26#ifndef LIBBSP_M68K_CSB360_BSP_H
27#define LIBBSP_M68K_CSB360_BSP_H
39#include <mcf5272/mcf5272.h>
42#define BSP_MEM_ADDR_SRAM 0x20000000
43#define BSP_MEM_SIZE_SRAM 4096
48#define BSP_MEM_ADDR_SDRAM 0x00000000
49#define BSP_MEM_MASK_SDRAM 0x01ffffff
50#define BSP_MEM_SIZE_SDRAM (32 * 1024 * 1024)
53#define BSP_MBAR 0x10000000
56#define BSP_RAMBAR BSP_MEM_ADDR_SRAM
59#define BSP_INTVEC_INT1 65
60#define BSP_INTVEC_INT2 66
61#define BSP_INTVEC_INT3 67
62#define BSP_INTVEC_INT4 68
63#define BSP_INTVEC_TMR0 69
64#define BSP_INTVEC_TMR1 70
65#define BSP_INTVEC_TMR2 71
66#define BSP_INTVEC_TMR3 72
67#define BSP_INTVEC_UART1 73
68#define BSP_INTVEC_UART2 74
69#define BSP_INTVEC_PLIP 75
70#define BSP_INTVEC_PLIA 76
71#define BSP_INTVEC_USB0 77
72#define BSP_INTVEC_USB1 78
73#define BSP_INTVEC_USB2 79
74#define BSP_INTVEC_USB3 80
75#define BSP_INTVEC_USB4 81
76#define BSP_INTVEC_USB5 82
77#define BSP_INTVEC_USB6 83
78#define BSP_INTVEC_USB7 84
79#define BSP_INTVEC_DMA 85
80#define BSP_INTVEC_ERX 86
81#define BSP_INTVEC_ETX 87
82#define BSP_INTVEC_ENTC 88
83#define BSP_INTVEC_QSPI 89
84#define BSP_INTVEC_INT5 90
85#define BSP_INTVEC_INT6 91
86#define BSP_INTVEC_SWTO 92
88#define BSP_INTLVL_INT1 1
89#define BSP_INTLVL_INT2 1
90#define BSP_INTLVL_INT3 1
91#define BSP_INTLVL_INT4 1
92#define BSP_INTLVL_TMR0 1
93#define BSP_INTLVL_TMR1 1
94#define BSP_INTLVL_TMR2 1
95#define BSP_INTLVL_TMR3 1
96#define BSP_INTLVL_UART1 1
97#define BSP_INTLVL_UART2 1
98#define BSP_INTLVL_PLIP 1
99#define BSP_INTLVL_PLIA 1
100#define BSP_INTLVL_USB0 1
101#define BSP_INTLVL_USB1 1
102#define BSP_INTLVL_USB2 1
103#define BSP_INTLVL_USB3 1
104#define BSP_INTLVL_USB4 1
105#define BSP_INTLVL_USB5 1
106#define BSP_INTLVL_USB6 1
107#define BSP_INTLVL_USB7 1
108#define BSP_INTLVL_DMA 1
109#define BSP_INTLVL_ERX 1
110#define BSP_INTLVL_ETX 1
111#define BSP_INTLVL_ENTC 1
112#define BSP_INTLVL_QSPI 1
113#define BSP_INTLVL_INT5 1
114#define BSP_INTLVL_INT6 1
115#define BSP_INTLVL_SWTO 1
129struct rtems_bsdnet_ifconfig;
130extern int rtems_enet_driver_attach (
struct rtems_bsdnet_ifconfig *
config);
131#define RTEMS_BSP_NETWORK_DRIVER_NAME "eth0"
132#define RTEMS_BSP_NETWORK_DRIVER_ATTACH rtems_enet_driver_attach
135#define BSP_SYSTEM_FREQUENCY (66 * 1000 * 1000)
142#define rtems_bsp_delay( microseconds ) \
143 { register uint32_t _delay=(microseconds); \
144 register uint32_t _tmp=123; \
145 __asm__ volatile( "0: \
149 : "=d" (_tmp), "=d" (_delay) \
150 : "0" (_tmp), "1" (_delay) ); \
157#define RTC_DRIVER_TABLE_ENTRY \
158 { rtc_initialize, NULL, NULL, NULL, NULL, NULL }
This header file provides the default definition of BSP_INITIAL_EXTENSION.
uint32_t rtems_device_major_number
This integer type represents the major number of devices.
Definition: io.h:103
uint32_t rtems_device_minor_number
This integer type represents the minor number of devices.
Definition: io.h:115
ISR_Handler_entry rtems_isr_entry
Interrupt service routines installed by rtems_interrupt_catch() shall have this type.
Definition: intr.h:134
ISR_Handler rtems_isr
This type defines the return type of interrupt service routines.
Definition: intr.h:123
ISR_Vector_number rtems_vector_number
This integer type represents interrupt vector numbers.
Definition: intr.h:102
rtems_status_code
This enumeration provides status codes for directives of the Classic API.
Definition: status.h:85
rtems_device_driver rtc_initialize(rtems_device_major_number major, rtems_device_minor_number minor_arg, void *arg)
Definition: rtc.c:156
This header file defines the RTEMS Classic API.
Definition: deflate.c:114