rt-thread/bsp/renesas/rzt2m_rsk/rzt/fsp/inc/fsp_features.h

586 lines
41 KiB
C

/***********************************************************************************************************************
* Copyright [2020-2024] Renesas Electronics Corporation and/or its affiliates. All Rights Reserved.
*
* This software and documentation are supplied by Renesas Electronics Corporation and/or its affiliates and may only
* be used with products of Renesas Electronics Corp. and its affiliates ("Renesas"). No other uses are authorized.
* Renesas products are sold pursuant to Renesas terms and conditions of sale. Purchasers are solely responsible for
* the selection and use of Renesas products and Renesas assumes no liability. No license, express or implied, to any
* intellectual property right is granted by Renesas. This software is protected under all applicable laws, including
* copyright laws. Renesas reserves the right to change or discontinue this software and/or this documentation.
* THE SOFTWARE AND DOCUMENTATION IS DELIVERED TO YOU "AS IS," AND RENESAS MAKES NO REPRESENTATIONS OR WARRANTIES, AND
* TO THE FULLEST EXTENT PERMISSIBLE UNDER APPLICABLE LAW, DISCLAIMS ALL WARRANTIES, WHETHER EXPLICITLY OR IMPLICITLY,
* INCLUDING WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND NONINFRINGEMENT, WITH RESPECT TO THE
* SOFTWARE OR DOCUMENTATION. RENESAS SHALL HAVE NO LIABILITY ARISING OUT OF ANY SECURITY VULNERABILITY OR BREACH.
* TO THE MAXIMUM EXTENT PERMITTED BY LAW, IN NO EVENT WILL RENESAS BE LIABLE TO YOU IN CONNECTION WITH THE SOFTWARE OR
* DOCUMENTATION (OR ANY PERSON OR ENTITY CLAIMING RIGHTS DERIVED FROM YOU) FOR ANY LOSS, DAMAGES, OR CLAIMS WHATSOEVER,
* INCLUDING, WITHOUT LIMITATION, ANY DIRECT, CONSEQUENTIAL, SPECIAL, INDIRECT, PUNITIVE, OR INCIDENTAL DAMAGES; ANY
* LOST PROFITS, OTHER ECONOMIC DAMAGE, PROPERTY DAMAGE, OR PERSONAL INJURY; AND EVEN IF RENESAS HAS BEEN ADVISED OF THE
* POSSIBILITY OF SUCH LOSS, DAMAGES, CLAIMS OR COSTS.
**********************************************************************************************************************/
#ifndef FSP_FEATURES_H
#define FSP_FEATURES_H
/***********************************************************************************************************************
* Includes <System Includes> , "Project Includes"
**********************************************************************************************************************/
/* C99 includes. */
#include <stdint.h>
#include <stddef.h>
#include <stdbool.h>
#include <assert.h>
/* Different compiler support. */
#include "fsp_common_api.h"
#include "../../fsp/src/bsp/mcu/all/bsp_compiler_support.h"
/***********************************************************************************************************************
* Macro definitions
**********************************************************************************************************************/
/*******************************************************************************************************************//**
* @addtogroup BSP_MCU
* @{
**********************************************************************************************************************/
/***********************************************************************************************************************
* Typedef definitions
**********************************************************************************************************************/
/** Available modules. */
typedef enum e_fsp_ip
{
FSP_IP_CGC = 1, ///< Clock Generation Circuit
FSP_IP_CLMA = 2, ///< Clock Monitor Circuit
FSP_IP_MSTP = 3, ///< Module Stop
FSP_IP_ICU = 4, ///< Interrupt Control Unit
FSP_IP_BSC = 5, ///< Bus State Contoller
FSP_IP_CKIO = 6, ///< CKIO
FSP_IP_DMAC = 7, ///< DMA Controller
FSP_IP_ELC = 8, ///< Event Link Controller
FSP_IP_IOPORT = 9, ///< I/O Ports
FSP_IP_MTU3 = 10, ///< Multi-Function Timer Pulse Unit
FSP_IP_POE3 = 11, ///< Port Output Enable for MTU3
FSP_IP_GPT = 12, ///< General PWM Timer
FSP_IP_POEG = 13, ///< Port Output Enable for GPT
FSP_IP_TFU = 14, ///< Arithmetic Unit for Trigonometric Functions
FSP_IP_CMT = 15, ///< Compare Match Timer
FSP_IP_CMTW = 16, ///< Compare Match Timer W
FSP_IP_WDT = 17, ///< Watch Dog Timer
FSP_IP_RTC = 18, ///< Real Time Clock
FSP_IP_ETHSS = 19, ///< Ethernet Subsystem
FSP_IP_GMAC = 20, ///< Ethernet MAC
FSP_IP_ETHSW = 21, ///< Ethernet Switch
FSP_IP_ESC = 22, ///< EtherCAT Slave Controller
FSP_IP_USBHS = 23, ///< USB High Speed
FSP_IP_SCI = 24, ///< Serial Communications Interface
FSP_IP_IIC = 25, ///< I2C Bus Interface
FSP_IP_CANFD = 26, ///< Controller Area Network with Flexible Data Rate
FSP_IP_SPI = 27, ///< Serial Peripheral Interface
FSP_IP_XSPI = 28, ///< expanded Serial Peripheral Interface
FSP_IP_CRC = 29, ///< Cyclic Redundancy Check Calculator
FSP_IP_BSCAN = 30, ///< Boundary Scan
FSP_IP_DSMIF = 31, ///< Delta Sigma Interface
FSP_IP_ADC12 = 32, ///< 12-Bit A/D Converter
FSP_IP_TSU = 33, ///< Temperature Sensor
FSP_IP_DOC = 34, ///< Data Operation Circuit
FSP_IP_SYSRAM = 35, ///< System SRAM
FSP_IP_ENCIF = 36, ///< Encoder Interface
FSP_IP_SHOSTIF = 37, ///< Serial Host Interface
FSP_IP_AFMT = 38, ///< A-Format
FSP_IP_HDSL = 39, ///< HIPERFACE DSL
FSP_IP_BISS = 40, ///< BiSS-C
FSP_IP_ENDAT = 41, ///< EnDat 2.2
} fsp_ip_t;
/** Signals that can be mapped to an interrupt. */
typedef enum e_fsp_signal
{
FSP_SIGNAL_INTCPU0 = (0), ///< Software interrupt 0
FSP_SIGNAL_INTCPU1 = (1), ///< Software interrupt 1
FSP_SIGNAL_INTCPU2 = (2), ///< Software interrupt 2
FSP_SIGNAL_INTCPU3 = (3), ///< Software interrupt 3
FSP_SIGNAL_INTCPU4 = (4), ///< Software interrupt 4
FSP_SIGNAL_INTCPU5 = (5), ///< Software interrupt 5
FSP_SIGNAL_IRQ0 = (6), ///< External pin interrupt 0
FSP_SIGNAL_IRQ1 = (7), ///< External pin interrupt 1
FSP_SIGNAL_IRQ2 = (8), ///< External pin interrupt 2
FSP_SIGNAL_IRQ3 = (9), ///< External pin interrupt 3
FSP_SIGNAL_IRQ4 = (10), ///< External pin interrupt 4
FSP_SIGNAL_IRQ5 = (11), ///< External pin interrupt 5
FSP_SIGNAL_IRQ6 = (12), ///< External pin interrupt 6
FSP_SIGNAL_IRQ7 = (13), ///< External pin interrupt 7
FSP_SIGNAL_IRQ8 = (14), ///< External pin interrupt 8
FSP_SIGNAL_IRQ9 = (15), ///< External pin interrupt 9
FSP_SIGNAL_IRQ10 = (16), ///< External pin interrupt 10
FSP_SIGNAL_IRQ11 = (17), ///< External pin interrupt 11
FSP_SIGNAL_IRQ12 = (18), ///< External pin interrupt 12
FSP_SIGNAL_IRQ13 = (19), ///< External pin interrupt 13
FSP_SIGNAL_BSC_CMI = (20), ///< Refresh compare match interrupt
FSP_SIGNAL_DMAC0_INT0 = (21), ///< DMAC0 transfer completion 0
FSP_SIGNAL_DMAC0_INT1 = (22), ///< DMAC0 transfer completion 1
FSP_SIGNAL_DMAC0_INT2 = (23), ///< DMAC0 transfer completion 2
FSP_SIGNAL_DMAC0_INT3 = (24), ///< DMAC0 transfer completion 3
FSP_SIGNAL_DMAC0_INT4 = (25), ///< DMAC0 transfer completion 4
FSP_SIGNAL_DMAC0_INT5 = (26), ///< DMAC0 transfer completion 5
FSP_SIGNAL_DMAC0_INT6 = (27), ///< DMAC0 transfer completion 6
FSP_SIGNAL_DMAC0_INT7 = (28), ///< DMAC0 transfer completion 7
FSP_SIGNAL_DMAC0_INT8 = (29), ///< DMAC0 transfer completion 8
FSP_SIGNAL_DMAC0_INT9 = (30), ///< DMAC0 transfer completion 9
FSP_SIGNAL_DMAC0_INT10 = (31), ///< DMAC0 transfer completion 10
FSP_SIGNAL_DMAC0_INT11 = (32), ///< DMAC0 transfer completion 11
FSP_SIGNAL_DMAC0_INT12 = (33), ///< DMAC0 transfer completion 12
FSP_SIGNAL_DMAC0_INT13 = (34), ///< DMAC0 transfer completion 13
FSP_SIGNAL_DMAC0_INT14 = (35), ///< DMAC0 transfer completion 14
FSP_SIGNAL_DMAC0_INT15 = (36), ///< DMAC0 transfer completion 15
FSP_SIGNAL_DMAC1_INT0 = (37), ///< DMAC1 transfer completion 0
FSP_SIGNAL_DMAC1_INT1 = (38), ///< DMAC1 transfer completion 1
FSP_SIGNAL_DMAC1_INT2 = (39), ///< DMAC1 transfer completion 2
FSP_SIGNAL_DMAC1_INT3 = (40), ///< DMAC1 transfer completion 3
FSP_SIGNAL_DMAC1_INT4 = (41), ///< DMAC1 transfer completion 4
FSP_SIGNAL_DMAC1_INT5 = (42), ///< DMAC1 transfer completion 5
FSP_SIGNAL_DMAC1_INT6 = (43), ///< DMAC1 transfer completion 6
FSP_SIGNAL_DMAC1_INT7 = (44), ///< DMAC1 transfer completion 7
FSP_SIGNAL_DMAC1_INT8 = (45), ///< DMAC1 transfer completion 8
FSP_SIGNAL_DMAC1_INT9 = (46), ///< DMAC1 transfer completion 9
FSP_SIGNAL_DMAC1_INT10 = (47), ///< DMAC1 transfer completion 10
FSP_SIGNAL_DMAC1_INT11 = (48), ///< DMAC1 transfer completion 11
FSP_SIGNAL_DMAC1_INT12 = (49), ///< DMAC1 transfer completion 12
FSP_SIGNAL_DMAC1_INT13 = (50), ///< DMAC1 transfer completion 13
FSP_SIGNAL_DMAC1_INT14 = (51), ///< DMAC1 transfer completion 14
FSP_SIGNAL_DMAC1_INT15 = (52), ///< DMAC1 transfer completion 15
FSP_SIGNAL_CMT0_CMI = (53), ///< CMT0 Compare match
FSP_SIGNAL_CMT1_CMI = (54), ///< CMT1 Compare match
FSP_SIGNAL_CMT2_CMI = (55), ///< CMT2 Compare match
FSP_SIGNAL_CMT3_CMI = (56), ///< CMT3 Compare match
FSP_SIGNAL_CMT4_CMI = (57), ///< CMT4 Compare match
FSP_SIGNAL_CMT5_CMI = (58), ///< CMT5 Compare match
FSP_SIGNAL_CMTW0_CMWI = (59), ///< CMTW0 Compare match
FSP_SIGNAL_CMTW0_IC0I = (60), ///< CMTW0 Input capture of register 0
FSP_SIGNAL_CMTW0_IC1I = (61), ///< CMTW0 Input capture of register 1
FSP_SIGNAL_CMTW0_OC0I = (62), ///< CMTW0 Output compare of register 0
FSP_SIGNAL_CMTW0_OC1I = (63), ///< CMTW0 Output compare of register 1
FSP_SIGNAL_CMTW1_CMWI = (64), ///< CMTW1 Compare match
FSP_SIGNAL_CMTW1_IC0I = (65), ///< CMTW1 Input capture of register 0
FSP_SIGNAL_CMTW1_IC1I = (66), ///< CMTW1 Input capture of register 1
FSP_SIGNAL_CMTW1_OC0I = (67), ///< CMTW1 Output compare of register 0
FSP_SIGNAL_CMTW1_OC1I = (68), ///< CMTW1 Output compare of register 1
FSP_SIGNAL_TGIA0 = (69), ///< MTU0.TGRA input capture/compare match
FSP_SIGNAL_TGIB0 = (70), ///< MTU0.TGRB input capture/compare match
FSP_SIGNAL_TGIC0 = (71), ///< MTU0.TGRC input capture/compare match
FSP_SIGNAL_TGID0 = (72), ///< MTU0.TGRD input capture/compare match
FSP_SIGNAL_TCIV0 = (73), ///< MTU0.TCNT overflow
FSP_SIGNAL_TGIE0 = (74), ///< MTU0.TGRE compare match
FSP_SIGNAL_TGIF0 = (75), ///< MTU0.TGRF compare match
FSP_SIGNAL_TGIA1 = (76), ///< MTU1.TGRA input capture/compare match
FSP_SIGNAL_TGIB1 = (77), ///< MTU1.TGRB input capture/compare match
FSP_SIGNAL_TCIV1 = (78), ///< MTU1.TCNT overflow
FSP_SIGNAL_TCIU1 = (79), ///< MTU1.TCNT underflow
FSP_SIGNAL_TGIA2 = (80), ///< MTU2.TGRA input capture/compare match
FSP_SIGNAL_TGIB2 = (81), ///< MTU2.TGRB input capture/compare match
FSP_SIGNAL_TCIV2 = (82), ///< MTU2.TCNT overflow
FSP_SIGNAL_TCIU2 = (83), ///< MTU2.TCNT underflow
FSP_SIGNAL_TGIA3 = (84), ///< MTU3.TGRA input capture/compare match
FSP_SIGNAL_TGIB3 = (85), ///< MTU3.TGRB input capture/compare match
FSP_SIGNAL_TGIC3 = (86), ///< MTU3.TGRC input capture/compare match
FSP_SIGNAL_TGID3 = (87), ///< MTU3.TGRD input capture/compare match
FSP_SIGNAL_TCIV3 = (88), ///< MTU3.TCNT overflow
FSP_SIGNAL_TGIA4 = (89), ///< MTU4.TGRA input capture/compare match
FSP_SIGNAL_TGIB4 = (90), ///< MTU4.TGRB input capture/compare match
FSP_SIGNAL_TGIC4 = (91), ///< MTU4.TGRC input capture/compare match
FSP_SIGNAL_TGID4 = (92), ///< MTU4.TGRD input capture/compare match
FSP_SIGNAL_TCIV4 = (93), ///< MTU4.TCNT overflow/underflow
FSP_SIGNAL_TGIU5 = (94), ///< MTU5.TGRU input capture/compare match
FSP_SIGNAL_TGIV5 = (95), ///< MTU5.TGRV input capture/compare match
FSP_SIGNAL_TGIW5 = (96), ///< MTU5.TGRW input capture/compare match
FSP_SIGNAL_TGIA6 = (97), ///< MTU6.TGRA input capture/compare match
FSP_SIGNAL_TGIB6 = (98), ///< MTU6.TGRB input capture/compare match
FSP_SIGNAL_TGIC6 = (99), ///< MTU6.TGRC input capture/compare match
FSP_SIGNAL_TGID6 = (100), ///< MTU6.TGRD input capture/compare match
FSP_SIGNAL_TCIV6 = (101), ///< MTU6.TCNT overflow
FSP_SIGNAL_TGIA7 = (102), ///< MTU7.TGRA input capture/compare match
FSP_SIGNAL_TGIB7 = (103), ///< MTU7.TGRB input capture/compare match
FSP_SIGNAL_TGIC7 = (104), ///< MTU7.TGRC input capture/compare match
FSP_SIGNAL_TGID7 = (105), ///< MTU7.TGRD input capture/compare match
FSP_SIGNAL_TCIV7 = (106), ///< MTU7.TCNT overflow/underflow
FSP_SIGNAL_TGIA8 = (107), ///< MTU8.TGRA input capture/compare match
FSP_SIGNAL_TGIB8 = (108), ///< MTU8.TGRB input capture/compare match
FSP_SIGNAL_TGIC8 = (109), ///< MTU8.TGRC input capture/compare match
FSP_SIGNAL_TGID8 = (110), ///< MTU8.TGRD input capture/compare match
FSP_SIGNAL_TCIV8 = (111), ///< MTU8.TCNT overflow
FSP_SIGNAL_OEI1 = (112), ///< Output enable interrupt 1
FSP_SIGNAL_OEI2 = (113), ///< Output enable interrupt 2
FSP_SIGNAL_OEI3 = (114), ///< Output enable interrupt 3
FSP_SIGNAL_OEI4 = (115), ///< Output enable interrupt 4
FSP_SIGNAL_GPT0_CCMPA = (116), ///< GPT0 GTCCRA input capture/compare match
FSP_SIGNAL_GPT0_CCMPB = (117), ///< GPT0 GTCCRB input capture/compare match
FSP_SIGNAL_GPT0_CMPC = (118), ///< GPT0 GTCCRC compare match
FSP_SIGNAL_GPT0_CMPD = (119), ///< GPT0 GTCCRD compare match
FSP_SIGNAL_GPT0_CMPE = (120), ///< GPT0 GTCCRE compare match
FSP_SIGNAL_GPT0_CMPF = (121), ///< GPT0 GTCCRF compare match
FSP_SIGNAL_GPT0_OVF = (122), ///< GPT0 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT0_UDF = (123), ///< GPT0 GTCNT underflow
FSP_SIGNAL_GPT0_DTE = (124), ///< GPT0 Dead time error
FSP_SIGNAL_GPT1_CCMPA = (125), ///< GPT1 GTCCRA input capture/compare match
FSP_SIGNAL_GPT1_CCMPB = (126), ///< GPT1 GTCCRB input capture/compare match
FSP_SIGNAL_GPT1_CMPC = (127), ///< GPT1 GTCCRC compare match
FSP_SIGNAL_GPT1_CMPD = (128), ///< GPT1 GTCCRD compare match
FSP_SIGNAL_GPT1_CMPE = (129), ///< GPT1 GTCCRE compare match
FSP_SIGNAL_GPT1_CMPF = (130), ///< GPT1 GTCCRF compare match
FSP_SIGNAL_GPT1_OVF = (131), ///< GPT1 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT1_UDF = (132), ///< GPT1 GTCNT underflow
FSP_SIGNAL_GPT1_DTE = (133), ///< GPT1 Dead time error
FSP_SIGNAL_GPT2_CCMPA = (134), ///< GPT2 GTCCRA input capture/compare match
FSP_SIGNAL_GPT2_CCMPB = (135), ///< GPT2 GTCCRB input capture/compare match
FSP_SIGNAL_GPT2_CMPC = (136), ///< GPT2 GTCCRC compare match
FSP_SIGNAL_GPT2_CMPD = (137), ///< GPT2 GTCCRD compare match
FSP_SIGNAL_GPT2_CMPE = (138), ///< GPT2 GTCCRE compare match
FSP_SIGNAL_GPT2_CMPF = (139), ///< GPT2 GTCCRF compare match
FSP_SIGNAL_GPT2_OVF = (140), ///< GPT2 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT2_UDF = (141), ///< GPT2 GTCNT underflow
FSP_SIGNAL_GPT2_DTE = (142), ///< GPT2 Dead time error
FSP_SIGNAL_GPT3_CCMPA = (143), ///< GPT3 GTCCRA input capture/compare match
FSP_SIGNAL_GPT3_CCMPB = (144), ///< GPT3 GTCCRB input capture/compare match
FSP_SIGNAL_GPT3_CMPC = (145), ///< GPT3 GTCCRC compare match
FSP_SIGNAL_GPT3_CMPD = (146), ///< GPT3 GTCCRD compare match
FSP_SIGNAL_GPT3_CMPE = (147), ///< GPT3 GTCCRE compare match
FSP_SIGNAL_GPT3_CMPF = (148), ///< GPT3 GTCCRF compare match
FSP_SIGNAL_GPT3_OVF = (149), ///< GPT3 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT3_UDF = (150), ///< GPT3 GTCNT underflow
FSP_SIGNAL_GPT3_DTE = (151), ///< GPT3 Dead time error
FSP_SIGNAL_GPT4_CCMPA = (152), ///< GPT4 GTCCRA input capture/compare match
FSP_SIGNAL_GPT4_CCMPB = (153), ///< GPT4 GTCCRB input capture/compare match
FSP_SIGNAL_GPT4_CMPC = (154), ///< GPT4 GTCCRC compare match
FSP_SIGNAL_GPT4_CMPD = (155), ///< GPT4 GTCCRD compare match
FSP_SIGNAL_GPT4_CMPE = (156), ///< GPT4 GTCCRE compare match
FSP_SIGNAL_GPT4_CMPF = (157), ///< GPT4 GTCCRF compare match
FSP_SIGNAL_GPT4_OVF = (158), ///< GPT4 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT4_UDF = (159), ///< GPT4 GTCNT underflow
FSP_SIGNAL_GPT4_DTE = (160), ///< GPT4 Dead time error
FSP_SIGNAL_GPT5_CCMPA = (161), ///< GPT5 GTCCRA input capture/compare match
FSP_SIGNAL_GPT5_CCMPB = (162), ///< GPT5 GTCCRB input capture/compare match
FSP_SIGNAL_GPT5_CMPC = (163), ///< GPT5 GTCCRC compare match
FSP_SIGNAL_GPT5_CMPD = (164), ///< GPT5 GTCCRD compare match
FSP_SIGNAL_GPT5_CMPE = (165), ///< GPT5 GTCCRE compare match
FSP_SIGNAL_GPT5_CMPF = (166), ///< GPT5 GTCCRF compare match
FSP_SIGNAL_GPT5_OVF = (167), ///< GPT5 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT5_UDF = (168), ///< GPT5 GTCNT underflow
FSP_SIGNAL_GPT5_DTE = (169), ///< GPT5 Dead time error
FSP_SIGNAL_GPT6_CCMPA = (170), ///< GPT6 GTCCRA input capture/compare match
FSP_SIGNAL_GPT6_CCMPB = (171), ///< GPT6 GTCCRB input capture/compare match
FSP_SIGNAL_GPT6_CMPC = (172), ///< GPT6 GTCCRC compare match
FSP_SIGNAL_GPT6_CMPD = (173), ///< GPT6 GTCCRD compare match
FSP_SIGNAL_GPT6_CMPE = (174), ///< GPT6 GTCCRE compare match
FSP_SIGNAL_GPT6_CMPF = (175), ///< GPT6 GTCCRF compare match
FSP_SIGNAL_GPT6_OVF = (176), ///< GPT6 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT6_UDF = (177), ///< GPT6 GTCNT underflow
FSP_SIGNAL_GPT6_DTE = (178), ///< GPT6 Dead time error
FSP_SIGNAL_GPT7_CCMPA = (179), ///< GPT7 GTCCRA input capture/compare match
FSP_SIGNAL_GPT7_CCMPB = (180), ///< GPT7 GTCCRB input capture/compare match
FSP_SIGNAL_GPT7_CMPC = (181), ///< GPT7 GTCCRC compare match
FSP_SIGNAL_GPT7_CMPD = (182), ///< GPT7 GTCCRD compare match
FSP_SIGNAL_GPT7_CMPE = (183), ///< GPT7 GTCCRE compare match
FSP_SIGNAL_GPT7_CMPF = (184), ///< GPT7 GTCCRF compare match
FSP_SIGNAL_GPT7_OVF = (185), ///< GPT7 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT7_UDF = (186), ///< GPT7 GTCNT underflow
FSP_SIGNAL_GPT7_DTE = (187), ///< GPT7 Dead time error
FSP_SIGNAL_GPT8_CCMPA = (188), ///< GPT8 GTCCRA input capture/compare match
FSP_SIGNAL_GPT8_CCMPB = (189), ///< GPT8 GTCCRB input capture/compare match
FSP_SIGNAL_GPT8_CMPC = (190), ///< GPT8 GTCCRC compare match
FSP_SIGNAL_GPT8_CMPD = (191), ///< GPT8 GTCCRD compare match
FSP_SIGNAL_GPT8_CMPE = (192), ///< GPT8 GTCCRE compare match
FSP_SIGNAL_GPT8_CMPF = (193), ///< GPT8 GTCCRF compare match
FSP_SIGNAL_GPT8_OVF = (194), ///< GPT8 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT8_UDF = (195), ///< GPT8 GTCNT underflow
FSP_SIGNAL_GPT8_DTE = (196), ///< GPT8 Dead time error
FSP_SIGNAL_GPT9_CCMPA = (197), ///< GPT9 GTCCRA input capture/compare match
FSP_SIGNAL_GPT9_CCMPB = (198), ///< GPT9 GTCCRB input capture/compare match
FSP_SIGNAL_GPT9_CMPC = (199), ///< GPT9 GTCCRC compare match
FSP_SIGNAL_GPT9_CMPD = (200), ///< GPT9 GTCCRD compare match
FSP_SIGNAL_GPT9_CMPE = (201), ///< GPT9 GTCCRE compare match
FSP_SIGNAL_GPT9_CMPF = (202), ///< GPT9 GTCCRF compare match
FSP_SIGNAL_GPT9_OVF = (203), ///< GPT9 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT9_UDF = (204), ///< GPT9 GTCNT underflow
FSP_SIGNAL_GPT9_DTE = (205), ///< GPT9 Dead time error
FSP_SIGNAL_GPT10_CCMPA = (206), ///< GPT10 GTCCRA input capture/compare match
FSP_SIGNAL_GPT10_CCMPB = (207), ///< GPT10 GTCCRB input capture/compare match
FSP_SIGNAL_GPT10_CMPC = (208), ///< GPT10 GTCCRC compare match
FSP_SIGNAL_GPT10_CMPD = (209), ///< GPT10 GTCCRD compare match
FSP_SIGNAL_GPT10_CMPE = (210), ///< GPT10 GTCCRE compare match
FSP_SIGNAL_GPT10_CMPF = (211), ///< GPT10 GTCCRF compare match
FSP_SIGNAL_GPT10_OVF = (212), ///< GPT10 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT10_UDF = (213), ///< GPT10 GTCNT underflow
FSP_SIGNAL_GPT10_DTE = (214), ///< GPT10 Dead time error
FSP_SIGNAL_GPT11_CCMPA = (215), ///< GPT11 GTCCRA input capture/compare match
FSP_SIGNAL_GPT11_CCMPB = (216), ///< GPT11 GTCCRB input capture/compare match
FSP_SIGNAL_GPT11_CMPC = (217), ///< GPT11 GTCCRC compare match
FSP_SIGNAL_GPT11_CMPD = (218), ///< GPT11 GTCCRD compare match
FSP_SIGNAL_GPT11_CMPE = (219), ///< GPT11 GTCCRE compare match
FSP_SIGNAL_GPT11_CMPF = (220), ///< GPT11 GTCCRF compare match
FSP_SIGNAL_GPT11_OVF = (221), ///< GPT11 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT11_UDF = (222), ///< GPT11 GTCNT underflow
FSP_SIGNAL_GPT11_DTE = (223), ///< GPT11 Dead time error
FSP_SIGNAL_GPT12_CCMPA = (224), ///< GPT12 GTCCRA input capture/compare match
FSP_SIGNAL_GPT12_CCMPB = (225), ///< GPT12 GTCCRB input capture/compare match
FSP_SIGNAL_GPT12_CMPC = (226), ///< GPT12 GTCCRC compare match
FSP_SIGNAL_GPT12_CMPD = (227), ///< GPT12 GTCCRD compare match
FSP_SIGNAL_GPT12_CMPE = (228), ///< GPT12 GTCCRE compare match
FSP_SIGNAL_GPT12_CMPF = (229), ///< GPT12 GTCCRF compare match
FSP_SIGNAL_GPT12_OVF = (230), ///< GPT12 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT12_UDF = (231), ///< GPT12 GTCNT underflow
FSP_SIGNAL_GPT12_DTE = (232), ///< GPT12 Dead time error
FSP_SIGNAL_GPT13_CCMPA = (233), ///< GPT13 GTCCRA input capture/compare match
FSP_SIGNAL_GPT13_CCMPB = (234), ///< GPT13 GTCCRB input capture/compare match
FSP_SIGNAL_GPT13_CMPC = (235), ///< GPT13 GTCCRC compare match
FSP_SIGNAL_GPT13_CMPD = (236), ///< GPT13 GTCCRD compare match
FSP_SIGNAL_GPT13_CMPE = (237), ///< GPT13 GTCCRE compare match
FSP_SIGNAL_GPT13_CMPF = (238), ///< GPT13 GTCCRF compare match
FSP_SIGNAL_GPT13_OVF = (239), ///< GPT13 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT13_UDF = (240), ///< GPT13 GTCNT underflow
FSP_SIGNAL_GPT13_DTE = (241), ///< GPT13 Dead time error
FSP_SIGNAL_POEG0_GROUP0 = (242), ///< POEG group A interrupt for channels in LLPP
FSP_SIGNAL_POEG0_GROUP1 = (243), ///< POEG group B interrupt for channels in LLPP
FSP_SIGNAL_POEG0_GROUP2 = (244), ///< POEG group C interrupt for channels in LLPP
FSP_SIGNAL_POEG0_GROUP3 = (245), ///< POEG group D interrupt for channels in LLPP
FSP_SIGNAL_POEG1_GROUP0 = (246), ///< POEG group A interrupt for channels in NONSAFETY
FSP_SIGNAL_POEG1_GROUP1 = (247), ///< POEG group B interrupt for channels in NONSAFETY
FSP_SIGNAL_POEG1_GROUP2 = (248), ///< POEG group C interrupt for channels in NONSAFETY
FSP_SIGNAL_POEG1_GROUP3 = (249), ///< POEG group D interrupt for channels in NONSAFETY
FSP_SIGNAL_GMAC_LPI = (250), ///< GMAC1 energy efficient
FSP_SIGNAL_GMAC_PMT = (251), ///< GMAC1 power management
FSP_SIGNAL_GMAC_SBD = (252), ///< GMAC1 general interrupt
FSP_SIGNAL_ETHSW_INTR = (253), ///< Ethernet Switch interrupt
FSP_SIGNAL_ETHSW_DLR = (254), ///< Ethernet Switch DLR interrupt
FSP_SIGNAL_ETHSW_PRP = (255), ///< Ethernet Switch PRP interrupt
FSP_SIGNAL_ETHSW_IHUB = (256), ///< Ethernet Switch Integrated Hub interrupt
FSP_SIGNAL_ETHSW_PTRN0 = (257), ///< Ethernet Switch RX Pattern Matcher interrupt 0
FSP_SIGNAL_ETHSW_PTRN1 = (258), ///< Ethernet Switch RX Pattern Matcher interrupt 1
FSP_SIGNAL_ETHSW_PTRN2 = (259), ///< Ethernet Switch RX Pattern Matcher interrupt 2
FSP_SIGNAL_ETHSW_PTRN3 = (260), ///< Ethernet Switch RX Pattern Matcher interrupt 3
FSP_SIGNAL_ETHSW_PTRN4 = (261), ///< Ethernet Switch RX Pattern Matcher interrupt 4
FSP_SIGNAL_ETHSW_PTRN5 = (262), ///< Ethernet Switch RX Pattern Matcher interrupt 5
FSP_SIGNAL_ETHSW_PTRN6 = (263), ///< Ethernet Switch RX Pattern Matcher interrupt 6
FSP_SIGNAL_ETHSW_PTRN7 = (264), ///< Ethernet Switch RX Pattern Matcher interrupt 7
FSP_SIGNAL_ETHSW_PTRN8 = (265), ///< Ethernet Switch RX Pattern Matcher interrupt 8
FSP_SIGNAL_ETHSW_PTRN9 = (266), ///< Ethernet Switch RX Pattern Matcher interrupt 9
FSP_SIGNAL_ETHSW_PTRN10 = (267), ///< Ethernet Switch RX Pattern Matcher interrupt 10
FSP_SIGNAL_ETHSW_PTRN11 = (268), ///< Ethernet Switch RX Pattern Matcher interrupt 11
FSP_SIGNAL_ETHSW_PTPOUT0 = (269), ///< Ethernet switch timer pulse output 0
FSP_SIGNAL_ETHSW_PTPOUT1 = (270), ///< Ethernet switch timer pulse output 1
FSP_SIGNAL_ETHSW_PTPOUT2 = (271), ///< Ethernet switch timer pulse output 2
FSP_SIGNAL_ETHSW_PTPOUT3 = (272), ///< Ethernet switch timer pulse output 3
FSP_SIGNAL_ETHSW_TDMAOUT0 = (273), ///< Ethernet Switch TDMA timer output 0
FSP_SIGNAL_ETHSW_TDMAOUT1 = (274), ///< Ethernet Switch TDMA timer output 1
FSP_SIGNAL_ETHSW_TDMAOUT2 = (275), ///< Ethernet Switch TDMA timer output 2
FSP_SIGNAL_ETHSW_TDMAOUT3 = (276), ///< Ethernet Switch TDMA timer output 3
FSP_SIGNAL_ESC_SYNC0 = (277), ///< EtherCAT Sync0 interrupt
FSP_SIGNAL_ESC_SYNC1 = (278), ///< EtherCAT Sync1 interrupt
FSP_SIGNAL_ESC_CAT = (279), ///< EtherCAT interrupt
FSP_SIGNAL_ESC_SOF = (280), ///< EtherCAT SOF interrupt
FSP_SIGNAL_ESC_EOF = (281), ///< EtherCAT EOF interrupt
FSP_SIGNAL_ESC_WDT = (282), ///< EtherCAT WDT interrupt
FSP_SIGNAL_ESC_RST = (283), ///< EtherCAT RESET interrupt
FSP_SIGNAL_USB_HI = (284), ///< USB (Host) interrupt
FSP_SIGNAL_USB_FI = (285), ///< USB (Function) interrupt
FSP_SIGNAL_USB_FDMA0 = (286), ///< USB (Function) DMA 0 transmit completion
FSP_SIGNAL_USB_FDMA1 = (287), ///< USB (Function) DMA 1 transmit completion
FSP_SIGNAL_SCI0_ERI = (288), ///< SCI0 Receive error
FSP_SIGNAL_SCI0_RXI = (289), ///< SCI0 Receive data full
FSP_SIGNAL_SCI0_TXI = (290), ///< SCI0 Transmit data empty
FSP_SIGNAL_SCI0_TEI = (291), ///< SCI0 Transmit end
FSP_SIGNAL_SCI1_ERI = (292), ///< SCI1 Receive error
FSP_SIGNAL_SCI1_RXI = (293), ///< SCI1 Receive data full
FSP_SIGNAL_SCI1_TXI = (294), ///< SCI1 Transmit data empty
FSP_SIGNAL_SCI1_TEI = (295), ///< SCI1 Transmit end
FSP_SIGNAL_SCI2_ERI = (296), ///< SCI2 Receive error
FSP_SIGNAL_SCI2_RXI = (297), ///< SCI2 Receive data full
FSP_SIGNAL_SCI2_TXI = (298), ///< SCI2 Transmit data empty
FSP_SIGNAL_SCI2_TEI = (299), ///< SCI2 Transmit end
FSP_SIGNAL_SCI3_ERI = (300), ///< SCI3 Receive error
FSP_SIGNAL_SCI3_RXI = (301), ///< SCI3 Receive data full
FSP_SIGNAL_SCI3_TXI = (302), ///< SCI3 Transmit data empty
FSP_SIGNAL_SCI3_TEI = (303), ///< SCI3 Transmit end
FSP_SIGNAL_SCI4_ERI = (304), ///< SCI4 Receive error
FSP_SIGNAL_SCI4_RXI = (305), ///< SCI4 Receive data full
FSP_SIGNAL_SCI4_TXI = (306), ///< SCI4 Transmit data empty
FSP_SIGNAL_SCI4_TEI = (307), ///< SCI4 Transmit end
FSP_SIGNAL_IIC0_EEI = (308), ///< IIC0 Transfer error or event generation
FSP_SIGNAL_IIC0_RXI = (309), ///< IIC0 Receive data full
FSP_SIGNAL_IIC0_TXI = (310), ///< IIC0 Transmit data empty
FSP_SIGNAL_IIC0_TEI = (311), ///< IIC0 Transmit end
FSP_SIGNAL_IIC1_EEI = (312), ///< IIC1 Transfer error or event generation
FSP_SIGNAL_IIC1_RXI = (313), ///< IIC1 Receive data full
FSP_SIGNAL_IIC1_TXI = (314), ///< IIC1 Transmit data empty
FSP_SIGNAL_IIC1_TEI = (315), ///< IIC1 Transmit end
FSP_SIGNAL_CAN_RXF = (316), ///< CANFD RX FIFO interrupt
FSP_SIGNAL_CAN_GLERR = (317), ///< CANFD Global error interrupt
FSP_SIGNAL_CAN0_TX = (318), ///< CAFND0 Channel TX interrupt
FSP_SIGNAL_CAN0_CHERR = (319), ///< CAFND0 Channel CAN error interrupt
FSP_SIGNAL_CAN0_COMFRX = (320), ///< CAFND0 Common RX FIFO or TXQ interrupt
FSP_SIGNAL_CAN1_TX = (321), ///< CAFND1 Channel TX interrupt
FSP_SIGNAL_CAN1_CHERR = (322), ///< CAFND1 Channel CAN error interrupt
FSP_SIGNAL_CAN1_COMFRX = (323), ///< CAFND1 Common RX FIFO or TXQ interrupt
FSP_SIGNAL_SPI0_SPRI = (324), ///< SPI0 Reception buffer full
FSP_SIGNAL_SPI0_SPTI = (325), ///< SPI0 Transmit buffer empty
FSP_SIGNAL_SPI0_SPII = (326), ///< SPI0 SPI idle
FSP_SIGNAL_SPI0_SPEI = (327), ///< SPI0 errors
FSP_SIGNAL_SPI0_SPCEND = (328), ///< SPI0 Communication complete
FSP_SIGNAL_SPI1_SPRI = (329), ///< SPI1 Reception buffer full
FSP_SIGNAL_SPI1_SPTI = (330), ///< SPI1 Transmit buffer empty
FSP_SIGNAL_SPI1_SPII = (331), ///< SPI1 SPI idle
FSP_SIGNAL_SPI1_SPEI = (332), ///< SPI1 errors
FSP_SIGNAL_SPI1_SPCEND = (333), ///< SPI1 Communication complete
FSP_SIGNAL_SPI2_SPRI = (334), ///< SPI2 Reception buffer full
FSP_SIGNAL_SPI2_SPTI = (335), ///< SPI2 Transmit buffer empty
FSP_SIGNAL_SPI2_SPII = (336), ///< SPI2 SPI idle
FSP_SIGNAL_SPI2_SPEI = (337), ///< SPI2 errors
FSP_SIGNAL_SPI2_SPCEND = (338), ///< SPI2 Communication complete
FSP_SIGNAL_XSPI0_INT = (339), ///< xSPI0 Interrupt
FSP_SIGNAL_XSPI0_INTERR = (340), ///< xSPI0 Error interrupt
FSP_SIGNAL_XSPI1_INT = (341), ///< xSPI1 Interrupt
FSP_SIGNAL_XSPI1_INTERR = (342), ///< xSPI1 Error interrupt
FSP_SIGNAL_DSMIF0_CDRUI = (343), ///< DSMIF0 current data register update (ORed ch0 to ch2)
FSP_SIGNAL_DSMIF1_CDRUI = (344), ///< DSMIF1 current data register update (ORed ch3 to ch5)
FSP_SIGNAL_ADC0_ADI = (345), ///< ADC0 A/D scan end interrupt
FSP_SIGNAL_ADC0_GBADI = (346), ///< ADC0 A/D scan end interrupt for Group B
FSP_SIGNAL_ADC0_GCADI = (347), ///< ADC0 A/D scan end interrupt for Group C
FSP_SIGNAL_ADC0_CMPAI = (348), ///< ADC0 Window A compare match
FSP_SIGNAL_ADC0_CMPBI = (349), ///< ADC0 Window B compare match
FSP_SIGNAL_ADC1_ADI = (350), ///< ADC1 A/D scan end interrupt
FSP_SIGNAL_ADC1_GBADI = (351), ///< ADC1 A/D scan end interrupt for Group B
FSP_SIGNAL_ADC1_GCADI = (352), ///< ADC1 A/D scan end interrupt for Group C
FSP_SIGNAL_ADC1_CMPAI = (353), ///< ADC1 Window A compare match
FSP_SIGNAL_ADC1_CMPBI = (354), ///< ADC1 Window B compare match
FSP_SIGNAL_ENCIF_INT0 = (372), ///< ENCIF CH0 Interrupt A
FSP_SIGNAL_ENCIF_INT1 = (373), ///< ENCIF CH0 Interrupt B
FSP_SIGNAL_ENCIF_INT2 = (374), ///< ENCIF CH0 OUTPUT FIFO Interrupt
FSP_SIGNAL_ENCIF_INT3 = (375), ///< ENCIF CH0 INPUT FIFO Interrupt
FSP_SIGNAL_ENCIF_INT4 = (376), ///< ENCIF CH1 Interrupt A
FSP_SIGNAL_ENCIF_INT5 = (377), ///< ENCIF CH1 Interrupt B
FSP_SIGNAL_ENCIF_INT6 = (378), ///< ENCIF CH1 OUTPUT FIFO Interrupt
FSP_SIGNAL_ENCIF_INT7 = (379), ///< ENCIF CH1 INPUT FIFO Interrupt
FSP_SIGNAL_CPU0_ERR0 = (384), ///< Cortex-R52 CPU0 error event 0
FSP_SIGNAL_CPU0_ERR1 = (385), ///< Cortex-R52 CPU0 error event 1
FSP_SIGNAL_CPU1_ERR0 = (386), ///< Cortex-R52 CPU1 error event 0
FSP_SIGNAL_CPU1_ERR1 = (387), ///< Cortex-R52 CPU1 error event 1
FSP_SIGNAL_PERI_ERR0 = (388), ///< Peripherals error event 0
FSP_SIGNAL_PERI_ERR1 = (389), ///< Peripherals error event 1
FSP_SIGNAL_INTCPU6 = (392), ///< Software interrupt 6
FSP_SIGNAL_INTCPU7 = (393), ///< Software interrupt 7
FSP_SIGNAL_IRQ14 = (394), ///< External pin interrupt 14
FSP_SIGNAL_IRQ15 = (395), ///< External pin interrupt 15
FSP_SIGNAL_GPT14_CCMPA = (396), ///< GPT14 GTCCRA input capture/compare match
FSP_SIGNAL_GPT14_CCMPB = (397), ///< GPT14 GTCCRB input capture/compare match
FSP_SIGNAL_GPT14_CMPC = (398), ///< GPT14 GTCCRC compare match
FSP_SIGNAL_GPT14_CMPD = (399), ///< GPT14 GTCCRD compare match
FSP_SIGNAL_GPT14_CMPE = (400), ///< GPT14 GTCCRE compare match
FSP_SIGNAL_GPT14_CMPF = (401), ///< GPT14 GTCCRF compare match
FSP_SIGNAL_GPT14_OVF = (402), ///< GPT14 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT14_UDF = (403), ///< GPT14 GTCNT underflow
FSP_SIGNAL_GPT15_CCMPA = (404), ///< GPT15 GTCCRA input capture/compare match
FSP_SIGNAL_GPT15_CCMPB = (405), ///< GPT15 GTCCRB input capture/compare match
FSP_SIGNAL_GPT15_CMPC = (406), ///< GPT15 GTCCRC compare match
FSP_SIGNAL_GPT15_CMPD = (407), ///< GPT15 GTCCRD compare match
FSP_SIGNAL_GPT15_CMPE = (408), ///< GPT15 GTCCRE compare match
FSP_SIGNAL_GPT15_CMPF = (409), ///< GPT15 GTCCRF compare match
FSP_SIGNAL_GPT15_OVF = (410), ///< GPT15 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT15_UDF = (411), ///< GPT15 GTCNT underflow
FSP_SIGNAL_GPT16_CCMPA = (412), ///< GPT16 GTCCRA input capture/compare match
FSP_SIGNAL_GPT16_CCMPB = (413), ///< GPT16 GTCCRB input capture/compare match
FSP_SIGNAL_GPT16_CMPC = (414), ///< GPT16 GTCCRC compare match
FSP_SIGNAL_GPT16_CMPD = (415), ///< GPT16 GTCCRD compare match
FSP_SIGNAL_GPT16_CMPE = (416), ///< GPT16 GTCCRE compare match
FSP_SIGNAL_GPT16_CMPF = (417), ///< GPT16 GTCCRF compare match
FSP_SIGNAL_GPT16_OVF = (418), ///< GPT16 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT16_UDF = (419), ///< GPT16 GTCNT underflow
FSP_SIGNAL_GPT17_CCMPA = (420), ///< GPT17 GTCCRA input capture/compare match
FSP_SIGNAL_GPT17_CCMPB = (421), ///< GPT17 GTCCRB input capture/compare match
FSP_SIGNAL_GPT17_CMPC = (422), ///< GPT17 GTCCRC compare match
FSP_SIGNAL_GPT17_CMPD = (423), ///< GPT17 GTCCRD compare match
FSP_SIGNAL_GPT17_CMPE = (424), ///< GPT17 GTCCRE compare match
FSP_SIGNAL_GPT17_CMPF = (425), ///< GPT17 GTCCRF compare match
FSP_SIGNAL_GPT17_OVF = (426), ///< GPT17 GTCNT overflow (GTPR compare match)
FSP_SIGNAL_GPT17_UDF = (427), ///< GPT17 GTCNT underflow
FSP_SIGNAL_POEG2_GROUP0 = (428), ///< POEG group A interrupt for channels in SAFETY
FSP_SIGNAL_POEG2_GROUP1 = (429), ///< POEG group B interrupt for channels in SAFETY
FSP_SIGNAL_POEG2_GROUP2 = (430), ///< POEG group C interrupt for channels in SAFETY
FSP_SIGNAL_POEG2_GROUP3 = (431), ///< POEG group D interrupt for channels in SAFETY
FSP_SIGNAL_RTC_ALM = (432), ///< Alarm interrupt
FSP_SIGNAL_RTC_1S = (433), ///< 1 second interrupt
FSP_SIGNAL_RTC_PRD = (434), ///< Fixed interval interrupt
FSP_SIGNAL_SCI5_ERI = (435), ///< SCI5 Receive error
FSP_SIGNAL_SCI5_RXI = (436), ///< SCI5 Receive data full
FSP_SIGNAL_SCI5_TXI = (437), ///< SCI5 Transmit data empty
FSP_SIGNAL_SCI5_TEI = (438), ///< SCI5 Transmit end
FSP_SIGNAL_IIC2_EEI = (439), ///< IIC2 Transfer error or event generation
FSP_SIGNAL_IIC2_RXI = (440), ///< IIC2 Receive data full
FSP_SIGNAL_IIC2_TXI = (441), ///< IIC2 Transmit data empty
FSP_SIGNAL_IIC2_TEI = (442), ///< IIC2 Transmit end
FSP_SIGNAL_SPI3_SPRI = (443), ///< SPI3 Reception buffer full
FSP_SIGNAL_SPI3_SPTI = (444), ///< SPI3 Transmit buffer empty
FSP_SIGNAL_SPI3_SPII = (445), ///< SPI3 SPI idle
FSP_SIGNAL_SPI3_SPEI = (446), ///< SPI3 errors
FSP_SIGNAL_SPI3_SPCEND = (447), ///< SPI3 Communication complete
FSP_SIGNAL_DREQ = (448), ///< External DMA request
FSP_SIGNAL_CAN_RF_DMAREQ0 = (449), ///< CAFND RX FIFO 0 DMA request
FSP_SIGNAL_CAN_RF_DMAREQ1 = (450), ///< CAFND RX FIFO 1 DMA request
FSP_SIGNAL_CAN_RF_DMAREQ2 = (451), ///< CAFND RX FIFO 2 DMA request
FSP_SIGNAL_CAN_RF_DMAREQ3 = (452), ///< CAFND RX FIFO 3 DMA request
FSP_SIGNAL_CAN_RF_DMAREQ4 = (453), ///< CAFND RX FIFO 4 DMA request
FSP_SIGNAL_CAN_RF_DMAREQ5 = (454), ///< CAFND RX FIFO 5 DMA request
FSP_SIGNAL_CAN_RF_DMAREQ6 = (455), ///< CAFND RX FIFO 6 DMA request
FSP_SIGNAL_CAN_RF_DMAREQ7 = (456), ///< CAFND RX FIFO 7 DMA request
FSP_SIGNAL_CAN0_CF_DMAREQ = (457), ///< CAFND0 First common FIFO DMA request
FSP_SIGNAL_CAN1_CF_DMAREQ = (458), ///< CAFND1 First common FIFO DMA request
FSP_SIGNAL_ADC0_WCMPM = (459), ///< ADC0 compare match
FSP_SIGNAL_ADC0_WCMPUM = (460), ///< ADC0 compare mismatch
FSP_SIGNAL_ADC1_WCMPM = (461), ///< ADC1 compare match
FSP_SIGNAL_ADC1_WCMPUM = (462), ///< ADC1 compare mismatch
FSP_SIGNAL_TCIV4_OF = (463), ///< MTU4.TCNT overflow
FSP_SIGNAL_TCIV4_UF = (464), ///< MTU4.TCNT underflow
FSP_SIGNAL_TCIV7_OF = (465), ///< MTU7.TCNT overflow
FSP_SIGNAL_TCIV7_UF = (466), ///< MTU7.TCNT underflow
FSP_SIGNAL_IOPORT_GROUP1 = (467), ///< Input edge detection of input port group 1
FSP_SIGNAL_IOPORT_GROUP2 = (468), ///< Input edge detection of input port group 2
FSP_SIGNAL_IOPORT_SINGLE0 = (469), ///< Input edge detection of single input port 0
FSP_SIGNAL_IOPORT_SINGLE1 = (470), ///< Input edge detection of single input port 1
FSP_SIGNAL_IOPORT_SINGLE2 = (471), ///< Input edge detection of single input port 2
FSP_SIGNAL_IOPORT_SINGLE3 = (472), ///< Input edge detection of single input port 3
FSP_SIGNAL_GPT0_ADTRGA = (473), ///< GPT0 GTADTRA compare match
FSP_SIGNAL_GPT0_ADTRGB = (474), ///< GPT0 GTADTRB compare match
FSP_SIGNAL_GPT1_ADTRGA = (475), ///< GPT1 GTADTRA compare match
FSP_SIGNAL_GPT1_ADTRGB = (476), ///< GPT1 GTADTRB compare match
FSP_SIGNAL_GPT2_ADTRGA = (477), ///< GPT2 GTADTRA compare match
FSP_SIGNAL_GPT2_ADTRGB = (478), ///< GPT2 GTADTRB compare match
FSP_SIGNAL_GPT3_ADTRGA = (479), ///< GPT3 GTADTRA compare match
FSP_SIGNAL_GPT3_ADTRGB = (480), ///< GPT3 GTADTRB compare match
FSP_SIGNAL_GPT4_ADTRGA = (481), ///< GPT4 GTADTRA compare match
FSP_SIGNAL_GPT4_ADTRGB = (482), ///< GPT4 GTADTRB compare match
FSP_SIGNAL_GPT5_ADTRGA = (483), ///< GPT5 GTADTRA compare match
FSP_SIGNAL_GPT5_ADTRGB = (484), ///< GPT5 GTADTRB compare match
FSP_SIGNAL_GPT6_ADTRGA = (485), ///< GPT6 GTADTRA compare match
FSP_SIGNAL_GPT6_ADTRGB = (486), ///< GPT6 GTADTRB compare match
FSP_SIGNAL_GPT7_ADTRGA = (487), ///< GPT7 GTADTRA compare match
FSP_SIGNAL_GPT7_ADTRGB = (488), ///< GPT7 GTADTRB compare match
FSP_SIGNAL_GPT8_ADTRGA = (489), ///< GPT8 GTADTRA compare match
FSP_SIGNAL_GPT8_ADTRGB = (490), ///< GPT8 GTADTRB compare match
FSP_SIGNAL_GPT9_ADTRGA = (491), ///< GPT9 GTADTRA compare match
FSP_SIGNAL_GPT9_ADTRGB = (492), ///< GPT9 GTADTRB compare match
FSP_SIGNAL_GPT10_ADTRGA = (493), ///< GPT10 GTADTRA compare match
FSP_SIGNAL_GPT10_ADTRGB = (494), ///< GPT10 GTADTRB compare match
FSP_SIGNAL_GPT11_ADTRGA = (495), ///< GPT11 GTADTRA compare match
FSP_SIGNAL_GPT11_ADTRGB = (496), ///< GPT11 GTADTRB compare match
FSP_SIGNAL_GPT12_ADTRGA = (497), ///< GPT12 GTADTRA compare match
FSP_SIGNAL_GPT12_ADTRGB = (498), ///< GPT12 GTADTRB compare match
FSP_SIGNAL_GPT13_ADTRGA = (499), ///< GPT13 GTADTRA compare match
FSP_SIGNAL_GPT13_ADTRGB = (500), ///< GPT13 GTADTRB compare match
FSP_SIGNAL_NONE
} fsp_signal_t;
typedef void (* fsp_vector_t)(void);
/** @} (end addtogroup BSP_MCU) */
#endif