_CHIP_MK40X128VLQ100) || defined(CONFIG_ARCH_CHIP_MK40X128VMD100) || \ defined(CONFIG_ARCH_CHIP_MK40X256VLQ100) || defined(CONFIG_ARCH_CHIP_MK40X256VMD100) || \ defined(CONFIG_ARCH_CHIP_MK40N512VLQ100) || defined(CONFIG_ARCH_CHIP_MK40N512VMD100) # define KINETIS_IRQ_DMACH0 (16) /* Vector 16: DMA channel 0 transfer complete */ # define KINETIS_IRQ_DMACH1 (17) /* Vector 17: DMA channel 1 transfer complete */ # define KINETIS_IRQ_DMACH2 (18) /* Vector 18: DMA channel 2 transfer complete */ # define KINETIS_IRQ_DMACH3 (19) /* Vector 19: DMA channel 3 transfer complete */ # define KINETIS_IRQ_DMACH4 (20) /* Vector 20: DMA channel 4 transfer complete */ # define KINETIS_IRQ_DMACH5 (21) /* Vector 21: DMA channel 5 transfer complete */ # define KINETIS_IRQ_DMACH6 (22) /* Vector 22: DMA channel 6 transfer complete */ # define KINETIS_IRQ_DMACH7 (23) /* Vector 23: DMA channel 7 transfer complete */ # define KINETIS_IRQ_DMACH8 (24) /* Vector 24: DMA channel 8 transfer complete */ # define KINETIS_IRQ_DMACH9 (25) /* Vector 25: DMA channel 9 transfer complete */ # define KINETIS_IRQ_DMACH10 (26) /* Vector 26: DMA channel 10 transfer complete */ # define KINETIS_IRQ_DMACH11 (27) /* Vector 27: DMA channel 11 transfer complete */ # define KINETIS_IRQ_DMACH12 (28) /* Vector 28: DMA channel 12 transfer complete */ # define KINETIS_IRQ_DMACH13 (29) /* Vector 29: DMA channel 13 transfer complete */ # define KINETIS_IRQ_DMACH14 (30) /* Vector 30: DMA channel 14 transfer complete */ # define KINETIS_IRQ_DMACH15 (31) /* Vector 31: DMA channel 15 transfer complete */ # define KINETIS_IRQ_DMAERR (32) /* Vector 32: DMA error interrupt channels 0-15 */ # define KINETIS_IRQ_MCM (33) /* Vector 33: MCM Normal interrupt */ # define KINETIS_IRQ_FLASHCC (34) /* Vector 34: Flash memory command complete */ # define KINETIS_IRQ_FLASHRC (35) /* Vector 35: Flash memory read collision */ # define KINETIS_IRQ_SMCLVD (36) /* Vector 36: Mode Controller low-voltage * detect, low-voltage warning */ # define KINETIS_IRQ_LLWU (37) /* Vector 37: LLWU Normal Low Leakage Wakeup */ # define KINETIS_IRQ_WDOG (38) /* Vector 38: Watchdog */ /* Vector 39: Reserved */ # define KINETIS_IRQ_I2C0 (40) /* Vector 40: I2C0 */ # define KINETIS_IRQ_I2C1 (41) /* Vector 41: I2C1 */ # define KINETIS_IRQ_SPI0 (42) /* Vector 42: SPI0 all sources */ # define KINETIS_IRQ_SPI1 (43) /* Vector 43: SPI1 all sources */ # define KINETIS_IRQ_SPI2 (44) /* Vector 44: SPI2 all sources */ # define KINETIS_IRQ_CAN0MB (45) /* Vector 45: CAN0 OR'ed Message buffer (0-15) */ # define KINETIS_IRQ_CAN0BO (46) /* Vector 46: CAN0 Bus Off */ # define KINETIS_IRQ_CAN0ERR (47) /* Vector 47: CAN0 Error */ # define KINETIS_IRQ_CAN0TW (48) /* Vector 48: CAN0 Transmit Warning */ # define KINETIS_IRQ_CAN0RW (49) /* Vector 49: CAN0 Receive Warning */ # define KINETIS_IRQ_CAN0WU (50) /* Vector 50: CAN0 Wake UP */ /* Vectors 51-52: Reserved */ # define KINETIS_IRQ_CAN1MB (53) /* Vector 53: CAN1 OR'ed Message buffer (0-15) */ # define KINETIS_IRQ_CAN1BO (54) /* Vector 54: CAN1 Bus Off */ # define KINETIS_IRQ_CAN1ERR (55) /* Vector 55: CAN1 Error */ # define KINETIS_IRQ_CAN1TW (56) /* Vector 56: CAN1 Transmit Warning */ # define KINETIS_IRQ_CAN1RW (57) /* Vector 57: CAN1 Receive Warning */ # define KINETIS_IRQ_CAN1WU (58) /* Vector 58: CAN1 Wake UP */ /* Vectors 59-60: Reserved */ # define KINETIS_IRQ_UART0S (61) /* Vector 61: UART0 status */ # define KINETIS_IRQ_UART0E (62) /* Vector 62: UART0 error */ # define KINETIS_IRQ_UART1S (63) /* Vector 63: UART1 status */ # define KINETIS_IRQ_UART1E (64) /* Vector 64: UART1 error */ # define KINETIS_IRQ_UART2S (65) /* Vector 65: UART2 status */ # define KINETIS_IRQ_UART2E (66) /* Vector 66: UART2 error */ # define KINETIS_IRQ_UART3S (67) /* Vector 67: UART3 status */ # define KINETIS_IRQ_UART3E (68) /* Vector 68: UART3 error */ # define KINETIS_IRQ_UART4S (69) /* Vector 69: UART4 status */ # define KINETIS_IRQ_UART4E (70) /* Vector 70: UART4 error */ # define KINETIS_IRQ_UART5S (71) /* Vector 71: UART5 status */ # define KINETIS_IRQ_UART5E (72) /* Vector 72: UART5 error */ # define KINETIS_IRQ_ADC0 (73) /* Vector 73: ADC0 */ # define KINETIS_IRQ_ADC1 (74) /* Vector 74: ADC1 */ # define KINETIS_IRQ_CMP0 (75) /* Vector 75: CMP0 */ # define KINETIS_IRQ_CMP1 (76) /* Vector 76: CMP1 */ # define KINETIS_IRQ_CMP2 (77) /* Vector 77: CMP2 */ # define KINETIS_IRQ_FTM0 (78) /* Vector 78: FTM0 all sources */ # define KINETIS_IRQ_FTM1 (79) /* Vector 79: FTM1 all sources */ # define KINETIS_IRQ_FTM2 (80) /* Vector 80: FTM2 all sources */ # define KINETIS_IRQ_CMT (81) /* Vector 81: CMT */ # define KINETIS_IRQ_RTC (82) /* Vector 82: RTC alarm interrupt */ /* Vector 83: Reserved */ # define KINETIS_IRQ_PITCH0 (84) /* Vector 84: PIT channel 0 */ # define KINETIS_IRQ_PITCH1 (85) /* Vector 85: PIT channel 1 */ # define KINETIS_IRQ_PITCH2 (86) /* Vector 86: PIT channel 2 */ # define KINETIS_IRQ_PITCH3 (87) /* Vector 87: PIT channel 3 */ # define KINETIS_IRQ_PDB (88) /* Vector 88: PDB */ # define KINETIS_IRQ_USBOTG (89) /* Vector 88: USB OTG */ # define KINETIS_IRQ_USBCD (90) /* Vector 90: USB charger detect */ /* Vectors 91-94: Reserved */ # define KINETIS_IRQ_I2S0 (95) /* Vector 95: I2S0 */ # define KINETIS_IRQ_SDHC (96) /* Vector 96: SDHC */ # define KINETIS_IRQ_DAC0 (97) /* Vector 97: DAC0 */ # define KINETIS_IRQ_DAC1 (98) /* Vector 98: DAC1 */ # define KINETIS_IRQ_TSI (99) /* Vector 97: TSI all sources */ # define KINETIS_IRQ_MCG (100) /* Vector 100: MCG */ # define KINETIS_IRQ_LPT (101) /* Vector 101: Low power timer */ # define KINETIS_IRQ_SLCD (102) /* Vector 102: Segment LCD all sources */ # define KINETIS_IRQ_PORTA (103) /* Vector 103: Pin detect port A */ # define KINETIS_IRQ_PORTB (104) /* Vector 104: Pin detect port B */ # define KINETIS_IRQ_PORTC (105) /* Vector 105: Pin detect port C */ # define KINETIS_IRQ_PORTD (106) /* Vector 106: Pin detect port D */ # define KINETIS_IRQ_PORTE (107) /* Vector 107: Pin detect port E */ /* Vectors 108-109: Reserved */ # define KINETIS_IRQ_SWI (110) /* Vector 110: Software interrupt */ /* Note that the total number of IRQ numbers supported is equal to the number of * valid interrupt vectors. This is wasteful in that certain tables are sized by * this value. There are only 94 valid interrupts so, potentially the numver of * IRQs to could be reduced to 94. However, equating IRQ numbers with vector numbers * also simplifies operations on NVIC registers and (at least in my state of mind * now) seems to justify the waste. */ # define NR_VECTORS (111) /* 111 vectors */ # define NR_IRQS (111) /* 94 interrupts but 111 IRQ numbers */ /* K60 Family *********************************************************************** * * The memory map for the following parts is defined in Freescale document * K60P144M100SF2RM */ #elif defined(CONFIG_ARCH_CHIP_MK60N256VLQ100) || defined(CONFIG_ARCH_CHIP_MK60X256VLQ100) || \ defined(CONFIG_ARCH_CHIP_MK60N512VLQ100) || defined(CONFIG_ARCH_CHIP_MK60N256VMD100) || \ defined(CONFIG_ARCH_CHIP_MK60X256VMD100) || defined(CONFIG_ARCH_CHIP_MK60N512VMD100) # define KINETIS_IRQ_DMACH0 (16) /* Vector 16: DMA channel 0 transfer complete */ # define KINETIS_IRQ_DMACH1 (17) /* Vector 17: DMA channel 1 transfer complete */ # define KINETIS_IRQ_DMACH2 (18) /* Vector 18: DMA channel 2 transfer complete */ # define KINETIS_IRQ_DMACH3 (19) /* Vector 19: DMA channel 3 transfer complete */ # define KINETIS_IRQ_DMACH4 (20) /* Vector 20: DMA channel 4 transfer complete */ # define KINETIS_IRQ_DMACH5 (21) /* Vector 21: DMA channel 5 transfer complete */ # define KINETIS_IRQ_DMACH6 (22) /* Vector 22: DMA channel 6 transfer complete */ # define KINETIS_IRQ_DMACH7 (23) /* Vector 23: DMA channel 7 transfer complete */ # define KINETIS_IRQ_DMACH8 (24) /* Vector 24: DMA channel 8 transfer complete */ # define KINETIS_IRQ_DMACH9 (25) /* Vector 25: DMA channel 9 transfer complete */ # define KINETIS_IRQ_DMACH10 (26) /* Vector 26: DMA channel 10 transfer complete */ # define KINETIS_IRQ_DMACH11 (27) /* Vector 27: DMA channel 11 transfer complete */ # define KINETIS_IRQ_DMACH12 (28) /* Vector 28: DMA channel 12 transfer complete */ # define KINETIS_IRQ_DMACH13 (29) /* Vector 29: DMA channel 13 transfer complete */ # define KINETIS_IRQ_DMACH14 (30) /* Vector 30: DMA channel 14 transfer complete */ # define KINETIS_IRQ_DMACH15 (31) /* Vector 31: DMA channel 15 transfer complete */ # define KINETIS_IRQ_DMAERR (32) /* Vector 32: DMA error interrupt channels 0-15 */ # define KINETIS_IRQ_MCM (33) /* Vector 33: MCM Normal interrupt */ # define KINETIS_IRQ_FLASHCC (34) /* Vector 34: Flash memory command complete */ # define KINETIS_IRQ_FLASHRC (35) /* Vector 35: Flash memory read collision */ # define KINETIS_IRQ_SMCLVD (36) /* Vector 36: Mode Controller low-voltage * detect, low-voltage warning */ # define KINETIS_IRQ_LLWU (37) /* Vector 37: LLWU Normal Low Leakage Wakeup */ # define KINETIS_IRQ_WDOG (38) /* Vector 38: Watchdog */ # define KINETIS_IRQ_RNGB (39) /* Vector 39: Random number generator */ # define KINETIS_IRQ_I2C0 (40) /* Vector 40: I2C0 */ # define KINETIS_IRQ_I2C1 (41) /* Vector 41: I2C1 */ # define KINETIS_IRQ_SPI0 (42) /* Vector 42: SPI0 all sources */ # define KINETIS_IRQ_SPI1 (43) /* Vector 43: SPI1 all sources */ # define KINETIS_IRQ_SPI2 (44) /* Vector 44: SPI2 all sources */ # define KINETIS_IRQ_CAN0MB (45) /* Vector 45: CAN0 OR'ed Message buffer (0-15) */ # define KINETIS_IRQ_CAN0BO (46) /* Vector 46: CAN0 Bus Off */ # define KINETIS_IRQ_CAN0ERR (47) /* Vector 47: CAN0 Error */ # define KINETIS_IRQ_CAN0TW (48) /* Vector 48: CAN0 Transmit Warning */ # define KINETIS_IRQ_CAN0RW (49) /* Vector 49: CAN0 Receive Warning */ # define KINETIS_IRQ_CAN0WU (50) /* Vector 50: CAN0 Wake UP */ /* Vectors 51-52: Reserved */ # define KINETIS_IRQ_CAN1MB (53) /* Vector 53: CAN1 OR'ed Message buffer (0-15) */ # define KINETIS_IRQ_CAN1BO (54) /* Vector 54: CAN1 Bus Off */ # define KINETIS_IRQ_CAN1ERR (55) /* Vector 55: CAN1 Error */ # define KINETIS_IRQ_CAN1TW (56) /* Vector 56: CAN1 Transmit Warning */ # define KINETIS_IRQ_CAN1RW (57) /* Vector 57: CAN1 Receive Warning */ # define KINETIS_IRQ_CAN1WU (58) /* Vector 58: CAN1 Wake UP */ /* Vectors 59-60: Reserved */ # define KINETIS_IRQ_UART0S (61) /* Vector 61: UART0 status */ # define KINETIS_IRQ_UART0E (62) /* Vector 62: UART0 error */ # define KINETIS_IRQ_UART1S (63) /* Vector 63: UART1 status */ # define KINETIS_IRQ_UART1E (64) /* Vector 64: UART1 error */ # define KINETIS_IRQ_UART2S (65) /* Vector 65: UART2 status */ # define KINETIS_IRQ_UART2E (66) /* Vector 66: UART2 error */ # define KINETIS_IRQ_UART3S (67) /* Vector 67: UART3 status */ # define KINETIS_IRQ_UART3E (68) /* Vector 68: UART3 error */ # define KINETIS_IRQ_UART4S (69) /* Vector 69: UART4 status */ # define KINETIS_IRQ_UART4E (70) /* Vector 70: UART4 error */ # define KINETIS_IRQ_UART5S (71) /* Vector 71: UART5 status */ # define KINETIS_IRQ_UART5E (72) /* Vector 72: UART5 error */ # define KINETIS_IRQ_ADC0 (73) /* Vector 73: ADC0 */ # define KINETIS_IRQ_ADC1 (74) /* Vector 74: ADC1 */ # define KINETIS_IRQ_CMP0 (75) /* Vector 75: CMP0 */ # define KINETIS_IRQ_CMP1 (76) /* Vector 76: CMP1 */ # define KINETIS_IRQ_CMP2 (77) /* Vector 77: CMP2 */ # define KINETIS_IRQ_FTM0 (78) /* Vector 78: FTM0 all sources */ # define KINETIS_IRQ_FTM1 (79) /* Vector 79: FTM1 all sources */ # define KINETIS_IRQ_FTM2 (80) /* Vector 80: FTM2 all sources */ # define KINETIS_IRQ_CMT (81) /* Vector 81: CMT */ # define KINETIS_IRQ_RTC (82) /* Vector 82: RTC alarm interrupt */ /* Vector 83: Reserved */ # define KINETIS_IRQ_PITCH0 (84) /* Vector 84: PIT channel 0 */ # define KINETIS_IRQ_PITCH1 (85) /* Vector 85: PIT channel 1 */ # define KINETIS_IRQ_PITCH2 (86) /* Vector 86: PIT channel 2 */ # define KINETIS_IRQ_PITCH3 (87) /* Vector 87: PIT channel 3 */ # define KINETIS_IRQ_PDB (88) /* Vector 88: PDB */ # define KINETIS_IRQ_USBOTG (89) /* Vector 88: USB OTG */ # define KINETIS_IRQ_USBCD (90) /* Vector 90: USB charger detect */ # define KINETIS_IRQ_EMACTMR (91) /* Vector 91: Ethernet MAC IEEE 1588 timer interrupt */ # define KINETIS_IRQ_EMACTX (92) /* Vector 92: Ethernet MAC transmit interrupt */ # define KINETIS_IRQ_EMACRX (93) /* Vector 93: Ethernet MAC receive interrupt */ # define KINETIS_IRQ_EMACMISC (94) /* Vector 94: Ethernet MAC error and misc interrupt */ # define KINETIS_IRQ_I2S0 (95) /* Vector 95: I2S0 */ # define KINETIS_IRQ_SDHC (96) /* Vector 96: SDHC */ # define KINETIS_IRQ_DAC0 (97) /* Vector 97: DAC0 */ # define KINETIS_IRQ_DAC1 (98) /* Vector 98: DAC1 */ # define KINETIS_IRQ_TSI (99) /* Vector 97: TSI all sources */ # define KINETIS_IRQ_MCG (100) /* Vector 100: MCG */ # define KINETIS_IRQ_LPT (101) /* Vector 101: Low power timer */ /* Vector 102: Reserved */ # define KINETIS_IRQ_PORTA (103) /* Vector 103: Pin detect port A */ # define KINETIS_IRQ_PORTB (104) /* Vector 104: Pin detect port B */ # define KINETIS_IRQ_PORTC (105) /* Vector 105: Pin detect port C */ # define KINETIS_IRQ_PORTD (106) /* Vector 106: Pin detect port D */ # define KINETIS_IRQ_PORTE (107) /* Vector 107: Pin detect port E */ /* Vectors 108-119: Reserved */ /* Note that the total number of IRQ numbers supported is equal to the number of * valid interrupt vectors. This is wasteful in that certain tables are sized by * this value. There are only 97 valid interrupts so, potentially the number of * IRQs to could be reduced to 97. However, equating IRQ numbers with vector numbers * also simplifies operations on NVIC registers and (at least in my state of mind * now) seems to justify the waste. */ # define NR_VECTORS (120) /* 120 vectors */ # define NR_IRQS (108) /* 120 interrupts but 108 IRQ numbers */ #else /* The interrupt vectors for other parts are defined in other documents and may or * may not be the same as above (the family members are all very similar) This * error just means that you have to look at the document and determine for yourself * if the vectors are the same. */ # error "No IRQ numbers for this Kinetis part" #endif /************************************************************************************ * Public Types ************************************************************************************/ /************************************************************************************ * Public Data ************************************************************************************/ #ifndef __ASSEMBLY__ #ifdef __cplusplus #define EXTERN extern "C" extern "C" { #else #define EXTERN extern #endif /************************************************************************************ * Public Functions ************************************************************************************/ #undef EXTERN #ifdef __cplusplus } #endif #endif #endif /* __ARCH_ARM_INCLUDE_KINETIS_IRQ_H */