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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [hal/] [arm/] [aeb/] [v2_0/] [src/] [aeb_misc.c] - Rev 174
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//========================================================================== // // aeb_misc.c // // HAL misc board support code for ARM AEB-1 // //========================================================================== //####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc. // // eCos is free software; you can redistribute it and/or modify it under // the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 or (at your option) any later version. // // eCos is distributed in the hope that it will be useful, but WITHOUT ANY // WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // You should have received a copy of the GNU General Public License along // with eCos; if not, write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. // // As a special exception, if other files instantiate templates or use macros // or inline functions from this file, or you compile this file and link it // with other works to produce a work based on this file, this file does not // by itself cause the resulting work to be covered by the GNU General Public // License. However the source code for this file must still be made available // in accordance with section (3) of the GNU General Public License. // // This exception does not invalidate any other reasons why a work based on // this file might be covered by the GNU General Public License. // // Alternative licenses for eCos may be arranged by contacting Red Hat, Inc. // at http://sources.redhat.com/ecos/ecos-license/ // ------------------------------------------- //####ECOSGPLCOPYRIGHTEND#### //========================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): gthomas // Contributors: gthomas // Date: 1999-02-20 // Purpose: HAL board support // Description: Implementations of HAL board interfaces // //####DESCRIPTIONEND#### // //========================================================================*/ #include <pkgconf/hal.h> #include <cyg/infra/cyg_type.h> // base types #include <cyg/infra/cyg_trac.h> // tracing macros #include <cyg/infra/cyg_ass.h> // assertion macros #include <cyg/hal/hal_io.h> // IO macros #include <cyg/hal/hal_arch.h> // Register state info #include <cyg/hal/hal_diag.h> #include <cyg/hal/hal_intr.h> // necessary? #include <cyg/hal/hal_cache.h> #include <cyg/hal/hal_if.h> // calling interface #include <cyg/hal/hal_misc.h> // helper functions #ifdef CYGDBG_HAL_DEBUG_GDB_BREAK_SUPPORT #include <cyg/hal/drv_api.h> // HAL ISR support #endif /*------------------------------------------------------------------------*/ // On-board timer /*------------------------------------------------------------------------*/ // Timer registers #define CYG_DEVICE_TIMER0 ((volatile cyg_uint8 *)0xFFFF1800) #define CYG_DEVICE_TIMER1 ((volatile cyg_uint8 *)0xFFFF1804) #define CYG_DEVICE_TIMER2 ((volatile cyg_uint8 *)0xFFFF1808) #define CYG_DEVICE_TIMER_CTL ((volatile cyg_uint8 *)0xFFFF180C) #define CYG_DEVICE_IOCR ((volatile cyg_uint32 *)0xFFFFA410) #define CYG_DEVICE_CPM_PCSR ((volatile cyg_uint32 *)0xFFFFAC04) #define CYG_DEVICE_CPM_CT0CCR ((volatile cyg_uint32 *)0xFFFFAC18) #define CYG_DEVICE_CPM_CT1CCR ((volatile cyg_uint32 *)0xFFFFAC1C) #define CYG_DEVICE_CPM_CT2CCR ((volatile cyg_uint32 *)0xFFFFAC20) #define IOCR_CT0G (0x3<<9) #define IOCR_CT0G_EXTERNAL (0x0<<9) #define IOCR_CT0G_PWM0 (0x1<<9) #define IOCR_CT0G_LOW (0x2<<9) #define IOCR_CT0G_HIGH (0x3<<9) #define IOCR_CT1G (0x3<<11) #define IOCR_CT1G_EXTERNAL (0x0<<11) #define IOCR_CT1G_PWM0 (0x1<<11) #define IOCR_CT1G_LOW (0x2<<11) #define IOCR_CT1G_HIGH (0x3<<11) #define IOCR_CT2G (0x3<<13) #define IOCR_CT2G_EXTERNAL (0x0<<13) #define IOCR_CT2G_PWM0 (0x1<<13) #define IOCR_CT2G_LOW (0x2<<13) #define IOCR_CT2G_HIGH (0x3<<13) #define TIMER_CTL_TYPE (0x1<<0) #define TIMER_CTL_TYPE_BIN (0x0<<0) #define TIMER_CTL_TYPE_BCD (0x1<<0) #define TIMER_CTL_MODE (0x7<<1) #define TIMER_CTL_MODE_IOTC (0x0<<1) // Interrupt on terminal count #define TIMER_CTL_MODE_HROS (0x1<<1) // Hardware retriggerable one-shot #define TIMER_CTL_MODE_RG (0x2<<1) // Rate generator #define TIMER_CTL_MODE_SWG (0x3<<1) // Square-wave generator #define TIMER_CTL_MODE_STS (0x4<<1) // Software triggered strobe #define TIMER_CTL_MODE_HTS (0x5<<1) // Hardware triggered strobe #define TIMER_CTL_RW (0x3<<4) #define TIMER_CTL_RW_LATCH (0x0<<4) // Counter latch #define TIMER_CTL_RW_LSB (0x1<<4) #define TIMER_CTL_RW_MSB (0x2<<4) #define TIMER_CTL_RW_BOTH (0x3<<4) #define TIMER_CTL_SC (0x3<<6) #define TIMER_CTL_SC_CTR0 (0x0<<6) #define TIMER_CTL_SC_CTR1 (0x1<<6) #define TIMER_CTL_SC_CTR2 (0x2<<6) #define TIMER_CTL_SC_RBC (0x3<<6) // Interrupt controller registers #define CYG_DEVICE_ICTL_ICR0 ((volatile cyg_uint32 *)0xFFFFA800) #define CYG_DEVICE_ICTL_ICR1 ((volatile cyg_uint32 *)0xFFFFA804) #define CYG_DEVICE_ICTL_ICLR ((volatile cyg_uint32 *)0xFFFFA808) #define CYG_DEVICE_ICTL_IRQER ((volatile cyg_uint32 *)0xFFFFA80C) #define CYG_DEVICE_ICTL_FIQER ((volatile cyg_uint32 *)0xFFFFA810) #define CYG_DEVICE_ICTL_IRQSR ((volatile cyg_uint32 *)0xFFFFA814) #define CYG_DEVICE_ICTL_FIQSR ((volatile cyg_uint32 *)0xFFFFA818) #define CYG_DEVICE_ICTL_IPR ((volatile cyg_uint32 *)0xFFFFA81C) #define ICTL_ICR0_CH0 (0x3<<0) #define ICTL_ICR0_CH0_HL (0x1<<0) #define ICTL_ICR0_CH0_HL_AL (0x0<<0) // Active low #define ICTL_ICR0_CH0_HL_AH (0x1<<0) // Active high #define ICTL_ICR0_CH0_EL (0x2<<0) #define ICTL_ICR0_CH0_EL_LT (0x0<<0) // Level triggered #define ICTL_ICR0_CH0_EL_ET (0x2<<0) // Edge triggered #define ICTL_ICR0_CH1 (0x3<<2) #define ICTL_ICR0_CH1_HL (0x1<<2) #define ICTL_ICR0_CH1_HL_AL (0x0<<2) // Active low #define ICTL_ICR0_CH1_HL_AH (0x1<<2) // Active high #define ICTL_ICR0_CH1_EL (0x2<<2) #define ICTL_ICR0_CH1_EL_LT (0x0<<2) // Level triggered #define ICTL_ICR0_CH1_EL_ET (0x2<<2) // Edge triggered #define ICTL_ICR0_CH2 (0x3<<4) #define ICTL_ICR0_CH2_HL (0x1<<4) #define ICTL_ICR0_CH2_HL_AL (0x0<<4) // Active low #define ICTL_ICR0_CH2_HL_AH (0x1<<4) // Active high #define ICTL_ICR0_CH2_EL (0x2<<4) #define ICTL_ICR0_CH2_EL_LT (0x0<<4) // Level triggered #define ICTL_ICR0_CH2_EL_ET (0x2<<4) // Edge triggered #define ICTL_ICR0_CH3 (0x3<<6) #define ICTL_ICR0_CH3_HL (0x1<<6) #define ICTL_ICR0_CH3_HL_AL (0x0<<6) // Active low #define ICTL_ICR0_CH3_HL_AH (0x1<<6) // Active high #define ICTL_ICR0_CH3_EL (0x2<<6) #define ICTL_ICR0_CH3_EL_LT (0x0<<6) // Level triggered #define ICTL_ICR0_CH3_EL_ET (0x2<<6) // Edge triggered #define ICTL_ICR0_CH4 (0x3<<8) #define ICTL_ICR0_CH4_HL (0x1<<8) #define ICTL_ICR0_CH4_HL_AL (0x0<<8) // Active low #define ICTL_ICR0_CH4_HL_AH (0x1<<8) // Active high #define ICTL_ICR0_CH4_EL (0x2<<8) #define ICTL_ICR0_CH4_EL_LT (0x0<<8) // Level triggered #define ICTL_ICR0_CH4_EL_ET (0x2<<8) // Edge triggered #define ICTL_ICR0_CH5 (0x3<<10) #define ICTL_ICR0_CH5_HL (0x1<<10) #define ICTL_ICR0_CH5_HL_AL (0x0<<10) // Active low #define ICTL_ICR0_CH5_HL_AH (0x1<<10) // Active high #define ICTL_ICR0_CH5_EL (0x2<<10) #define ICTL_ICR0_CH5_EL_LT (0x0<<10) // Level triggered #define ICTL_ICR0_CH5_EL_ET (0x2<<10) // Edge triggered #define ICTL_ICR1_CH6 (0x1<<0) #define ICTL_ICR1_CH6_HL (0x1<<0) #define ICTL_ICR1_CH6_HL_AL (0x0<<0) // Active low #define ICTL_ICR1_CH6_HL_AH (0x1<<0) // Active high #define ICTL_ICR1_CH7 (0x1<<1) #define ICTL_ICR1_CH7_HL (0x1<<1) #define ICTL_ICR1_CH7_HL_AL (0x0<<1) // Active low #define ICTL_ICR1_CH7_HL_AH (0x1<<1) // Active high #define ICTL_ICR1_CH8 (0x1<<2) #define ICTL_ICR1_CH8_HL (0x1<<2) #define ICTL_ICR1_CH8_HL_AL (0x0<<2) // Active low #define ICTL_ICR1_CH8_HL_AH (0x1<<2) // Active high // Clock control registers #define PCSR_CT0CS (1<<3) #define PCSR_CT1CS (1<<4) #define PCSR_CT2CS (1<<5) #define CT_X16 16 #undef _TIMERS_TESTING #ifdef _TIMERS_TESTING static void aeb_setup_timer1(cyg_uint32 period); #endif static cyg_uint32 _period; #ifdef CYGDBG_HAL_DEBUG_GDB_BREAK_SUPPORT static cyg_interrupt abort_interrupt; static cyg_handle_t abort_interrupt_handle; // This ISR is called only for the Abort button interrupt static int aeb_abort_isr(cyg_vector_t vector, cyg_addrword_t data, HAL_SavedRegisters *regs) { cyg_hal_user_break((CYG_ADDRWORD*)regs); cyg_drv_interrupt_acknowledge(CYGNUM_HAL_INTERRUPT_EXT0); return 0; // No need to run DSR } #endif void hal_clock_initialize(cyg_uint32 period) { cyg_uint32 iocr; // Set counter GATE input low (0) to halt counter while it's being setup HAL_READ_UINT32(CYG_DEVICE_IOCR, iocr); iocr = (iocr & ~IOCR_CT0G) | IOCR_CT0G_LOW; HAL_WRITE_UINT32(CYG_DEVICE_IOCR, iocr); // Scale timer0 clock HAL_WRITE_UINT32(CYG_DEVICE_CPM_CT0CCR, CT_X16); // Initialize counter, mode 2 = rate generator HAL_WRITE_UINT8(CYG_DEVICE_TIMER_CTL, TIMER_CTL_TYPE_BIN| TIMER_CTL_MODE_RG| TIMER_CTL_RW_BOTH| TIMER_CTL_SC_CTR0); HAL_WRITE_UINT8(CYG_DEVICE_TIMER0, (period & 0xFF)); // LSB HAL_WRITE_UINT8(CYG_DEVICE_TIMER0, ((period >> 8) & 0xFF)); // MSB // Enable timer iocr = (iocr & ~IOCR_CT0G) | IOCR_CT0G_HIGH; HAL_WRITE_UINT32(CYG_DEVICE_IOCR, iocr); _period = period; #ifdef CYGDBG_HAL_DEBUG_GDB_BREAK_SUPPORT cyg_drv_interrupt_create(CYGNUM_HAL_INTERRUPT_EXT0, 99, // Priority 0, // Data item passed to interrupt handler aeb_abort_isr, 0, &abort_interrupt_handle, &abort_interrupt); cyg_drv_interrupt_attach(abort_interrupt_handle); cyg_drv_interrupt_unmask(CYGNUM_HAL_INTERRUPT_EXT0); #endif #ifdef _TIMERS_TESTING aeb_setup_timer1(period/10); #endif } void hal_clock_reset(cyg_uint32 vector, cyg_uint32 period) { _period = period; } void hal_clock_read(cyg_uint32 *pvalue) { cyg_uint32 value; cyg_uint8 reg; do { HAL_WRITE_UINT8(CYG_DEVICE_TIMER_CTL, TIMER_CTL_RW_LATCH|TIMER_CTL_SC_CTR0); HAL_READ_UINT8(CYG_DEVICE_TIMER0, reg); // LSB value = reg; HAL_READ_UINT8(CYG_DEVICE_TIMER0, reg); // MSB value |= (reg << 8); } while (value <= 2); // Hardware malfunction? *pvalue = _period - (value & 0xFFFF); // Note: counter is only 16 bits // and decreases } void hal_hardware_init(void) { // Any hardware/platform initialization that needs to be done. // Set all unknowns as edge triggered HAL_WRITE_UINT32(CYG_DEVICE_ICTL_ICR0, ICTL_ICR0_CH0_HL_AL|ICTL_ICR0_CH0_EL_ET| ICTL_ICR0_CH1_HL_AL|ICTL_ICR0_CH1_EL_ET| ICTL_ICR0_CH2_HL_AL|ICTL_ICR0_CH2_EL_ET| ICTL_ICR0_CH3_HL_AL|ICTL_ICR0_CH3_EL_ET| ICTL_ICR0_CH4_HL_AL|ICTL_ICR0_CH4_EL_ET| ICTL_ICR0_CH5_HL_AL|ICTL_ICR0_CH5_EL_ET); HAL_WRITE_UINT32(CYG_DEVICE_ICTL_ICR1, ICTL_ICR1_CH6_HL_AL| ICTL_ICR1_CH7_HL_AL| ICTL_ICR1_CH8_HL_AL); HAL_WRITE_UINT32(CYG_DEVICE_ICTL_ICLR, 0xFFFF); // CLear all interrupts HAL_WRITE_UINT32(CYG_DEVICE_ICTL_IRQER, 0x0000); // All disabled // Clear and initialize cache HAL_UCACHE_INVALIDATE_ALL(); HAL_UCACHE_ENABLE(); // Set up eCos/ROM interfaces hal_if_init(); } // // This routine is called to respond to a hardware interrupt (IRQ). It // should interrogate the hardware and return the IRQ vector number. int hal_IRQ_handler(void) { // Do hardware-level IRQ handling int irq_status, vector; HAL_READ_UINT32(CYG_DEVICE_ICTL_IRQSR, irq_status); for (vector = 0; vector < 16; vector++) { if (irq_status & (1<<vector)) return vector; } return CYGNUM_HAL_INTERRUPT_NONE; // This shouldn't happen! } // // Interrupt control // void hal_interrupt_mask(int vector) { cyg_uint32 mask, old_mask; HAL_READ_UINT32(CYG_DEVICE_ICTL_IRQER, mask); old_mask = mask; mask &= ~(1<<vector); HAL_WRITE_UINT32(CYG_DEVICE_ICTL_IRQER, mask); } #if 0 void hal_interrupt_status(void) { int irq_status, irq_enable, ipr_value, timer_value; cyg_uint8 reg; HAL_READ_UINT8(CYG_DEVICE_TIMER0, reg); // LSB timer_value = reg; HAL_READ_UINT8(CYG_DEVICE_TIMER0, reg); // MSB timer_value |= (reg << 8); HAL_READ_UINT32(CYG_DEVICE_ICTL_IRQSR, irq_status); HAL_READ_UINT32(CYG_DEVICE_ICTL_IRQER, irq_enable); HAL_READ_UINT32(CYG_DEVICE_ICTL_IPR, ipr_value); diag_printf("Interrupt: IRQ: %x.%x.%x, Timer: %x\n", irq_status, irq_enable, ipr_value, timer_value); } #endif void hal_interrupt_unmask(int vector) { cyg_uint32 mask, old_mask; HAL_READ_UINT32(CYG_DEVICE_ICTL_IRQER, mask); old_mask = mask; mask |= (1<<vector); HAL_WRITE_UINT32(CYG_DEVICE_ICTL_IRQER, mask); } void hal_interrupt_acknowledge(int vector) { HAL_WRITE_UINT32(CYG_DEVICE_ICTL_ICLR, (1<<vector)); } void hal_interrupt_configure(int vector, int level, int up) { // diag_printf("%s(%d,%d,%d)\n", __PRETTY_FUNCTION__, vector, level, up); } void hal_interrupt_set_level(int vector, int level) { // diag_printf("%s(%d,%d)\n", __PRETTY_FUNCTION__, vector, level); } void hal_show_IRQ(int vector, int data, int handler) { // diag_printf("IRQ - vector: %x, data: %x, handler: %x\n", vector, // data, handler); } #ifdef _TIMERS_TESTING #include <cyg/hal/drv_api.h> // HAL ISR support static cyg_interrupt timer1_interrupt; static cyg_handle_t timer1_interrupt_handle; static cyg_uint32 timer1_count; // This ISR is called only for the high speed timer under test static int aeb_timer1_isr(cyg_vector_t vector, cyg_addrword_t data, HAL_SavedRegisters *regs) { cyg_drv_interrupt_acknowledge(CYGNUM_HAL_INTERRUPT_TIMER1); timer1_count++; return 0; // No need to run DSR } static void aeb_setup_timer1(cyg_uint32 period) { cyg_uint32 iocr; // Set counter GATE input low (0) to halt counter while it's being setup HAL_READ_UINT32(CYG_DEVICE_IOCR, iocr); iocr = (iocr & ~IOCR_CT1G) | IOCR_CT1G_LOW; HAL_WRITE_UINT32(CYG_DEVICE_IOCR, iocr); // Scale timer0 clock HAL_WRITE_UINT32(CYG_DEVICE_CPM_CT1CCR, CT_X16); // Initialize counter, mode 2 = rate generator HAL_WRITE_UINT8(CYG_DEVICE_TIMER_CTL, TIMER_CTL_TYPE_BIN| TIMER_CTL_MODE_RG| TIMER_CTL_RW_BOTH| TIMER_CTL_SC_CTR1); HAL_WRITE_UINT8(CYG_DEVICE_TIMER1, (period & 0xFF)); // LSB HAL_WRITE_UINT8(CYG_DEVICE_TIMER1, ((period >> 8) & 0xFF)); // MSB // Enable timer iocr = (iocr & ~IOCR_CT1G) | IOCR_CT1G_HIGH; HAL_WRITE_UINT32(CYG_DEVICE_IOCR, iocr); cyg_drv_interrupt_create(CYGNUM_HAL_INTERRUPT_TIMER1, 99, // Priority 0, // Data item passed to interrupt handler aeb_timer1_isr, 0, &timer1_interrupt_handle, &timer1_interrupt); cyg_drv_interrupt_attach(timer1_interrupt_handle); cyg_drv_interrupt_unmask(CYGNUM_HAL_INTERRUPT_TIMER1); } #endif //----------------------------------------------------------------------------- // Reset board (definitions from watchdog file aeb1.cxx) // Register definitions #define CYGARC_REG_WATCHDOG_BASE 0xFFFFAC00 #define CYGARC_REG_WATCHDOG_WDCTLR (CYGARC_REG_WATCHDOG_BASE+0x30) #define CYGARC_REG_WATCHDOG_WDCNTR (CYGARC_REG_WATCHDOG_BASE+0x34) // Control register bits #define CYGARC_REG_WATCHDOG_WDCTLR_EN 0x01 // enable #define CYGARC_REG_WATCHDOG_WDCTLR_RSP_NMF 0x00 // non-maskable fiq #define CYGARC_REG_WATCHDOG_WDCTLR_RSP_ER 0x04 // external reset #define CYGARC_REG_WATCHDOG_WDCTLR_RSP_SR 0x06 // system reset #define CYGARC_REG_WATCHDOG_WDCTLR_FRZ 0x08 // lock enable bit #define CYGARC_REG_WATCHDOG_WDCTLR_TOP_MASK 0x70 // time out period #define CYGARC_REG_WATCHDOG_WDCTLR_TOP_17 0x00 // 2^17 #define CYGARC_REG_WATCHDOG_WDCTLR_TOP_17_P 5242880 // = 5.2ms #define CYGARC_REG_WATCHDOG_WDCTLR_TOP_25 0x40 // 2^25 #define CYGARC_REG_WATCHDOG_WDCTLR_TOP_25_P 1342177300 // = 1.3421773s void hal_aeb_reset(void) { // Clear the watchdog counter. HAL_WRITE_UINT32(CYGARC_REG_WATCHDOG_WDCNTR, 0); // Enable the watchdog with the smallest timeout. HAL_WRITE_UINT8(CYGARC_REG_WATCHDOG_WDCTLR, (CYGARC_REG_WATCHDOG_WDCTLR_TOP_17 | CYGARC_REG_WATCHDOG_WDCTLR_FRZ | CYGARC_REG_WATCHDOG_WDCTLR_RSP_SR | CYGARC_REG_WATCHDOG_WDCTLR_EN)); // Wait for it... for(;;); } /*------------------------------------------------------------------------*/ // EOF hal_misc.c