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/***********************license start*************** * Copyright (c) 2003-2010 Cavium Networks (support@cavium.com). All rights * reserved. * * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * 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. * * Neither the name of Cavium Networks 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, including technical data, may be subject to U.S. export control * laws, including the U.S. Export Administration Act and its associated * regulations, and may be subject to export or import regulations in other * countries. * TO THE MAXIMUM EXTENT PERMITTED BY LAW, THE SOFTWARE IS PROVIDED "AS IS" * AND WITH ALL FAULTS AND CAVIUM NETWORKS MAKES NO PROMISES, REPRESENTATIONS OR * WARRANTIES, EITHER EXPRESS, IMPLIED, STATUTORY, OR OTHERWISE, WITH RESPECT TO * THE SOFTWARE, INCLUDING ITS CONDITION, ITS CONFORMITY TO ANY REPRESENTATION OR * DESCRIPTION, OR THE EXISTENCE OF ANY LATENT OR PATENT DEFECTS, AND CAVIUM * SPECIFICALLY DISCLAIMS ALL IMPLIED (IF ANY) WARRANTIES OF TITLE, * MERCHANTABILITY, NONINFRINGEMENT, FITNESS FOR A PARTICULAR PURPOSE, LACK OF * VIRUSES, ACCURACY OR COMPLETENESS, QUIET ENJOYMENT, QUIET POSSESSION OR * CORRESPONDENCE TO DESCRIPTION. THE ENTIRE RISK ARISING OUT OF USE OR * PERFORMANCE OF THE SOFTWARE LIES WITH YOU. ***********************license end**************************************/ /** * @file * * Interface to the Mips interrupts. * * <hr>$Revision: 52004 $<hr> */ #ifndef __U_BOOT__ #if __GNUC__ >= 4 /* Backtrace is only available with the new toolchain. */ #include <execinfo.h> #endif #endif /* __U_BOOT__ */ #include "cvmx-config.h" #include "cvmx.h" #include "cvmx-interrupt.h" #include "cvmx-sysinfo.h" #include "cvmx-uart.h" #include "cvmx-pow.h" #include "cvmx-ebt3000.h" #include "cvmx-coremask.h" #include "cvmx-spinlock.h" #include "cvmx-app-init.h" #include "cvmx-error.h" #include "../../bootloader/u-boot/include/octeon_mem_map.h" EXTERN_ASM void cvmx_interrupt_stage1(void); EXTERN_ASM void cvmx_debug_handler_stage1(void); EXTERN_ASM void cvmx_interrupt_cache_error(void); int cvmx_interrupt_in_isr = 0; /** * Internal status the interrupt registration */ typedef struct { cvmx_interrupt_func_t handlers[256]; /**< One function to call per interrupt */ void * data[256]; /**< User data per interrupt */ cvmx_interrupt_exception_t exception_handler; } cvmx_interrupt_state_t; /** * Internal state the interrupt registration */ #ifndef __U_BOOT__ static CVMX_SHARED cvmx_interrupt_state_t cvmx_interrupt_state; static CVMX_SHARED cvmx_spinlock_t cvmx_interrupt_default_lock; #endif /* __U_BOOT__ */ #define ULL unsigned long long #define HI32(data64) ((uint32_t)(data64 >> 32)) #define LO32(data64) ((uint32_t)(data64 & 0xFFFFFFFF)) static const char reg_names[][32] = { "r0","at","v0","v1","a0","a1","a2","a3", "t0","t1","t2","t3","t4","t5","t6","t7", "s0","s1","s2","s3","s4","s5", "s6","s7", "t8","t9", "k0","k1","gp","sp","s8","ra" }; /** * version of printf that works better in exception context. * * @param format */ void cvmx_safe_printf(const char *format, ...) { char buffer[256]; char *ptr = buffer; int count; va_list args; va_start(args, format); #ifndef __U_BOOT__ count = vsnprintf(buffer, sizeof(buffer), format, args); #else count = vsprintf(buffer, format, args); #endif va_end(args); while (count-- > 0) { cvmx_uart_lsr_t lsrval; /* Spin until there is room */ do { lsrval.u64 = cvmx_read_csr(CVMX_MIO_UARTX_LSR(0)); #if !defined(CONFIG_OCTEON_SIM_SPEED) if (lsrval.s.temt == 0) cvmx_wait(10000); /* Just to reduce the load on the system */ #endif } while (lsrval.s.temt == 0); if (*ptr == '\n') cvmx_write_csr(CVMX_MIO_UARTX_THR(0), '\r'); cvmx_write_csr(CVMX_MIO_UARTX_THR(0), *ptr++); } } /* Textual descriptions of cause codes */ static const char cause_names[][128] = { /* 0 */ "Interrupt", /* 1 */ "TLB modification", /* 2 */ "tlb load/fetch", /* 3 */ "tlb store", /* 4 */ "address exc, load/fetch", /* 5 */ "address exc, store", /* 6 */ "bus error, instruction fetch", /* 7 */ "bus error, load/store", /* 8 */ "syscall", /* 9 */ "breakpoint", /* 10 */ "reserved instruction", /* 11 */ "cop unusable", /* 12 */ "arithmetic overflow", /* 13 */ "trap", /* 14 */ "", /* 15 */ "floating point exc", /* 16 */ "", /* 17 */ "", /* 18 */ "cop2 exception", /* 19 */ "", /* 20 */ "", /* 21 */ "", /* 22 */ "mdmx unusable", /* 23 */ "watch", /* 24 */ "machine check", /* 25 */ "", /* 26 */ "", /* 27 */ "", /* 28 */ "", /* 29 */ "", /* 30 */ "cache error", /* 31 */ "" }; /** * @INTERNAL * print_reg64 * @param name Name of the value to print * @param reg Value to print */ static inline void print_reg64(const char *name, uint64_t reg) { cvmx_safe_printf("%16s: 0x%08x%08x\n", name, (unsigned int)HI32(reg),(unsigned int)LO32(reg)); } /** * @INTERNAL * Dump all useful registers to the console * * @param registers CPU register to dump */ static void __cvmx_interrupt_dump_registers(uint64_t registers[32]) { uint64_t r1, r2; int reg; for (reg=0; reg<16; reg++) { r1 = registers[reg]; r2 = registers[reg+16]; cvmx_safe_printf("%3s ($%02d): 0x%08x%08x \t %3s ($%02d): 0x%08x%08x\n", reg_names[reg], reg, (unsigned int)HI32(r1), (unsigned int)LO32(r1), reg_names[reg+16], reg+16, (unsigned int)HI32(r2), (unsigned int)LO32(r2)); } CVMX_MF_COP0 (r1, COP0_CAUSE); print_reg64 ("COP0_CAUSE", r1); CVMX_MF_COP0 (r2, COP0_STATUS); print_reg64 ("COP0_STATUS", r2); CVMX_MF_COP0 (r1, COP0_BADVADDR); print_reg64 ("COP0_BADVADDR", r1); CVMX_MF_COP0 (r2, COP0_EPC); print_reg64 ("COP0_EPC", r2); } /** * @INTERNAL * Default exception handler. Prints out the exception * cause decode and all relevant registers. * * @param registers Registers at time of the exception */ #ifndef __U_BOOT__ static #endif /* __U_BOOT__ */ void __cvmx_interrupt_default_exception_handler(uint64_t registers[32]) { uint64_t trap_print_cause; const char *str; #ifndef __U_BOOT__ ebt3000_str_write("Trap"); cvmx_spinlock_lock(&cvmx_interrupt_default_lock); #endif CVMX_MF_COP0 (trap_print_cause, COP0_CAUSE); str = cause_names [(trap_print_cause >> 2) & 0x1f]; cvmx_safe_printf("Core %d: Unhandled Exception. Cause register decodes to:\n%s\n", (int)cvmx_get_core_num(), str && *str ? str : "Reserved exception cause"); cvmx_safe_printf("******************************************************************\n"); __cvmx_interrupt_dump_registers(registers); #ifndef __U_BOOT__ cvmx_safe_printf("******************************************************************\n"); #if __GNUC__ >= 4 && !defined(OCTEON_DISABLE_BACKTRACE) cvmx_safe_printf("Backtrace:\n\n"); __octeon_print_backtrace_func ((__octeon_backtrace_printf_t)cvmx_safe_printf); cvmx_safe_printf("******************************************************************\n"); #endif cvmx_spinlock_unlock(&cvmx_interrupt_default_lock); if (cvmx_sysinfo_get()->board_type == CVMX_BOARD_TYPE_SIM) CVMX_BREAK; while (1) { /* Interrupts are suppressed when we are in the exception handler (because of SR[EXL]). Spin and poll the uart status and see if the debugger is trying to stop us. */ cvmx_uart_lsr_t lsrval; lsrval.u64 = cvmx_read_csr(CVMX_MIO_UARTX_LSR(cvmx_debug_uart)); if (lsrval.s.dr) { uint64_t tmp; /* Pulse the MCD0 signal. */ asm volatile ( ".set push\n" ".set noreorder\n" ".set mips64\n" "dmfc0 %0, $22\n" "ori %0, %0, 0x10\n" "dmtc0 %0, $22\n" ".set pop\n" : "=r" (tmp)); } } #endif /* __U_BOOT__ */ } #ifndef __U_BOOT__ /** * @INTERNAL * Default interrupt handler if the user doesn't register one. * * @param irq_number IRQ that caused this interrupt * @param registers Register at the time of the interrupt * @param user_arg Unused optional user data */ static void __cvmx_interrupt_default(int irq_number, uint64_t registers[32], void *user_arg) { cvmx_safe_printf("cvmx_interrupt_default: Received interrupt %d\n", irq_number); __cvmx_interrupt_dump_registers(registers); } /** * @INTERNAL * Handler for interrupt lines 2 and 3. These are directly tied * to the CIU. The handler queres the status of the CIU and * calls the secondary handler for the CIU interrupt that * occurred. * * @param irq_number Interrupt number that fired (2 or 3) * @param registers Registers at the time of the interrupt * @param user_arg Unused user argument */ static void __cvmx_interrupt_ciu(int irq_number, uint64_t registers[32], void *user_arg) { int ciu_offset = cvmx_get_core_num() * 2 + irq_number - 2; uint64_t irq_mask = cvmx_read_csr(CVMX_CIU_INTX_SUM0(ciu_offset)) & cvmx_read_csr(CVMX_CIU_INTX_EN0(ciu_offset)); int irq = 8; /* Handle EN0 sources */ while (irq_mask) { if (irq_mask&1) { cvmx_interrupt_state.handlers[irq](irq, registers, cvmx_interrupt_state.data[irq]); return; } irq_mask = irq_mask >> 1; irq++; } /* Handle EN1 sources */ irq_mask = cvmx_read_csr(CVMX_CIU_INT_SUM1) & cvmx_read_csr(CVMX_CIU_INTX_EN1(ciu_offset)); irq = 8 + 64; while (irq_mask) { if (irq_mask&1) { cvmx_interrupt_state.handlers[irq](irq, registers, cvmx_interrupt_state.data[irq]); return; } irq_mask = irq_mask >> 1; irq++; } } /** * @INTERNAL * Called for all RML interrupts. This is usually an ECC error * * @param irq_number Interrupt number that we're being called for * @param registers Registers at the time of the interrupt * @param user_arg Unused user argument */ static void __cvmx_interrupt_ecc(int irq_number, uint64_t registers[32], void *user_arg) { cvmx_error_poll(); } /** * Process an interrupt request * * @param registers Registers at time of interrupt / exception * Registers 0-31 are standard MIPS, others specific to this routine * @return */ EXTERN_ASM void cvmx_interrupt_do_irq(uint64_t registers[35]); void cvmx_interrupt_do_irq(uint64_t registers[35]) { uint64_t mask; uint64_t cause; uint64_t status; uint64_t cache_err; int i; uint32_t exc_vec; /* Determine the cause of the interrupt */ asm volatile ("dmfc0 %0,$13,0" : "=r" (cause)); asm volatile ("dmfc0 %0,$12,0" : "=r" (status)); /* In case of exception, clear all interrupts to avoid recursive interrupts. Also clear EXL bit to display the correct PC value. */ if ((cause & 0x7c) == 0) { asm volatile ("dmtc0 %0, $12, 0" : : "r" (status & ~(0xff02))); } /* The assembly stub at each exception vector saves its address in k1 when ** it calls the stage 2 handler. We use this to compute the exception vector ** that brought us here */ exc_vec = (uint32_t)(registers[27] & 0x780); /* Mask off bits we need to ignore */ /* Check for cache errors. The cache errors go to a separate exception vector, ** so we will only check these if we got here from a cache error exception, and ** the ERL (error level) bit is set. */ if (exc_vec == 0x100 && (status & 0x4)) { i = cvmx_get_core_num(); CVMX_MF_CACHE_ERR(cache_err); /* Use copy of DCACHE_ERR register that early exception stub read */ if (registers[34] & 0x1) { cvmx_safe_printf("Dcache error detected: core: %d, set: %d, va 6:3: 0x%x\n", i, (int)(cache_err >> 3) & 0x3, (int)(cache_err >> 3) & 0xf); uint64_t dcache_err = 0; CVMX_MT_DCACHE_ERR(dcache_err); } else if (cache_err & 0x1) { cvmx_safe_printf("Icache error detected: core: %d, set: %d, way : %d\n", i, (int)(cache_err >> 5) & 0x3f, (int)(cache_err >> 7) & 0x3); cache_err = 0; CVMX_MT_CACHE_ERR(cache_err); } else cvmx_safe_printf("Cache error exception: core %d\n", i); } if ((cause & 0x7c) != 0) { cvmx_interrupt_state.exception_handler(registers); goto return_from_interrupt; } /* Convert the cause into an active mask */ mask = ((cause & status) >> 8) & 0xff; if (mask == 0) { goto return_from_interrupt; /* Spurious interrupt */ } for (i=0; i<8; i++) { if (mask & (1<<i)) { cvmx_interrupt_state.handlers[i](i, registers, cvmx_interrupt_state.data[i]); goto return_from_interrupt; } } /* We should never get here */ __cvmx_interrupt_default_exception_handler(registers); return_from_interrupt: /* Restore Status register before returning from exception. */ asm volatile ("dmtc0 %0, $12, 0" : : "r" (status)); } /** * Initialize the interrupt routine and copy the low level * stub into the correct interrupt vector. This is called * automatically during application startup. */ void cvmx_interrupt_initialize(void) { void *low_level_loc; cvmx_sysinfo_t *sys_info_ptr = cvmx_sysinfo_get(); int i; /* Disable all CIU interrupts by default */ cvmx_write_csr(CVMX_CIU_INTX_EN0(cvmx_get_core_num()*2), 0); cvmx_write_csr(CVMX_CIU_INTX_EN0(cvmx_get_core_num()*2+1), 0); cvmx_write_csr(CVMX_CIU_INTX_EN1(cvmx_get_core_num()*2), 0); cvmx_write_csr(CVMX_CIU_INTX_EN1(cvmx_get_core_num()*2+1), 0); if (cvmx_coremask_first_core(sys_info_ptr->core_mask)) { cvmx_interrupt_state.exception_handler = __cvmx_interrupt_default_exception_handler; for (i=0; i<256; i++) { cvmx_interrupt_state.handlers[i] = __cvmx_interrupt_default; cvmx_interrupt_state.data[i] = NULL; } low_level_loc = CASTPTR(void, CVMX_ADD_SEG32(CVMX_MIPS32_SPACE_KSEG0,sys_info_ptr->exception_base_addr)); memcpy(low_level_loc + 0x80, (void*)cvmx_interrupt_stage1, 0x80); memcpy(low_level_loc + 0x100, (void*)cvmx_interrupt_cache_error, 0x80); memcpy(low_level_loc + 0x180, (void*)cvmx_interrupt_stage1, 0x80); memcpy(low_level_loc + 0x200, (void*)cvmx_interrupt_stage1, 0x80); /* Make sure the locations used to count Icache and Dcache exceptions starts out as zero */ cvmx_write64_uint64(CVMX_ADD_SEG32(CVMX_MIPS32_SPACE_KSEG0, 8), 0); cvmx_write64_uint64(CVMX_ADD_SEG32(CVMX_MIPS32_SPACE_KSEG0, 16), 0); cvmx_write64_uint64(CVMX_ADD_SEG32(CVMX_MIPS32_SPACE_KSEG0, 24), 0); CVMX_SYNC; /* Add an interrupt handlers for chained CIU interrupts */ cvmx_interrupt_register(CVMX_IRQ_CIU0, __cvmx_interrupt_ciu, NULL); cvmx_interrupt_register(CVMX_IRQ_CIU1, __cvmx_interrupt_ciu, NULL); /* Add an interrupt handler for ECC failures */ cvmx_interrupt_register(CVMX_IRQ_RML, __cvmx_interrupt_ecc, NULL); if (cvmx_error_initialize(0 /* || CVMX_ERROR_FLAGS_ECC_SINGLE_BIT */)) cvmx_warn("cvmx_error_initialize() failed\n"); cvmx_interrupt_unmask_irq(CVMX_IRQ_RML); } cvmx_interrupt_unmask_irq(CVMX_IRQ_CIU0); cvmx_interrupt_unmask_irq(CVMX_IRQ_CIU1); CVMX_ICACHE_INVALIDATE; /* Enable interrupts for each core (bit0 of COP0 Status) */ uint32_t mask; asm volatile ( "mfc0 %0,$12,0\n" "ori %0, %0, 1\n" "mtc0 %0,$12,0\n" : "=r" (mask)); } /** * Register an interrupt handler for the specified interrupt number. * * @param irq_number Interrupt number to register for (0-135) See * cvmx-interrupt.h for enumeration and description of sources. * @param func Function to call on interrupt. * @param user_arg User data to pass to the interrupt handler */ void cvmx_interrupt_register(cvmx_irq_t irq_number, cvmx_interrupt_func_t func, void *user_arg) { cvmx_interrupt_state.handlers[irq_number] = func; cvmx_interrupt_state.data[irq_number] = user_arg; CVMX_SYNCWS; } /** * Set the exception handler for all non interrupt sources. * * @param handler New exception handler * @return Old exception handler */ cvmx_interrupt_exception_t cvmx_interrupt_set_exception(cvmx_interrupt_exception_t handler) { cvmx_interrupt_exception_t result = cvmx_interrupt_state.exception_handler; cvmx_interrupt_state.exception_handler = handler; CVMX_SYNCWS; return result; } #endif /* !__U_BOOT__ */