/* * This routine starts the application. It includes application, * board, and monitor specific initialization and configuration. * The generic CPU dependent initialization has been performed * before this routine is invoked. * * COPYRIGHT (c) 1989-1998. * On-Line Applications Research Corporation (OAR). * * The license and distribution terms for this file may be * found in the file LICENSE in this distribution or at * http://www.rtems.com/license/LICENSE. * * Modified to support the MCP750. * Modifications Copyright (C) 1999 Eric Valette. valette@crf.canon.fr * * Modified for mvme3100 by T. Straumann * * $Id$ */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define SHOW_MORE_INIT_SETTINGS #undef DEBUG #ifdef DEBUG #define STATIC #else #define STATIC static #endif extern unsigned long __rtems_end[]; extern void bsp_cleanup(void); extern void BSP_vme_config(); SPR_RW(SPRG0) SPR_RW(SPRG1) /* * Copy Additional boot param passed by boot loader */ #define CMDLINE_BUF_SIZE 2048 static char cmdline_buf[CMDLINE_BUF_SIZE] = {0}; char *BSP_commandline_string = cmdline_buf; extern const char *BSP_build_date; /* * Vital Board data Start using DATA RESIDUAL */ uint32_t bsp_clicks_per_usec = 0; /* * Total memory using RESIDUAL DATA */ unsigned int BSP_mem_size = 0; /* * Where the heap starts; is used by bsp_pretasking_hook; */ unsigned int BSP_heap_start = 0; /* * PCI Bus Frequency */ unsigned int BSP_pci_bus_frequency = 0xdeadbeef; /* * PPC Bus Frequency */ unsigned int BSP_bus_frequency = 0; /* * processor clock frequency */ unsigned int BSP_processor_frequency = 0; /* * Time base divisior (how many tick for 1 second). */ unsigned int BSP_time_base_divisor = 8000; /* if external RTC clock unused (HID0) */ /* Board identification string */ char BSP_productIdent[20] = {0}; char BSP_serialNumber[20] = {0}; /* VPD appends an extra char -- what for ? */ char BSP_enetAddr0[7] = {0}; char BSP_enetAddr1[7] = {0}; char BSP_enetAddr2[7] = {0}; static void prether(char *b, int idx) { int i; printk("Ethernet %i %02X", idx, *b++); for ( i=0; i<5; i++ ) printk(":%02X",*b++); printk("\n"); } /* * system init stack and soft ir stack size */ #define INIT_STACK_SIZE 0x1000 #define INTR_STACK_SIZE rtems_configuration_get_interrupt_stack_size() BSP_output_char_function_type BSP_output_char = BSP_output_char_via_serial; void BSP_panic(char *s) { printk("\n%s PANIC %s\n",_RTEMS_version, s); __asm__ __volatile ("sc"); } void _BSP_Fatal_error(unsigned int v) { printk("\n%s PANIC ERROR %x\n",_RTEMS_version, v); __asm__ __volatile ("sc"); } /* * The original table from the application and our copy of it with * some changes. */ extern rtems_configuration_table Configuration; char *rtems_progname; /* * Use the shared implementations of the following routines */ void save_boot_params(void* r3, void *r4, void* r5, char *additional_boot_options) { strncpy(cmdline_buf, additional_boot_options, CMDLINE_BUF_SIZE); cmdline_buf[CMDLINE_BUF_SIZE - 1] ='\0'; } #define CS_CONFIG_CS_EN (1<<31) #define CS_BNDS_SA(x) ((((uint32_t)(x))>>(31-15)) & 0xff) #define CS_BNDS_EA(x) ((((uint32_t)(x))>>(31-31)) & 0xff) static inline uint32_t _ccsr_rd32(uint32_t off) { return in_be32( (volatile unsigned *)(BSP_8540_CCSR_BASE + off) ); } static inline void _ccsr_wr32(uint32_t off, uint32_t val) { out_be32( (volatile unsigned *)(BSP_8540_CCSR_BASE + off), val ); } STATIC uint32_t BSP_get_mem_size() { int i; uint32_t cs_bnds, cs_config; uint32_t memsz=0; uint32_t v; for ( cs_bnds = 0x2000, cs_config=0x2080, i=0; i<4; i++, cs_bnds+=8, cs_config+=4 ) { if ( CS_CONFIG_CS_EN & _ccsr_rd32( cs_config ) ) { v = _ccsr_rd32( cs_bnds ); memsz += CS_BNDS_EA(v) - CS_BNDS_SA(v) + 1; } } return memsz << 24; } STATIC void BSP_calc_freqs() { uint32_t porpllsr = _ccsr_rd32( 0xe0000 ); unsigned plat_ratio = (porpllsr >> (31-30)) & 0x1f; unsigned e500_ratio = (porpllsr >> (31-15)) & 0x3f; switch ( plat_ratio ) { case 2: case 3: case 4: case 5: case 6: case 8: case 9: case 10: case 12: case 16: /* supported ratios */ BSP_bus_frequency = BSP_pci_bus_frequency * plat_ratio; break; default: BSP_panic("Unknown PLL sys-clock ratio; something's wrong here"); } switch ( e500_ratio ) { case 4: case 5: case 6: case 7: BSP_processor_frequency = (BSP_pci_bus_frequency * e500_ratio) >> 1; break; default: BSP_panic("Unknown PLL e500-clock ratio; something's wrong here"); } printk("Core Complex Bus (CCB) Clock Freq: %10u Hz\n", BSP_bus_frequency); printk("CPU Clock Freq: %10u Hz\n", BSP_processor_frequency); } void bsp_predriver_hook(void) { /* Some drivers (RTC) may need i2c */ BSP_i2c_initialize(); } /* * bsp_start * * This routine does the bulk of the system initialization. */ #include SPR_RW(HID1) void bsp_start( void ) { unsigned char *stack; register uint32_t intrStack; register uint32_t *intrStackPtr; unsigned char *work_space_start; char *chpt; ppc_cpu_id_t myCpu; ppc_cpu_revision_t myCpuRevision; VpdBufRec vpdData [] = { { key: ProductIdent, instance: 0, buf: BSP_productIdent, buflen: sizeof(BSP_productIdent) - 1 }, { key: SerialNumber, instance: 0, buf: BSP_serialNumber, buflen: sizeof(BSP_serialNumber) - 1 }, { key: BusClockHz, instance: 0, buf: &BSP_pci_bus_frequency, buflen: sizeof(BSP_pci_bus_frequency) }, { key: EthernetAddr, instance: 0, buf: BSP_enetAddr0, buflen: sizeof(BSP_enetAddr0) }, { key: EthernetAddr, instance: 1, buf: BSP_enetAddr1, buflen: sizeof(BSP_enetAddr1) }, { key: EthernetAddr, instance: 2, buf: BSP_enetAddr2, buflen: sizeof(BSP_enetAddr2) }, VPD_END }; /* Intersperse messages with actions to help locate problems */ printk("-----------------------------------------\n"); /* * Get CPU identification dynamically. Note that the get_ppc_cpu_type() * function store the result in global variables so that it can be used * later... */ myCpu = get_ppc_cpu_type(); myCpuRevision = get_ppc_cpu_revision(); printk("Welcome to %s\n", _RTEMS_version); printk("BSP: %s, CVS Release ($Name$)\n", "mvme3100"); /* * the initial stack has aready been set to this value in start.S * so there is no need to set it in r1 again... It is just for info * so that It can be printed without accessing R1. */ asm volatile("mr %0, 1":"=r"(stack)); #if 0 stack = ((unsigned char*) __rtems_end) + INIT_STACK_SIZE - PPC_MINIMUM_STACK_FRAME_SIZE; #endif /* tag the bottom */ *((uint32_t*)stack) = 0; /* * Initialize the interrupt related settings * SPRG1 = software managed IRQ stack * * This could be done later (e.g in IRQ_INIT) but it helps to understand * some settings below... */ BSP_heap_start = ((uint32_t) __rtems_end) + INIT_STACK_SIZE + INTR_STACK_SIZE; /* reserve space for the marker/tag frame */ intrStack = BSP_heap_start - PPC_MINIMUM_STACK_FRAME_SIZE; /* make sure it's properly aligned */ intrStack &= ~(CPU_STACK_ALIGNMENT-1); /* tag the bottom (T. Straumann 6/36/2001 ) */ intrStackPtr = (uint32_t*) intrStack; *intrStackPtr = 0; _write_SPRG1(intrStack); /* signal them that we have fixed PR288 - eventually, this should go away */ _write_SPRG0(PPC_BSP_HAS_FIXED_PR288); /* * Initialize default raw exception handlers. See vectors/vectors_init.c */ initialize_exceptions(); printk("CPU 0x%x - rev 0x%x\n", myCpu, myCpuRevision); #ifdef SHOW_MORE_INIT_SETTINGS printk("Additionnal boot options are %s\n", BSP_commandline_string); printk("Initial system stack at %x\n", stack); printk("Software IRQ stack at %x\n", intrStack); #endif #ifdef SHOW_MORE_INIT_SETTINGS printk("Going to start PCI buses scanning and initialization\n"); #endif { /* disable checking for memory-select errors */ *(volatile uint32_t*)0xe1002e44 |= 1; /* clear all pending errors */ *(volatile uint32_t*)0xe1002e40 = 0xffffffff; /* enable machine check for bad bus errors */ _write_HID1( _read_HID1() | 0x20000 ); } printk("Build Date: %s\n",BSP_build_date); BSP_vpdRetrieveFields( vpdData ); printk("Board Type: %s (S/N %s)\n", BSP_productIdent[0] ? BSP_productIdent : "n/a", BSP_serialNumber[0] ? BSP_serialNumber : "n/a"); printk("External (=PCI Bus) Clock Freq "); if ( 0xdeadbeef == BSP_pci_bus_frequency ) { BSP_pci_bus_frequency = 66666666; printk(" NOT FOUND in VPD; using %10u Hz\n", BSP_pci_bus_frequency); } else { printk(": %10u Hz\n", BSP_pci_bus_frequency); } /* Calculate CPU and CCB bus freqs */ BSP_calc_freqs(); pci_initialize(); prether(BSP_enetAddr0, 0); prether(BSP_enetAddr1, 1); prether(BSP_enetAddr2, 2); /* need to tweak the motload setup */ BSP_motload_pci_fixup(); #ifdef SHOW_MORE_INIT_SETTINGS printk("Number of PCI buses found is : %d\n", pci_bus_count()); { void BSP_pciConfigDump_early(); BSP_pciConfigDump_early(); } #endif #ifdef TEST_RAW_EXCEPTION_CODE printk("Testing exception handling Part 1\n"); /* * Cause a software exception */ __asm__ __volatile ("sc"); /* * Check we can still catch exceptions and return coorectly. */ printk("Testing exception handling Part 2\n"); __asm__ __volatile ("sc"); /* * Somehow doing the above seems to clobber SPRG0 on the mvme2100. It * is probably a not so subtle hint that you do not want to use PPCBug * once RTEMS is up and running. Anyway, we still needs to indicate * that we have fixed PR288. Eventually, this should go away. */ _write_SPRG0(PPC_BSP_HAS_FIXED_PR288); #endif BSP_mem_size = BSP_get_mem_size(); if ( (chpt = strstr(BSP_commandline_string,"MEMSZ=")) ) { char *endp; uint32_t sz; chpt+=6 /* strlen("MEMSZ=") */; sz = strtoul(chpt, &endp, 0); if ( endp != chpt ) BSP_mem_size = sz; } printk("Memory: %10u bytes\n", BSP_mem_size); BSP_bus_frequency = 333333333; BSP_processor_frequency = 833333333; BSP_time_base_divisor = 8000; /* if external RTC clock unused (HID0) */ /* clear hostbridge errors but leave MCP disabled - * PCI config space scanning code will trip otherwise :-( */ _BSP_clear_hostbridge_errors(0 /* enableMCP */, 0/*quiet*/); /* * Set up our hooks * Make sure libc_init is done before drivers initialized so that * they can use atexit() */ #if 0 Cpu_table.interrupt_stack_size = CONFIGURE_INTERRUPT_STACK_MEMORY; /* FIXME */ #endif bsp_clicks_per_usec = BSP_bus_frequency/(BSP_time_base_divisor * 1000); #ifdef SHOW_MORE_INIT_SETTINGS printk("Configuration.work_space_size = %x\n", Configuration.work_space_size); #endif work_space_start = (unsigned char *)BSP_mem_size - Configuration.work_space_size; if ( work_space_start <= ((unsigned char *)__rtems_end) + INIT_STACK_SIZE + INTR_STACK_SIZE) { printk( "bspstart: Not enough RAM!!!\n" ); bsp_cleanup(); } Configuration.work_space_start = work_space_start; /* * Initalize RTEMS IRQ system */ BSP_rtems_irq_mng_init(0); if (1) { int i; unsigned msr,tcr; asm volatile("mfmsr %0":"=r"(msr)); asm volatile("mftcr %0":"=r"(tcr)); printk("MSR is 0x%08x, TCR 0x%08x\n",msr,tcr); asm volatile("mttcr %0"::"r"(0)); if (0) { asm volatile("mtmsr %0"::"r"(msr|0x8000)); for (i=0; i<12; i++) BSP_enable_irq_at_pic(i); printk("IRQS enabled\n"); } } if (0) { extern unsigned ppc_exc_lock_std, ppc_exc_gpr3_std; unsigned x; asm volatile("mfivpr %0":"=r"(x)); printk("IVPR: 0x%08x\n",x); asm volatile("mfivor8 %0":"=r"(x)); printk("IVOR8: 0x%08x\n",x); printk("0x%08x\n",*(unsigned *)0xc00); printk("0x%08x\n",*(unsigned *)0xc04); printk("0x%08x\n",*(unsigned *)0xc08); printk("0x%08x\n\n\n",*(unsigned *)0xc0c); if (0) { *(unsigned *)0xc08 = 0x4c000064; asm volatile("dcbf 0, %0; icbi 0, %0; sync; isync"::"r"(0xc00)); } printk("0x%08x\n", ppc_exc_lock_std); printk("0x%08x\n", ppc_exc_gpr3_std); asm volatile("sc"); printk("0x%08x\n", ppc_exc_lock_std); printk("0x%08x\n", ppc_exc_gpr3_std); } printk("-----------------------------------------\n"); #ifdef SHOW_MORE_INIT_SETTINGS printk("Exit from bspstart\n"); #endif }