/* * This file is part of the coreboot project. * * Copyright (C) 2007-2008 Advanced Micro Devices, Inc. * * This program 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; version 2 of the License. * * This program 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. */ #define SYSTEM_TYPE 0 /* SERVER */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "southbridge/amd/amd8111/early_smbus.c" #include "southbridge/amd/amd8111/early_ctrl.c" #include "cpu/amd/quadcore/quadcore.c" #define SERIAL_DEV PNP_DEV(0x2e, W83627HF_SP1) int spd_read_byte(unsigned int device, unsigned int address); static void memreset_setup(void) { /* GPIO on amd8111 to enable MEMRST ???? */ outb((1 << 2)|(1 << 0), SMBUS_IO_BASE + 0xc0 + 16); /* REVC_MEMRST_EN = 1 */ outb((1 << 2)|(0 << 0), SMBUS_IO_BASE + 0xc0 + 17); } void activate_spd_rom(const struct mem_controller *ctrl) { #define SMBUS_HUB 0x18 int ret,i; u8 device = ctrl->spd_switch_addr; printk(BIOS_DEBUG, "switch i2c to : %02x for node %02x\n", device, ctrl->node_id); /* the very first write always get COL_STS = 1 and ABRT_STS = 1, so try another time*/ i = 2; do { ret = smbus_write_byte(SMBUS_HUB, 0x01, (1<<(device & 0x7))); } while ((ret != 0) && (i-->0)); smbus_write_byte(SMBUS_HUB, 0x03, 0); } int spd_read_byte(u32 device, u32 address) { return smbus_read_byte(device, address); } static const u8 spd_addr[] = { /* first node */ RC00, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, #if CONFIG_MAX_PHYSICAL_CPUS > 1 /* second node */ RC01, DIMM0, DIMM2, DIMM4, DIMM6, DIMM1, DIMM3, DIMM5, DIMM7, #endif #if CONFIG_MAX_PHYSICAL_CPUS > 2 /* third node */ RC02, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, /* forth node */ RC03, DIMM0, DIMM2, DIMM4, DIMM6, DIMM1, DIMM3, DIMM5, DIMM7, #endif #if CONFIG_MAX_PHYSICAL_CPUS > 4 RC04, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC05, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, #endif #if CONFIG_MAX_PHYSICAL_CPUS > 6 RC06, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC07, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, #endif #if CONFIG_MAX_PHYSICAL_CPUS > 8 RC08, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC09, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC10, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC11, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, #endif #if CONFIG_MAX_PHYSICAL_CPUS > 12 RC12, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC13, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC14, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC15, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, #endif #if CONFIG_MAX_PHYSICAL_CPUS > 16 RC16, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC17, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC18, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC19, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, #endif #if CONFIG_MAX_PHYSICAL_CPUS > 20 RC20, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC21, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC22, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC23, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, #endif #if CONFIG_MAX_PHYSICAL_CPUS > 24 RC24, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC25, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC26, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC27, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC28, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC29, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC30, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC31, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, #endif #if CONFIG_MAX_PHYSICAL_CPUS > 32 RC32, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC33, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC34, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC35, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC36, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC37, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC38, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC39, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC40, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC41, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC42, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC43, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC44, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC45, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC46, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC47, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, #endif #if CONFIG_MAX_PHYSICAL_CPUS > 48 RC48, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC49, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC50, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC51, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC52, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC53, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC54, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC55, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC56, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC57, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC58, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC59, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC60, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC61, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC62, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, RC63, DIMM0, DIMM2, 0, 0, DIMM1, DIMM3, 0, 0, #endif }; void cache_as_ram_main(unsigned long bist, unsigned long cpu_init_detectedx) { struct sys_info *sysinfo = get_sysinfo(); u32 bsp_apicid = 0, val; msr_t msr; timestamp_init(timestamp_get()); timestamp_add_now(TS_START_ROMSTAGE); if (!cpu_init_detectedx && boot_cpu()) { /* Nothing special needs to be done to find bus 0 */ /* Allow the HT devices to be found */ /* mov bsp to bus 0xff when > 8 nodes */ set_bsp_node_CHtExtNodeCfgEn(); enumerate_ht_chain(); } post_code(0x30); if (bist == 0) { bsp_apicid = init_cpus(cpu_init_detectedx, sysinfo); /* mmconf is inited in init_cpus */ /* All cores run this but the BSP(node0,core0) is the only core that returns. */ } post_code(0x32); winbond_enable_serial(SERIAL_DEV, CONFIG_TTYS0_BASE); console_init(); /* Halt if there was a built in self test failure */ report_bist_failure(bist); /* Load MPB */ val = cpuid_eax(1); printk(BIOS_DEBUG, "BSP Family_Model: %08x\n", val); printk(BIOS_DEBUG, "*sysinfo range: [%p,%p]\n",sysinfo,sysinfo+1); printk(BIOS_DEBUG, "bsp_apicid = %02x\n", bsp_apicid); printk(BIOS_DEBUG, "cpu_init_detectedx = %08lx\n", cpu_init_detectedx); /* Setup sysinfo defaults */ set_sysinfo_in_ram(0); update_microcode(val); post_code(0x33); cpuSetAMDMSR(0); post_code(0x34); amd_ht_init(sysinfo); post_code(0x35); /* Setup nodes PCI space and start core 0 AP init. */ finalize_node_setup(sysinfo); /* Setup any mainboard PCI settings etc. */ setup_mb_resource_map(); post_code(0x36); /* wait for all the APs core0 started by finalize_node_setup. */ /* FIXME: A bunch of cores are going to start output to serial at once. It would be nice to fixup prink spinlocks for ROM XIP mode. I think it could be done by putting the spinlock flag in the cache of the BSP located right after sysinfo. */ wait_all_core0_started(); #if CONFIG(LOGICAL_CPUS) /* Core0 on each node is configured. Now setup any additional cores. */ printk(BIOS_DEBUG, "start_other_cores()\n"); start_other_cores(bsp_apicid); post_code(0x37); wait_all_other_cores_started(bsp_apicid); #endif post_code(0x38); #if CONFIG(SET_FIDVID) msr = rdmsr(MSR_COFVID_STS); printk(BIOS_DEBUG, "\nBegin FIDVID MSR 0xc0010071 0x%08x 0x%08x\n", msr.hi, msr.lo); /* FIXME: The sb fid change may survive the warm reset and only need to be done once.*/ enable_fid_change_on_sb(sysinfo->sbbusn, sysinfo->sbdn); post_code(0x39); if (!warm_reset_detect(0)) { /* BSP is node 0 */ init_fidvid_bsp(bsp_apicid, sysinfo->nodes); } else { init_fidvid_stage2(bsp_apicid, 0); /* BSP is node 0 */ } post_code(0x3A); /* show final fid and vid */ msr = rdmsr(MSR_COFVID_STS); printk(BIOS_DEBUG, "End FIDVIDMSR 0xc0010071 0x%08x 0x%08x\n", msr.hi, msr.lo); #endif /* Reset for HT, FIDVID, PLL and errata changes to take affect. */ if (!warm_reset_detect(0)) { printk(BIOS_INFO, "...WARM RESET...\n\n\n"); soft_reset_x(sysinfo->sbbusn, sysinfo->sbdn); die("After soft_reset_x - shouldn't see this message!!!\n"); } post_code(0x3B); /* FIXME: Move this to chipset init. enable cf9 for hard reset */ printk(BIOS_DEBUG, "enable_cf9_x()\n"); enable_cf9_x(sysinfo->sbbusn, sysinfo->sbdn); post_code(0x3C); /* It's the time to set ctrl in sysinfo now; */ printk(BIOS_DEBUG, "fill_mem_ctrl()\n"); fill_mem_ctrl(sysinfo->nodes, sysinfo->ctrl, spd_addr); post_code(0x3D); printk(BIOS_DEBUG, "enable_smbus()\n"); enable_smbus(); post_code(0x3E); memreset_setup(); post_code(0x40); raminit_amdmct(sysinfo); cbmem_initialize_empty(); post_code(0x41); amdmct_cbmem_store_info(sysinfo); post_code(0x42); } /** * BOOL AMD_CB_ManualBUIDSwapList(u8 Node, u8 Link, u8 **List) * Description: * This routine is called every time a non-coherent chain is processed. * BUID assignment may be controlled explicitly on a non-coherent chain. Provide a * swap list. The first part of the list controls the BUID assignment and the * second part of the list provides the device to device linking. Device orientation * can be detected automatically, or explicitly. See documentation for more details. * * Automatic non-coherent init assigns BUIDs starting at 1 and incrementing sequentially * based on each device's unit count. * * Parameters: * @param[in] node = The node on which this chain is located * @param[in] link = The link on the host for this chain * @param[out] List = supply a pointer to a list */ BOOL AMD_CB_ManualBUIDSwapList (u8 node, u8 link, const u8 **List) { static const u8 swaplist[] = { 0xFF, CONFIG_HT_CHAIN_UNITID_BASE, CONFIG_HT_CHAIN_END_UNITID_BASE, 0xFF }; /* If the BUID was adjusted in early_ht we need to do the manual override */ if ((CONFIG_HT_CHAIN_UNITID_BASE != 0) && (CONFIG_HT_CHAIN_END_UNITID_BASE != 0)) { printk(BIOS_DEBUG, "AMD_CB_ManualBUIDSwapList()\n"); if ((node == 0) && (link == 0)) { /* BSP SB link */ *List = swaplist; return 1; } } return 0; }