kernel-fxtec-pro1x/arch/m68k/include/asm/m5249sim.h
Greg Ungerer 2424f54902 m68knommu: make 5249 QSPI platform addressing consistent
If we make all QSPI (SPI protocol) addressing consistent across all ColdFire
family members then we will be able to remove the duplicated plaform data
and code and use a single setup for all.

So modify the ColdFire 5249 QSPI addressing so that:

. base addresses are absolute (not relative to MBAR peripheral register)
. use a common name for IRQs used
. move chip select definitions (CS) to appropriate header

Signed-off-by: Greg Ungerer <gerg@uclinux.org>
2012-03-05 09:43:09 +10:00

269 lines
9.1 KiB
C

/****************************************************************************/
/*
* m5249sim.h -- ColdFire 5249 System Integration Module support.
*
* (C) Copyright 2002, Greg Ungerer (gerg@snapgear.com)
*/
/****************************************************************************/
#ifndef m5249sim_h
#define m5249sim_h
/****************************************************************************/
#define CPU_NAME "COLDFIRE(m5249)"
#define CPU_INSTR_PER_JIFFY 3
#define MCF_BUSCLK (MCF_CLK / 2)
#include <asm/m52xxacr.h>
/*
* The 5249 has a second MBAR region, define its address.
*/
#define MCF_MBAR2 0x80000000
/*
* Define the 5249 SIM register set addresses.
*/
#define MCFSIM_RSR 0x00 /* Reset Status reg (r/w) */
#define MCFSIM_SYPCR 0x01 /* System Protection reg (r/w)*/
#define MCFSIM_SWIVR 0x02 /* SW Watchdog intr reg (r/w) */
#define MCFSIM_SWSR 0x03 /* SW Watchdog service (r/w) */
#define MCFSIM_PAR 0x04 /* Pin Assignment reg (r/w) */
#define MCFSIM_IRQPAR 0x06 /* Interrupt Assignment reg (r/w) */
#define MCFSIM_MPARK 0x0C /* BUS Master Control Reg*/
#define MCFSIM_IPR 0x40 /* Interrupt Pend reg (r/w) */
#define MCFSIM_IMR 0x44 /* Interrupt Mask reg (r/w) */
#define MCFSIM_AVR 0x4b /* Autovector Ctrl reg (r/w) */
#define MCFSIM_ICR0 0x4c /* Intr Ctrl reg 0 (r/w) */
#define MCFSIM_ICR1 0x4d /* Intr Ctrl reg 1 (r/w) */
#define MCFSIM_ICR2 0x4e /* Intr Ctrl reg 2 (r/w) */
#define MCFSIM_ICR3 0x4f /* Intr Ctrl reg 3 (r/w) */
#define MCFSIM_ICR4 0x50 /* Intr Ctrl reg 4 (r/w) */
#define MCFSIM_ICR5 0x51 /* Intr Ctrl reg 5 (r/w) */
#define MCFSIM_ICR6 0x52 /* Intr Ctrl reg 6 (r/w) */
#define MCFSIM_ICR7 0x53 /* Intr Ctrl reg 7 (r/w) */
#define MCFSIM_ICR8 0x54 /* Intr Ctrl reg 8 (r/w) */
#define MCFSIM_ICR9 0x55 /* Intr Ctrl reg 9 (r/w) */
#define MCFSIM_ICR10 0x56 /* Intr Ctrl reg 10 (r/w) */
#define MCFSIM_ICR11 0x57 /* Intr Ctrl reg 11 (r/w) */
#define MCFSIM_CSAR0 0x80 /* CS 0 Address 0 reg (r/w) */
#define MCFSIM_CSMR0 0x84 /* CS 0 Mask 0 reg (r/w) */
#define MCFSIM_CSCR0 0x8a /* CS 0 Control reg (r/w) */
#define MCFSIM_CSAR1 0x8c /* CS 1 Address reg (r/w) */
#define MCFSIM_CSMR1 0x90 /* CS 1 Mask reg (r/w) */
#define MCFSIM_CSCR1 0x96 /* CS 1 Control reg (r/w) */
#define MCFSIM_CSAR2 0x98 /* CS 2 Address reg (r/w) */
#define MCFSIM_CSMR2 0x9c /* CS 2 Mask reg (r/w) */
#define MCFSIM_CSCR2 0xa2 /* CS 2 Control reg (r/w) */
#define MCFSIM_CSAR3 0xa4 /* CS 3 Address reg (r/w) */
#define MCFSIM_CSMR3 0xa8 /* CS 3 Mask reg (r/w) */
#define MCFSIM_CSCR3 0xae /* CS 3 Control reg (r/w) */
#define MCFSIM_DCR (MCF_MBAR + 0x100) /* DRAM Control */
#define MCFSIM_DACR0 (MCF_MBAR + 0x108) /* DRAM 0 Addr/Ctrl */
#define MCFSIM_DMR0 (MCF_MBAR + 0x10c) /* DRAM 0 Mask */
#define MCFSIM_DACR1 (MCF_MBAR + 0x110) /* DRAM 1 Addr/Ctrl */
#define MCFSIM_DMR1 (MCF_MBAR + 0x114) /* DRAM 1 Mask */
/*
* Timer module.
*/
#define MCFTIMER_BASE1 (MCF_MBAR + 0x140) /* Base of TIMER1 */
#define MCFTIMER_BASE2 (MCF_MBAR + 0x180) /* Base of TIMER2 */
/*
* UART module.
*/
#define MCFUART_BASE0 (MCF_MBAR + 0x1c0) /* Base address UART0 */
#define MCFUART_BASE1 (MCF_MBAR + 0x200) /* Base address UART1 */
/*
* QSPI module.
*/
#define MCFQSPI_BASE (MCF_MBAR + 0x300) /* Base address QSPI */
#define MCFQSPI_SIZE 0x40 /* Register set size */
#define MCFQSPI_CS0 29
#define MCFQSPI_CS1 24
#define MCFQSPI_CS2 21
#define MCFQSPI_CS3 22
/*
* DMA unit base addresses.
*/
#define MCFDMA_BASE0 (MCF_MBAR + 0x300) /* Base address DMA 0 */
#define MCFDMA_BASE1 (MCF_MBAR + 0x340) /* Base address DMA 1 */
#define MCFDMA_BASE2 (MCF_MBAR + 0x380) /* Base address DMA 2 */
#define MCFDMA_BASE3 (MCF_MBAR + 0x3C0) /* Base address DMA 3 */
/*
* Some symbol defines for the above...
*/
#define MCFSIM_SWDICR MCFSIM_ICR0 /* Watchdog timer ICR */
#define MCFSIM_TIMER1ICR MCFSIM_ICR1 /* Timer 1 ICR */
#define MCFSIM_TIMER2ICR MCFSIM_ICR2 /* Timer 2 ICR */
#define MCFSIM_UART1ICR MCFSIM_ICR4 /* UART 1 ICR */
#define MCFSIM_UART2ICR MCFSIM_ICR5 /* UART 2 ICR */
#define MCFSIM_DMA0ICR MCFSIM_ICR6 /* DMA 0 ICR */
#define MCFSIM_DMA1ICR MCFSIM_ICR7 /* DMA 1 ICR */
#define MCFSIM_DMA2ICR MCFSIM_ICR8 /* DMA 2 ICR */
#define MCFSIM_DMA3ICR MCFSIM_ICR9 /* DMA 3 ICR */
#define MCFSIM_QSPIICR MCFSIM_ICR10 /* QSPI ICR */
/*
* Define system peripheral IRQ usage.
*/
#define MCF_IRQ_QSPI 28 /* QSPI, Level 4 */
#define MCF_IRQ_TIMER 30 /* Timer0, Level 6 */
#define MCF_IRQ_PROFILER 31 /* Timer1, Level 7 */
#define MCF_IRQ_UART0 73 /* UART0 */
#define MCF_IRQ_UART1 74 /* UART1 */
/*
* General purpose IO registers (in MBAR2).
*/
#define MCFSIM2_GPIOREAD (MCF_MBAR2 + 0x000) /* GPIO read values */
#define MCFSIM2_GPIOWRITE (MCF_MBAR2 + 0x004) /* GPIO write values */
#define MCFSIM2_GPIOENABLE (MCF_MBAR2 + 0x008) /* GPIO enabled */
#define MCFSIM2_GPIOFUNC (MCF_MBAR2 + 0x00C) /* GPIO function */
#define MCFSIM2_GPIO1READ (MCF_MBAR2 + 0x0B0) /* GPIO1 read values */
#define MCFSIM2_GPIO1WRITE (MCF_MBAR2 + 0x0B4) /* GPIO1 write values */
#define MCFSIM2_GPIO1ENABLE (MCF_MBAR2 + 0x0B8) /* GPIO1 enabled */
#define MCFSIM2_GPIO1FUNC (MCF_MBAR2 + 0x0BC) /* GPIO1 function */
#define MCFSIM2_GPIOINTSTAT 0xc0 /* GPIO interrupt status */
#define MCFSIM2_GPIOINTCLEAR 0xc0 /* GPIO interrupt clear */
#define MCFSIM2_GPIOINTENABLE 0xc4 /* GPIO interrupt enable */
#define MCFSIM2_INTLEVEL1 0x140 /* Interrupt level reg 1 */
#define MCFSIM2_INTLEVEL2 0x144 /* Interrupt level reg 2 */
#define MCFSIM2_INTLEVEL3 0x148 /* Interrupt level reg 3 */
#define MCFSIM2_INTLEVEL4 0x14c /* Interrupt level reg 4 */
#define MCFSIM2_INTLEVEL5 0x150 /* Interrupt level reg 5 */
#define MCFSIM2_INTLEVEL6 0x154 /* Interrupt level reg 6 */
#define MCFSIM2_INTLEVEL7 0x158 /* Interrupt level reg 7 */
#define MCFSIM2_INTLEVEL8 0x15c /* Interrupt level reg 8 */
#define MCFSIM2_DMAROUTE 0x188 /* DMA routing */
#define MCFSIM2_IDECONFIG1 0x18c /* IDEconfig1 */
#define MCFSIM2_IDECONFIG2 0x190 /* IDEconfig2 */
/*
* Define the base interrupt for the second interrupt controller.
* We set it to 128, out of the way of the base interrupts, and plenty
* of room for its 64 interrupts.
*/
#define MCFINTC2_VECBASE 128
#define MCFINTC2_GPIOIRQ0 (MCFINTC2_VECBASE + 32)
#define MCFINTC2_GPIOIRQ1 (MCFINTC2_VECBASE + 33)
#define MCFINTC2_GPIOIRQ2 (MCFINTC2_VECBASE + 34)
#define MCFINTC2_GPIOIRQ3 (MCFINTC2_VECBASE + 35)
#define MCFINTC2_GPIOIRQ4 (MCFINTC2_VECBASE + 36)
#define MCFINTC2_GPIOIRQ5 (MCFINTC2_VECBASE + 37)
#define MCFINTC2_GPIOIRQ6 (MCFINTC2_VECBASE + 38)
#define MCFINTC2_GPIOIRQ7 (MCFINTC2_VECBASE + 39)
/*
* Generic GPIO support
*/
#define MCFGPIO_PIN_MAX 64
#define MCFGPIO_IRQ_MAX -1
#define MCFGPIO_IRQ_VECBASE -1
/****************************************************************************/
#ifdef __ASSEMBLER__
/*
* The M5249C3 board needs a little help getting all its SIM devices
* initialized at kernel start time. dBUG doesn't set much up, so
* we need to do it manually.
*/
.macro m5249c3_setup
/*
* Set MBAR1 and MBAR2, just incase they are not set.
*/
movel #0x10000001,%a0
movec %a0,%MBAR /* map MBAR region */
subql #1,%a0 /* get MBAR address in a0 */
movel #0x80000001,%a1
movec %a1,#3086 /* map MBAR2 region */
subql #1,%a1 /* get MBAR2 address in a1 */
/*
* Move secondary interrupts to their base (128).
*/
moveb #MCFINTC2_VECBASE,%d0
moveb %d0,0x16b(%a1) /* interrupt base register */
/*
* Work around broken CSMR0/DRAM vector problem.
*/
movel #0x001F0021,%d0 /* disable C/I bit */
movel %d0,0x84(%a0) /* set CSMR0 */
/*
* Disable the PLL firstly. (Who knows what state it is
* in here!).
*/
movel 0x180(%a1),%d0 /* get current PLL value */
andl #0xfffffffe,%d0 /* PLL bypass first */
movel %d0,0x180(%a1) /* set PLL register */
nop
#if CONFIG_CLOCK_FREQ == 140000000
/*
* Set initial clock frequency. This assumes M5249C3 board
* is fitted with 11.2896MHz crystal. It will program the
* PLL for 140MHz. Lets go fast :-)
*/
movel #0x125a40f0,%d0 /* set for 140MHz */
movel %d0,0x180(%a1) /* set PLL register */
orl #0x1,%d0
movel %d0,0x180(%a1) /* set PLL register */
#endif
/*
* Setup CS1 for ethernet controller.
* (Setup as per M5249C3 doco).
*/
movel #0xe0000000,%d0 /* CS1 mapped at 0xe0000000 */
movel %d0,0x8c(%a0)
movel #0x001f0021,%d0 /* CS1 size of 1Mb */
movel %d0,0x90(%a0)
movew #0x0080,%d0 /* CS1 = 16bit port, AA */
movew %d0,0x96(%a0)
/*
* Setup CS2 for IDE interface.
*/
movel #0x50000000,%d0 /* CS2 mapped at 0x50000000 */
movel %d0,0x98(%a0)
movel #0x001f0001,%d0 /* CS2 size of 1MB */
movel %d0,0x9c(%a0)
movew #0x0080,%d0 /* CS2 = 16bit, TA */
movew %d0,0xa2(%a0)
movel #0x00107000,%d0 /* IDEconfig1 */
movel %d0,0x18c(%a1)
movel #0x000c0400,%d0 /* IDEconfig2 */
movel %d0,0x190(%a1)
movel #0x00080000,%d0 /* GPIO19, IDE reset bit */
orl %d0,0xc(%a1) /* function GPIO19 */
orl %d0,0x8(%a1) /* enable GPIO19 as output */
orl %d0,0x4(%a1) /* de-assert IDE reset */
.endm
#define PLATFORM_SETUP m5249c3_setup
#endif /* __ASSEMBLER__ */
/****************************************************************************/
#endif /* m5249sim_h */