/* $Id$ * * This file is subject to the terms and conditions of the GNU General Public * License. See the file "COPYING" in the main directory of this archive * for more details. * * Copyright (C) 1992 - 1997, 2000 Silicon Graphics, Inc. * Copyright (C) 2000 by Colin Ngam */ #include #include #include #include #include #include #include #include #include extern void mlreset(int ); extern int init_hcl(void); extern void klgraph_hack_init(void); extern void per_hub_init(cnodeid_t); extern void hubspc_init(void); extern void pciba_init(void); extern void pciio_init(void); extern void pcibr_init(void); extern void xtalk_init(void); extern void xbow_init(void); extern void xbmon_init(void); extern void pciiox_init(void); extern void usrpci_init(void); extern void ioc3_init(void); extern void initialize_io(void); extern void init_platform_nodepda(nodepda_t *, cnodeid_t ); extern void intr_clear_all(nasid_t); extern void klhwg_add_all_modules(devfs_handle_t); extern void klhwg_add_all_nodes(devfs_handle_t); void sn_mp_setup(void); extern devfs_handle_t hwgraph_root; extern void io_module_init(void); extern cnodeid_t nasid_to_compact_node[]; extern void pci_bus_cvlink_init(void); extern void temp_hack(void); extern void init_platform_pda(cpuid_t cpu); extern int pci_bus_to_hcl_cvlink(void); extern synergy_da_t *Synergy_da_indr[]; #define DEBUG_IO_INIT #ifdef DEBUG_IO_INIT #define DBG(x...) printk(x) #else #define DBG(x...) #endif /* DEBUG_IO_INIT */ /* * kern/ml/csu.s calls mlsetup * mlsetup calls mlreset(master) - kern/os/startup.c * j main * * SN/slave.s start_slave_loop calls slave_entry * SN/slave.s slave_entry calls slave_loop * SN/slave.s slave_loop calls bootstrap * bootstrap in SN1/SN1asm.s calls cboot * cboot calls mlreset(slave) - ml/SN/mp.c * * sgi_io_infrastructure_init() gets called right before pci_init() * in Linux mainline. This routine actually mirrors the IO Infrastructure * call sequence in IRIX, ofcourse, nicely modified for Linux. * * It is very IMPORTANT that this call is only made by the Master CPU! * */ void sgi_master_io_infr_init(void) { int cnode; extern int maxnodes; /* * Do any early init stuff .. einit_tbl[] etc. */ DBG("--> sgi_master_io_infr_init: calling init_hcl().\n"); init_hcl(); /* Sets up the hwgraph compatibility layer with devfs */ /* * initialize the Linux PCI to xwidget vertexes .. */ DBG("--> sgi_master_io_infr_init: calling pci_bus_cvlink_init().\n"); pci_bus_cvlink_init(); /* * Hack to provide statically initialzed klgraph entries. */ DBG("--> sgi_master_io_infr_init: calling klgraph_hack_init()\n"); klgraph_hack_init(); /* * This is the Master CPU. Emulate mlsetup and main.c in Irix. */ DBG("--> sgi_master_io_infr_init: calling mlreset(0).\n"); mlreset(0); /* Master .. */ /* * allowboot() is called by kern/os/main.c in main() * Emulate allowboot() ... * per_cpu_init() - only need per_hub_init() * cpu_io_setup() - Nothing to do. * */ DBG("--> sgi_master_io_infr_init: calling sn_mp_setup().\n"); sn_mp_setup(); DBG("--> sgi_master_io_infr_init: calling per_hub_init(0).\n"); for (cnode = 0; cnode < maxnodes; cnode++) { per_hub_init(cnode); } /* We can do headless hub cnodes here .. */ /* * io_init[] stuff. * * Get SGI IO Infrastructure drivers to init and register with * each other etc. */ DBG("--> sgi_master_io_infr_init: calling hubspc_init()\n"); hubspc_init(); DBG("--> sgi_master_io_infr_init: calling pciba_init()\n"); pciba_init(); DBG("--> sgi_master_io_infr_init: calling pciio_init()\n"); pciio_init(); DBG("--> sgi_master_io_infr_init: calling pcibr_init()\n"); pcibr_init(); DBG("--> sgi_master_io_infr_init: calling xtalk_init()\n"); xtalk_init(); DBG("--> sgi_master_io_infr_init: calling xbow_init()\n"); xbow_init(); DBG("--> sgi_master_io_infr_init: calling xbmon_init()\n"); xbmon_init(); DBG("--> sgi_master_io_infr_init: calling pciiox_init()\n"); pciiox_init(); DBG("--> sgi_master_io_infr_init: calling usrpci_init()\n"); usrpci_init(); DBG("--> sgi_master_io_infr_init: calling ioc3_init()\n"); ioc3_init(); /* * * Our IO Infrastructure drivers are in place .. * Initialize the whole IO Infrastructure .. xwidget/device probes. * */ DBG("--> sgi_master_io_infr_init: Start Probe and IO Initialization\n"); initialize_io(); DBG("--> sgi_master_io_infr_init: Setting up SGI IO Links for Linux PCI\n"); pci_bus_to_hcl_cvlink(); DBG("--> Leave sgi_master_io_infr_init: DONE setting up SGI Links for PCI\n"); } /* * sgi_slave_io_infr_init - This routine must be called on all cpus except * the Master CPU. */ void sgi_slave_io_infr_init(void) { /* Emulate cboot() .. */ mlreset(1); /* This is a slave cpu */ // per_hub_init(0); /* Need to get and send in actual cnode number */ /* Done */ } /* * One-time setup for MP SN. * Allocate per-node data, slurp prom klconfig information and * convert it to hwgraph information. */ void sn_mp_setup(void) { cnodeid_t cnode; extern int maxnodes; cpuid_t cpu; DBG("sn_mp_setup: Entered.\n"); /* * NODEPDA(x) Macro depends on nodepda * subnodepda is also statically set to calias space which we * do not currently support yet .. just a hack for now. */ #ifdef NUMA_BASE maxnodes = numnodes; DBG("sn_mp_setup(): maxnodes= %d numnodes= %d\n", maxnodes,numnodes); printk("sn_mp_setup(): Allocating backing store for *Nodepdaindr[%2d] \n", maxnodes); /* * Initialize Nodpdaindr and per-node nodepdaindr array */ *Nodepdaindr = (nodepda_t *) kmalloc(sizeof(nodepda_t *)*numnodes, GFP_KERNEL); for (cnode=0; cnodepernode_pdaindr = Nodepdaindr; subnodepda = &Nodepdaindr[cnode]->snpda[cnode]; } nodepda = Nodepdaindr[0]; #else Nodepdaindr = (nodepda_t *) kmalloc(sizeof(struct nodepda_s), GFP_KERNEL); nodepda = Nodepdaindr[0]; subnodepda = &Nodepdaindr[0]->snpda[0]; #endif /* NUMA_BASE */ /* * Before we let the other processors run, set up the platform specific * stuff in the nodepda. * * ???? maxnodes set in mlreset .. who sets it now ???? * ???? cpu_node_probe() called in mlreset to set up the following: * compact_to_nasid_node[] - cnode id gives nasid * nasid_to_compact_node[] - nasid gives cnode id * * do_cpumask() sets the following: * cpuid_to_compact_node[] - cpuid gives cnode id * * nasid comes from gdap->g_nasidtable[] * ml/SN/promif.c */ #ifdef CONFIG_IA64_SGI_SN1 for (cpu = 0; cpu < smp_num_cpus; cpu++) { /* Skip holes in CPU space */ if (cpu_enabled(cpu)) { init_platform_pda(cpu); } } #endif for (cnode = 0; cnode < maxnodes; cnode++) { /* * Set up platform-dependent nodepda fields. * The following routine actually sets up the hubinfo struct * in nodepda. */ DBG("sn_mp_io_setup: calling init_platform_nodepda(%2d)\n",cnode); init_platform_nodepda(Nodepdaindr[cnode], cnode); } /* * Initialize platform-dependent vertices in the hwgraph: * module * node * cpu * memory * slot * hub * router * xbow */ DBG("sn_mp_io_setup: calling io_module_init()\n"); io_module_init(); /* Use to be called module_init() .. */ DBG("sn_mp_setup: calling klhwg_add_all_modules()\n"); klhwg_add_all_modules(hwgraph_root); DBG("sn_mp_setup: calling klhwg_add_all_nodes()\n"); klhwg_add_all_nodes(hwgraph_root); for (cnode = 0; cnode < maxnodes; cnode++) { /* * This routine clears the Hub's Interrupt registers. */ #ifdef CONFIG_IA64_SGI_SN1 /* * We need to move this intr_clear_all() routine * from SN/intr.c to a more appropriate file. * Talk to Al Mayer. */ intr_clear_all(COMPACT_TO_NASID_NODEID(cnode)); /* now init the hub */ // per_hub_init(cnode); #endif } #if defined(CONFIG_IA64_SGI_SYNERGY_PERF) synergy_perf_init(); #endif /* CONFIG_IA64_SGI_SYNERGY_PERF */ }