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2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055 2056 2057 2058 2059 2060 2061 2062 2063 2064 2065 2066 2067 | /* * IBM Hot Plug Controller Driver * * Written By: Irene Zubarev, IBM Corporation * * Copyright (c) 2001 Greg Kroah-Hartman (greg@kroah.com) * Copyright (c) 2001,2002 IBM Corp. * * All rights reserved. * * 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; either version 2 of the License, or (at * your option) any later version. * * 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, GOOD TITLE or * NON INFRINGEMENT. See the GNU General Public License for more * details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * * Send feedback to <gregkh@us.ibm.com> * */ #include <linux/module.h> #include <linux/slab.h> #include <linux/pci.h> #include <linux/list.h> #include "ibmphp.h" static int flags = 0; /* for testing */ static void update_resources (struct bus_node *bus_cur, int type, int rangeno); static int once_over (void); static int remove_ranges (struct bus_node *, struct bus_node *); static int update_bridge_ranges (struct bus_node **); static int add_range (int type, struct range_node *, struct bus_node *); static void fix_resources (struct bus_node *); static inline struct bus_node *find_bus_wprev (u8, struct bus_node **, u8); static LIST_HEAD(gbuses); static struct bus_node * alloc_error_bus (struct ebda_pci_rsrc * curr) { struct bus_node * newbus; newbus = kmalloc (sizeof (struct bus_node), GFP_KERNEL); if (!newbus) { err ("out of system memory \n"); return NULL; } memset (newbus, 0, sizeof (struct bus_node)); newbus->busno = curr->bus_num; list_add_tail (&newbus->bus_list, &gbuses); return newbus; } static struct resource_node * alloc_resources (struct ebda_pci_rsrc * curr) { struct resource_node *rs = kmalloc (sizeof (struct resource_node), GFP_KERNEL); if (!rs) { err ("out of system memory \n"); return NULL; } memset (rs, 0, sizeof (struct resource_node)); rs->busno = curr->bus_num; rs->devfunc = curr->dev_fun; rs->start = curr->start_addr; rs->end = curr->end_addr; rs->len = curr->end_addr - curr->start_addr + 1; return rs; } static int alloc_bus_range (struct bus_node **new_bus, struct range_node **new_range, struct ebda_pci_rsrc *curr, int flag, u8 first_bus) { struct bus_node * newbus; struct range_node *newrange; u8 num_ranges = 0; if (first_bus) { newbus = kmalloc (sizeof (struct bus_node), GFP_KERNEL); if (!newbus) { err ("out of system memory. \n"); return -ENOMEM; } memset (newbus, 0, sizeof (struct bus_node)); newbus->busno = curr->bus_num; } else { newbus = *new_bus; switch (flag) { case MEM: num_ranges = newbus->noMemRanges; break; case PFMEM: num_ranges = newbus->noPFMemRanges; break; case IO: num_ranges = newbus->noIORanges; break; } } newrange = kmalloc (sizeof (struct range_node), GFP_KERNEL); if (!newrange) { if (first_bus) kfree (newbus); err ("out of system memory \n"); return -ENOMEM; } memset (newrange, 0, sizeof (struct range_node)); newrange->start = curr->start_addr; newrange->end = curr->end_addr; if (first_bus || (!num_ranges)) newrange->rangeno = 1; else { /* need to insert our range */ add_range (flag, newrange, newbus); debug ("%d resource Primary Bus inserted on bus %x [%x - %x]\n", flag, newbus->busno, newrange->start, newrange->end); } switch (flag) { case MEM: newbus->rangeMem = newrange; if (first_bus) newbus->noMemRanges = 1; else { debug ("First Memory Primary on bus %x, [%x - %x]\n", newbus->busno, newrange->start, newrange->end); ++newbus->noMemRanges; fix_resources (newbus); } break; case IO: newbus->rangeIO = newrange; if (first_bus) newbus->noIORanges = 1; else { debug ("First IO Primary on bus %x, [%x - %x]\n", newbus->busno, newrange->start, newrange->end); ++newbus->noIORanges; fix_resources (newbus); } break; case PFMEM: newbus->rangePFMem = newrange; if (first_bus) newbus->noPFMemRanges = 1; else { debug ("1st PFMemory Primary on Bus %x [%x - %x]\n", newbus->busno, newrange->start, newrange->end); ++newbus->noPFMemRanges; fix_resources (newbus); } break; } *new_bus = newbus; *new_range = newrange; return 0; } /* Notes: * 1. The ranges are ordered. The buses are not ordered. (First come) * * 2. If cannot allocate out of PFMem range, allocate from Mem ranges. PFmemFromMem * are not sorted. (no need since use mem node). To not change the entire code, we * also add mem node whenever this case happens so as not to change * ibmphp_check_mem_resource etc (and since it really is taking Mem resource) */ /***************************************************************************** * This is the Resource Management initialization function. It will go through * the Resource list taken from EBDA and fill in this module's data structures * * THIS IS NOT TAKING INTO CONSIDERATION IO RESTRICTIONS OF PRIMARY BUSES, * SINCE WE'RE GOING TO ASSUME FOR NOW WE DON'T HAVE THOSE ON OUR BUSES FOR NOW * * Input: ptr to the head of the resource list from EBDA * Output: 0, -1 or error codes ***************************************************************************/ int ibmphp_rsrc_init (void) { struct ebda_pci_rsrc *curr; struct range_node *newrange = NULL; struct bus_node *newbus = NULL; struct bus_node *bus_cur; struct bus_node *bus_prev; struct list_head *tmp; struct resource_node *new_io = NULL; struct resource_node *new_mem = NULL; struct resource_node *new_pfmem = NULL; int rc; struct list_head *tmp_ebda; list_for_each (tmp_ebda, &ibmphp_ebda_pci_rsrc_head) { curr = list_entry (tmp_ebda, struct ebda_pci_rsrc, ebda_pci_rsrc_list); if (!(curr->rsrc_type & PCIDEVMASK)) { /* EBDA still lists non PCI devices, so ignore... */ debug ("this is not a PCI DEVICE in rsrc_init, please take care\n"); // continue; } /* this is a primary bus resource */ if (curr->rsrc_type & PRIMARYBUSMASK) { /* memory */ if ((curr->rsrc_type & RESTYPE) == MMASK) { /* no bus structure exists in place yet */ if (list_empty (&gbuses)) { if ((rc = alloc_bus_range (&newbus, &newrange, curr, MEM, 1))) return rc; list_add_tail (&newbus->bus_list, &gbuses); debug ("gbuses = NULL, Memory Primary Bus %x [%x - %x]\n", newbus->busno, newrange->start, newrange->end); } else { bus_cur = find_bus_wprev (curr->bus_num, &bus_prev, 1); /* found our bus */ if (bus_cur) { rc = alloc_bus_range (&bus_cur, &newrange, curr, MEM, 0); if (rc) return rc; } else { /* went through all the buses and didn't find ours, need to create a new bus node */ if ((rc = alloc_bus_range (&newbus, &newrange, curr, MEM, 1))) return rc; list_add_tail (&newbus->bus_list, &gbuses); debug ("New Bus, Memory Primary Bus %x [%x - %x]\n", newbus->busno, newrange->start, newrange->end); } } } else if ((curr->rsrc_type & RESTYPE) == PFMASK) { /* prefetchable memory */ if (list_empty (&gbuses)) { /* no bus structure exists in place yet */ if ((rc = alloc_bus_range (&newbus, &newrange, curr, PFMEM, 1))) return rc; list_add_tail (&newbus->bus_list, &gbuses); debug ("gbuses = NULL, PFMemory Primary Bus %x [%x - %x]\n", newbus->busno, newrange->start, newrange->end); } else { bus_cur = find_bus_wprev (curr->bus_num, &bus_prev, 1); if (bus_cur) { /* found our bus */ rc = alloc_bus_range (&bus_cur, &newrange, curr, PFMEM, 0); if (rc) return rc; } else { /* went through all the buses and didn't find ours, need to create a new bus node */ if ((rc = alloc_bus_range (&newbus, &newrange, curr, PFMEM, 1))) return rc; list_add_tail (&newbus->bus_list, &gbuses); debug ("1st Bus, PFMemory Primary Bus %x [%x - %x]\n", newbus->busno, newrange->start, newrange->end); } } } else if ((curr->rsrc_type & RESTYPE) == IOMASK) { /* IO */ if (list_empty (&gbuses)) { /* no bus structure exists in place yet */ if ((rc = alloc_bus_range (&newbus, &newrange, curr, IO, 1))) return rc; list_add_tail (&newbus->bus_list, &gbuses); debug ("gbuses = NULL, IO Primary Bus %x [%x - %x]\n", newbus->busno, newrange->start, newrange->end); } else { bus_cur = find_bus_wprev (curr->bus_num, &bus_prev, 1); if (bus_cur) { rc = alloc_bus_range (&bus_cur, &newrange, curr, IO, 0); if (rc) return rc; } else { /* went through all the buses and didn't find ours, need to create a new bus node */ if ((rc = alloc_bus_range (&newbus, &newrange, curr, IO, 1))) return rc; list_add_tail (&newbus->bus_list, &gbuses); debug ("1st Bus, IO Primary Bus %x [%x - %x]\n", newbus->busno, newrange->start, newrange->end); } } } else { ; /* type is reserved WHAT TO DO IN THIS CASE??? NOTHING TO DO??? */ } } else { /* regular pci device resource */ if ((curr->rsrc_type & RESTYPE) == MMASK) { /* Memory resource */ new_mem = alloc_resources (curr); if (!new_mem) return -ENOMEM; new_mem->type = MEM; /* * if it didn't find the bus, means PCI dev * came b4 the Primary Bus info, so need to * create a bus rangeno becomes a problem... * assign a -1 and then update once the range * actually appears... */ if (ibmphp_add_resource (new_mem) < 0) { newbus = alloc_error_bus (curr); if (!newbus) return -ENOMEM; newbus->firstMem = new_mem; ++newbus->needMemUpdate; new_mem->rangeno = -1; } debug ("Memory resource for device %x, bus %x, [%x - %x]\n", new_mem->devfunc, new_mem->busno, new_mem->start, new_mem->end); } else if ((curr->rsrc_type & RESTYPE) == PFMASK) { /* PFMemory resource */ new_pfmem = alloc_resources (curr); if (!new_pfmem) return -ENOMEM; new_pfmem->type = PFMEM; new_pfmem->fromMem = FALSE; if (ibmphp_add_resource (new_pfmem) < 0) { newbus = alloc_error_bus (curr); if (!newbus) return -ENOMEM; newbus->firstPFMem = new_pfmem; ++newbus->needPFMemUpdate; new_pfmem->rangeno = -1; } debug ("PFMemory resource for device %x, bus %x, [%x - %x]\n", new_pfmem->devfunc, new_pfmem->busno, new_pfmem->start, new_pfmem->end); } else if ((curr->rsrc_type & RESTYPE) == IOMASK) { /* IO resource */ new_io = alloc_resources (curr); if (!new_io) return -ENOMEM; new_io->type = IO; /* * if it didn't find the bus, means PCI dev * came b4 the Primary Bus info, so need to * create a bus rangeno becomes a problem... * Can assign a -1 and then update once the * range actually appears... */ if (ibmphp_add_resource (new_io) < 0) { newbus = alloc_error_bus (curr); if (!newbus) return -ENOMEM; newbus->firstIO = new_io; ++newbus->needIOUpdate; new_io->rangeno = -1; } debug ("IO resource for device %x, bus %x, [%x - %x]\n", new_io->devfunc, new_io->busno, new_io->start, new_io->end); } } } debug ("after the while loop in rsrc_init \n"); list_for_each (tmp, &gbuses) { bus_cur = list_entry (tmp, struct bus_node, bus_list); /* This is to get info about PPB resources, since EBDA doesn't put this info into the primary bus info */ rc = update_bridge_ranges (&bus_cur); if (rc) return rc; } debug ("b4 once_over in rsrc_init \n"); rc = once_over (); /* This is to align ranges (so no -1) */ if (rc) return rc; debug ("after once_over in rsrc_init \n"); return 0; } /******************************************************************************** * This function adds a range into a sorted list of ranges per bus for a particular * range type, it then calls another routine to update the range numbers on the * pci devices' resources for the appropriate resource * * Input: type of the resource, range to add, current bus * Output: 0 or -1, bus and range ptrs ********************************************************************************/ static int add_range (int type, struct range_node *range, struct bus_node *bus_cur) { struct range_node *range_cur = NULL; struct range_node *range_prev; int count = 0, i_init; int noRanges = 0; switch (type) { case MEM: range_cur = bus_cur->rangeMem; noRanges = bus_cur->noMemRanges; break; case PFMEM: range_cur = bus_cur->rangePFMem; noRanges = bus_cur->noPFMemRanges; break; case IO: range_cur = bus_cur->rangeIO; noRanges = bus_cur->noIORanges; break; } range_prev = NULL; while (range_cur) { if (range->start < range_cur->start) break; range_prev = range_cur; range_cur = range_cur->next; count = count + 1; } if (!count) { /* our range will go at the beginning of the list */ switch (type) { case MEM: bus_cur->rangeMem = range; break; case PFMEM: bus_cur->rangePFMem = range; break; case IO: bus_cur->rangeIO = range; break; } range->next = range_cur; range->rangeno = 1; i_init = 0; } else if (!range_cur) { /* our range will go at the end of the list */ range->next = NULL; range_prev->next = range; range->rangeno = range_prev->rangeno + 1; return 0; } else { /* the range is in the middle */ range_prev->next = range; range->next = range_cur; range->rangeno = range_cur->rangeno; i_init = range_prev->rangeno; } for (count = i_init; count < noRanges; ++count) { ++range_cur->rangeno; range_cur = range_cur->next; } update_resources (bus_cur, type, i_init + 1); return 0; } /******************************************************************************* * This routine goes through the list of resources of type 'type' and updates * the range numbers that they correspond to. It was called from add_range fnc * * Input: bus, type of the resource, the rangeno starting from which to update ******************************************************************************/ static void update_resources (struct bus_node *bus_cur, int type, int rangeno) { struct resource_node *res = NULL; u8 eol = FALSE; /* end of list indicator */ switch (type) { case MEM: if (bus_cur->firstMem) res = bus_cur->firstMem; break; case PFMEM: if (bus_cur->firstPFMem) res = bus_cur->firstPFMem; break; case IO: if (bus_cur->firstIO) res = bus_cur->firstIO; break; } if (res) { while (res) { if (res->rangeno == rangeno) break; if (res->next) res = res->next; else if (res->nextRange) res = res->nextRange; else { eol = TRUE; break; } } if (!eol) { /* found the range */ while (res) { ++res->rangeno; res = res->next; } } } } static void fix_me (struct resource_node *res, struct bus_node *bus_cur, struct range_node *range) { char * str = ""; switch (res->type) { case IO: str = "io"; break; case MEM: str = "mem"; break; case PFMEM: str = "pfmem"; break; } while (res) { if (res->rangeno == -1) { while (range) { if ((res->start >= range->start) && (res->end <= range->end)) { res->rangeno = range->rangeno; debug ("%s->rangeno in fix_resources is %d\n", str, res->rangeno); switch (res->type) { case IO: --bus_cur->needIOUpdate; break; case MEM: --bus_cur->needMemUpdate; break; case PFMEM: --bus_cur->needPFMemUpdate; break; } break; } range = range->next; } } if (res->next) res = res->next; else res = res->nextRange; } } /***************************************************************************** * This routine reassigns the range numbers to the resources that had a -1 * This case can happen only if upon initialization, resources taken by pci dev * appear in EBDA before the resources allocated for that bus, since we don't * know the range, we assign -1, and this routine is called after a new range * is assigned to see the resources with unknown range belong to the added range * * Input: current bus * Output: none, list of resources for that bus are fixed if can be *******************************************************************************/ static void fix_resources (struct bus_node *bus_cur) { struct range_node *range; struct resource_node *res; debug ("%s - bus_cur->busno = %d\n", __FUNCTION__, bus_cur->busno); if (bus_cur->needIOUpdate) { res = bus_cur->firstIO; range = bus_cur->rangeIO; fix_me (res, bus_cur, range); } if (bus_cur->needMemUpdate) { res = bus_cur->firstMem; range = bus_cur->rangeMem; fix_me (res, bus_cur, range); } if (bus_cur->needPFMemUpdate) { res = bus_cur->firstPFMem; range = bus_cur->rangePFMem; fix_me (res, bus_cur, range); } } /******************************************************************************* * This routine adds a resource to the list of resources to the appropriate bus * based on their resource type and sorted by their starting addresses. It assigns * the ptrs to next and nextRange if needed. * * Input: 3 diff. resources (nulled out if not needed) * Output: ptrs assigned (to the node) * 0 or -1 *******************************************************************************/ int ibmphp_add_resource (struct resource_node *res) { struct resource_node *res_cur; struct resource_node *res_prev; struct bus_node *bus_cur; struct range_node *range_cur = NULL; struct resource_node *res_start = NULL; debug ("%s - enter\n", __FUNCTION__); bus_cur = find_bus_wprev (res->busno, NULL, 0); if (!bus_cur) { /* didn't find a bus, smth's wrong!!! */ err ("no bus in the system, either pci_dev's wrong or allocation failed\n"); return -ENODEV; } /* Normal case */ switch (res->type) { case IO: range_cur = bus_cur->rangeIO; res_start = bus_cur->firstIO; break; case MEM: range_cur = bus_cur->rangeMem; res_start = bus_cur->firstMem; break; case PFMEM: range_cur = bus_cur->rangePFMem; res_start = bus_cur->firstPFMem; break; default: err ("cannot read the type of the resource to add... problem \n"); return -EINVAL; } while (range_cur) { if ((res->start >= range_cur->start) && (res->end <= range_cur->end)) { res->rangeno = range_cur->rangeno; break; } range_cur = range_cur->next; } /* !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! * this is again the case of rangeno = -1 * !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! */ if (!range_cur) { switch (res->type) { case IO: ++bus_cur->needIOUpdate; break; case MEM: ++bus_cur->needMemUpdate; break; case PFMEM: ++bus_cur->needPFMemUpdate; break; } res->rangeno = -1; } debug ("The range is %d\n", res->rangeno); if (!res_start) { /* no first{IO,Mem,Pfmem} on the bus, 1st IO/Mem/Pfmem resource ever */ switch (res->type) { case IO: bus_cur->firstIO = res; break; case MEM: bus_cur->firstMem = res; break; case PFMEM: bus_cur->firstPFMem = res; break; } res->next = NULL; res->nextRange = NULL; } else { res_cur = res_start; res_prev = NULL; debug ("res_cur->rangeno is %d\n", res_cur->rangeno); while (res_cur) { if (res_cur->rangeno >= res->rangeno) break; res_prev = res_cur; if (res_cur->next) res_cur = res_cur->next; else res_cur = res_cur->nextRange; } if (!res_cur) { /* at the end of the resource list */ debug ("i should be here, [%x - %x]\n", res->start, res->end); res_prev->nextRange = res; res->next = NULL; res->nextRange = NULL; } else if (res_cur->rangeno == res->rangeno) { /* in the same range */ while (res_cur) { if (res->start < res_cur->start) break; res_prev = res_cur; res_cur = res_cur->next; } if (!res_cur) { /* the last resource in this range */ res_prev->next = res; res->next = NULL; res->nextRange = res_prev->nextRange; res_prev->nextRange = NULL; } else if (res->start < res_cur->start) { /* at the beginning or middle of the range */ if (!res_prev) { switch (res->type) { case IO: bus_cur->firstIO = res; break; case MEM: bus_cur->firstMem = res; break; case PFMEM: bus_cur->firstPFMem = res; break; } } else if (res_prev->rangeno == res_cur->rangeno) res_prev->next = res; else res_prev->nextRange = res; res->next = res_cur; res->nextRange = NULL; } } else { /* this is the case where it is 1st occurence of the range */ if (!res_prev) { /* at the beginning of the resource list */ res->next = NULL; switch (res->type) { case IO: res->nextRange = bus_cur->firstIO; bus_cur->firstIO = res; break; case MEM: res->nextRange = bus_cur->firstMem; bus_cur->firstMem = res; break; case PFMEM: res->nextRange = bus_cur->firstPFMem; bus_cur->firstPFMem = res; break; } } else if (res_cur->rangeno > res->rangeno) { /* in the middle of the resource list */ res_prev->nextRange = res; res->next = NULL; res->nextRange = res_cur; } } } debug ("%s - exit\n", __FUNCTION__); return 0; } /**************************************************************************** * This routine will remove the resource from the list of resources * * Input: io, mem, and/or pfmem resource to be deleted * Ouput: modified resource list * 0 or error code ****************************************************************************/ int ibmphp_remove_resource (struct resource_node *res) { struct bus_node *bus_cur; struct resource_node *res_cur = NULL; struct resource_node *res_prev; struct resource_node *mem_cur; char * type = ""; bus_cur = find_bus_wprev (res->busno, NULL, 0); if (!bus_cur) { err ("cannot find corresponding bus of the io resource to remove " "bailing out...\n"); return -ENODEV; } switch (res->type) { case IO: res_cur = bus_cur->firstIO; type = "io"; break; case MEM: res_cur = bus_cur->firstMem; type = "mem"; break; case PFMEM: res_cur = bus_cur->firstPFMem; type = "pfmem"; break; default: err ("unknown type for resource to remove \n"); return -EINVAL; } res_prev = NULL; while (res_cur) { /* ???????????DO WE _NEED_ TO BE CHECKING FOR END AS WELL?????????? */ if ((res_cur->start == res->start) && (res_cur->end == res->end)) break; res_prev = res_cur; if (res_cur->next) res_cur = res_cur->next; else res_cur = res_cur->nextRange; } if (!res_cur) { if (res->type == PFMEM) { /* * case where pfmem might be in the PFMemFromMem list * so will also need to remove the corresponding mem * entry */ res_cur = bus_cur->firstPFMemFromMem; res_prev = NULL; while (res_cur) { if ((res_cur->start == res->start) && (res_cur->end == res->end)) { mem_cur = bus_cur->firstMem; while (mem_cur) { if ((mem_cur->start == res_cur->start) && (mem_cur->end == res_cur->end)) break; if (mem_cur->next) mem_cur = mem_cur->next; else mem_cur = mem_cur->nextRange; } if (!mem_cur) { err ("cannot find corresponding mem node for pfmem...\n"); return -EINVAL; } ibmphp_remove_resource (mem_cur); if (!res_prev) bus_cur->firstPFMemFromMem = res_cur->next; else res_prev->next = res_cur->next; kfree (res_cur); return 0; } res_prev = res_cur; if (res_cur->next) res_cur = res_cur->next; else res_cur = res_cur->nextRange; } if (!res_cur) { err ("cannot find pfmem to delete...\n"); return -EINVAL; } } else { err ("the %s resource is not in the list to be deleted...\n", type); return -EINVAL; } } if (!res_prev) { /* first device to be deleted */ if (res_cur->next) { switch (res->type) { case IO: bus_cur->firstIO = res_cur->next; break; case MEM: bus_cur->firstMem = res_cur->next; break; case PFMEM: bus_cur->firstPFMem = res_cur->next; break; } } else if (res_cur->nextRange) { switch (res->type) { case IO: bus_cur->firstIO = res_cur->nextRange; break; case MEM: bus_cur->firstMem = res_cur->nextRange; break; case PFMEM: bus_cur->firstPFMem = res_cur->nextRange; break; } } else { switch (res->type) { case IO: bus_cur->firstIO = NULL; break; case MEM: bus_cur->firstMem = NULL; break; case PFMEM: bus_cur->firstPFMem = NULL; break; } } kfree (res_cur); return 0; } else { if (res_cur->next) { if (res_prev->rangeno == res_cur->rangeno) res_prev->next = res_cur->next; else res_prev->nextRange = res_cur->next; } else if (res_cur->nextRange) { res_prev->next = NULL; res_prev->nextRange = res_cur->nextRange; } else { res_prev->next = NULL; res_prev->nextRange = NULL; } kfree (res_cur); return 0; } return 0; } static struct range_node * find_range (struct bus_node *bus_cur, struct resource_node * res) { struct range_node * range = NULL; switch (res->type) { case IO: range = bus_cur->rangeIO; break; case MEM: range = bus_cur->rangeMem; break; case PFMEM: range = bus_cur->rangePFMem; break; default: err ("cannot read resource type in find_range \n"); } while (range) { if (res->rangeno == range->rangeno) break; range = range->next; } return range; } /***************************************************************************** * This routine will check to make sure the io/mem/pfmem->len that the device asked for * can fit w/i our list of available IO/MEM/PFMEM resources. If cannot, returns -EINVAL, * otherwise, returns 0 * * Input: resource * Ouput: the correct start and end address are inputted into the resource node, * 0 or -EINVAL *****************************************************************************/ int ibmphp_check_resource (struct resource_node *res, u8 bridge) { struct bus_node *bus_cur; struct range_node *range = NULL; struct resource_node *res_prev; struct resource_node *res_cur = NULL; u32 len_cur = 0, start_cur = 0, len_tmp = 0; int noranges = 0; u32 tmp_start; /* this is to make sure start address is divisible by the length needed */ u32 tmp_divide; u8 flag = FALSE; if (!res) return -EINVAL; if (bridge) { /* The rules for bridges are different, 4K divisible for IO, 1M for (pf)mem*/ if (res->type == IO) tmp_divide = IOBRIDGE; else tmp_divide = MEMBRIDGE; } else tmp_divide = res->len; bus_cur = find_bus_wprev (res->busno, NULL, 0); if (!bus_cur) { /* didn't find a bus, smth's wrong!!! */ err ("no bus in the system, either pci_dev's wrong or allocation failed \n"); return -EINVAL; } debug ("%s - enter\n", __FUNCTION__); debug ("bus_cur->busno is %d\n", bus_cur->busno); /* This is a quick fix to not mess up with the code very much. i.e., * 2000-2fff, len = 1000, but when we compare, we need it to be fff */ res->len -= 1; switch (res->type) { case IO: res_cur = bus_cur->firstIO; noranges = bus_cur->noIORanges; break; case MEM: res_cur = bus_cur->firstMem; noranges = bus_cur->noMemRanges; break; case PFMEM: res_cur = bus_cur->firstPFMem; noranges = bus_cur->noPFMemRanges; break; default: err ("wrong type of resource to check \n"); return -EINVAL; } res_prev = NULL; while (res_cur) { range = find_range (bus_cur, res_cur); debug ("%s - rangeno = %d\n", __FUNCTION__, res_cur->rangeno); if (!range) { err ("no range for the device exists... bailing out...\n"); return -EINVAL; } /* found our range */ if (!res_prev) { /* first time in the loop */ if ((res_cur->start != range->start) && ((len_tmp = res_cur->start - 1 - range->start) >= res->len)) { debug ("len_tmp = %x\n", len_tmp); if ((len_tmp < len_cur) || (len_cur == 0)) { if ((range->start % tmp_divide) == 0) { /* just perfect, starting address is divisible by length */ flag = TRUE; len_cur = len_tmp; start_cur = range->start; } else { /* Needs adjusting */ tmp_start = range->start; flag = FALSE; while ((len_tmp = res_cur->start - 1 - tmp_start) >= res->len) { if ((tmp_start % tmp_divide) == 0) { flag = TRUE; len_cur = len_tmp; start_cur = tmp_start; break; } tmp_start += tmp_divide - tmp_start % tmp_divide; if (tmp_start >= res_cur->start - 1) break; } } if (flag && len_cur == res->len) { debug ("but we are not here, right?\n"); res->start = start_cur; res->len += 1; /* To restore the balance */ res->end = res->start + res->len - 1; return 0; } } } } if (!res_cur->next) { /* last device on the range */ if ((range->end != res_cur->end) && ((len_tmp = range->end - (res_cur->end + 1)) >= res->len)) { debug ("len_tmp = %x\n", len_tmp); if ((len_tmp < len_cur) || (len_cur == 0)) { if (((res_cur->end + 1) % tmp_divide) == 0) { /* just perfect, starting address is divisible by length */ flag = TRUE; len_cur = len_tmp; start_cur = res_cur->end + 1; } else { /* Needs adjusting */ tmp_start = res_cur->end + 1; flag = FALSE; while ((len_tmp = range->end - tmp_start) >= res->len) { if ((tmp_start % tmp_divide) == 0) { flag = TRUE; len_cur = len_tmp; start_cur = tmp_start; break; } tmp_start += tmp_divide - tmp_start % tmp_divide; if (tmp_start >= range->end) break; } } if (flag && len_cur == res->len) { res->start = start_cur; res->len += 1; /* To restore the balance */ res->end = res->start + res->len - 1; return 0; } } } } if (res_prev) { if (res_prev->rangeno != res_cur->rangeno) { /* 1st device on this range */ if ((res_cur->start != range->start) && ((len_tmp = res_cur->start - 1 - range->start) >= res->len)) { if ((len_tmp < len_cur) || (len_cur == 0)) { if ((range->start % tmp_divide) == 0) { /* just perfect, starting address is divisible by length */ flag = TRUE; len_cur = len_tmp; start_cur = range->start; } else { /* Needs adjusting */ tmp_start = range->start; flag = FALSE; while ((len_tmp = res_cur->start - 1 - tmp_start) >= res->len) { if ((tmp_start % tmp_divide) == 0) { flag = TRUE; len_cur = len_tmp; start_cur = tmp_start; break; } tmp_start += tmp_divide - tmp_start % tmp_divide; if (tmp_start >= res_cur->start - 1) break; } } if (flag && len_cur == res->len) { res->start = start_cur; res->len += 1; /* To restore the balance */ res->end = res->start + res->len - 1; return 0; } } } } else { /* in the same range */ if ((len_tmp = res_cur->start - 1 - res_prev->end - 1) >= res->len) { if ((len_tmp < len_cur) || (len_cur == 0)) { if (((res_prev->end + 1) % tmp_divide) == 0) { /* just perfect, starting address's divisible by length */ flag = TRUE; len_cur = len_tmp; start_cur = res_prev->end + 1; } else { /* Needs adjusting */ tmp_start = res_prev->end + 1; flag = FALSE; while ((len_tmp = res_cur->start - 1 - tmp_start) >= res->len) { if ((tmp_start % tmp_divide) == 0) { flag = TRUE; len_cur = len_tmp; start_cur = tmp_start; break; } tmp_start += tmp_divide - tmp_start % tmp_divide; if (tmp_start >= res_cur->start - 1) break; } } if (flag && len_cur == res->len) { res->start = start_cur; res->len += 1; /* To restore the balance */ res->end = res->start + res->len - 1; return 0; } } } } } /* end if (res_prev) */ res_prev = res_cur; if (res_cur->next) res_cur = res_cur->next; else res_cur = res_cur->nextRange; } /* end of while */ if (!res_prev) { /* 1st device ever */ /* need to find appropriate range */ switch (res->type) { case IO: range = bus_cur->rangeIO; break; case MEM: range = bus_cur->rangeMem; break; case PFMEM: range = bus_cur->rangePFMem; break; } while (range) { if ((len_tmp = range->end - range->start) >= res->len) { if ((len_tmp < len_cur) || (len_cur == 0)) { if ((range->start % tmp_divide) == 0) { /* just perfect, starting address's divisible by length */ flag = TRUE; len_cur = len_tmp; start_cur = range->start; } else { /* Needs adjusting */ tmp_start = range->start; flag = FALSE; while ((len_tmp = range->end - tmp_start) >= res->len) { if ((tmp_start % tmp_divide) == 0) { flag = TRUE; len_cur = len_tmp; start_cur = tmp_start; break; } tmp_start += tmp_divide - tmp_start % tmp_divide; if (tmp_start >= range->end) break; } } if (flag && len_cur == res->len) { res->start = start_cur; res->len += 1; /* To restore the balance */ res->end = res->start + res->len - 1; return 0; } } } range = range->next; } /* end of while */ if ((!range) && (len_cur == 0)) { /* have gone through the list of devices and ranges and haven't found n.e.thing */ err ("no appropriate range.. bailing out...\n"); return -EINVAL; } else if (len_cur) { res->start = start_cur; res->len += 1; /* To restore the balance */ res->end = res->start + res->len - 1; return 0; } } if (!res_cur) { debug ("prev->rangeno = %d, noranges = %d\n", res_prev->rangeno, noranges); if (res_prev->rangeno < noranges) { /* if there're more ranges out there to check */ switch (res->type) { case IO: range = bus_cur->rangeIO; break; case MEM: range = bus_cur->rangeMem; break; case PFMEM: range = bus_cur->rangePFMem; break; } while (range) { if ((len_tmp = range->end - range->start) >= res->len) { if ((len_tmp < len_cur) || (len_cur == 0)) { if ((range->start % tmp_divide) == 0) { /* just perfect, starting address's divisible by length */ flag = TRUE; len_cur = len_tmp; start_cur = range->start; } else { /* Needs adjusting */ tmp_start = range->start; flag = FALSE; while ((len_tmp = range->end - tmp_start) >= res->len) { if ((tmp_start % tmp_divide) == 0) { flag = TRUE; len_cur = len_tmp; start_cur = tmp_start; break; } tmp_start += tmp_divide - tmp_start % tmp_divide; if (tmp_start >= range->end) break; } } if (flag && len_cur == res->len) { res->start = start_cur; res->len += 1; /* To restore the balance */ res->end = res->start + res->len - 1; return 0; } } } range = range->next; } /* end of while */ if ((!range) && (len_cur == 0)) { /* have gone through the list of devices and ranges and haven't found n.e.thing */ err ("no appropriate range.. bailing out...\n"); return -EINVAL; } else if (len_cur) { res->start = start_cur; res->len += 1; /* To restore the balance */ res->end = res->start + res->len - 1; return 0; } } else { /* no more ranges to check on */ if (len_cur) { res->start = start_cur; res->len += 1; /* To restore the balance */ res->end = res->start + res->len - 1; return 0; } else { /* have gone through the list of devices and haven't found n.e.thing */ err ("no appropriate range.. bailing out...\n"); return -EINVAL; } } } /* end if(!res_cur) */ return -EINVAL; } /******************************************************************************** * This routine is called from remove_card if the card contained PPB. * It will remove all the resources on the bus as well as the bus itself * Input: Bus * Ouput: 0, -ENODEV ********************************************************************************/ int ibmphp_remove_bus (struct bus_node *bus, u8 parent_busno) { struct resource_node *res_cur; struct resource_node *res_tmp; struct bus_node *prev_bus; int rc; prev_bus = find_bus_wprev (parent_busno, NULL, 0); if (!prev_bus) { err ("something terribly wrong. Cannot find parent bus to the one to remove\n"); return -ENODEV; } debug ("In ibmphp_remove_bus... prev_bus->busno is %x\n", prev_bus->busno); rc = remove_ranges (bus, prev_bus); if (rc) return rc; if (bus->firstIO) { res_cur = bus->firstIO; while (res_cur) { res_tmp = res_cur; if (res_cur->next) res_cur = res_cur->next; else res_cur = res_cur->nextRange; kfree (res_tmp); res_tmp = NULL; } bus->firstIO = NULL; } if (bus->firstMem) { res_cur = bus->firstMem; while (res_cur) { res_tmp = res_cur; if (res_cur->next) res_cur = res_cur->next; else res_cur = res_cur->nextRange; kfree (res_tmp); res_tmp = NULL; } bus->firstMem = NULL; } if (bus->firstPFMem) { res_cur = bus->firstPFMem; while (res_cur) { res_tmp = res_cur; if (res_cur->next) res_cur = res_cur->next; else res_cur = res_cur->nextRange; kfree (res_tmp); res_tmp = NULL; } bus->firstPFMem = NULL; } if (bus->firstPFMemFromMem) { res_cur = bus->firstPFMemFromMem; while (res_cur) { res_tmp = res_cur; res_cur = res_cur->next; kfree (res_tmp); res_tmp = NULL; } bus->firstPFMemFromMem = NULL; } list_del (&bus->bus_list); kfree (bus); return 0; } /****************************************************************************** * This routine deletes the ranges from a given bus, and the entries from the * parent's bus in the resources * Input: current bus, previous bus * Output: 0, -EINVAL ******************************************************************************/ static int remove_ranges (struct bus_node *bus_cur, struct bus_node *bus_prev) { struct range_node *range_cur; struct range_node *range_tmp; int i; struct resource_node *res = NULL; if (bus_cur->noIORanges) { range_cur = bus_cur->rangeIO; for (i = 0; i < bus_cur->noIORanges; i++) { if (ibmphp_find_resource (bus_prev, range_cur->start, &res, IO) < 0) return -EINVAL; ibmphp_remove_resource (res); range_tmp = range_cur; range_cur = range_cur->next; kfree (range_tmp); range_tmp = NULL; } bus_cur->rangeIO = NULL; } if (bus_cur->noMemRanges) { range_cur = bus_cur->rangeMem; for (i = 0; i < bus_cur->noMemRanges; i++) { if (ibmphp_find_resource (bus_prev, range_cur->start, &res, MEM) < 0) return -EINVAL; ibmphp_remove_resource (res); range_tmp = range_cur; range_cur = range_cur->next; kfree (range_tmp); range_tmp = NULL; } bus_cur->rangeMem = NULL; } if (bus_cur->noPFMemRanges) { range_cur = bus_cur->rangePFMem; for (i = 0; i < bus_cur->noPFMemRanges; i++) { if (ibmphp_find_resource (bus_prev, range_cur->start, &res, PFMEM) < 0) return -EINVAL; ibmphp_remove_resource (res); range_tmp = range_cur; range_cur = range_cur->next; kfree (range_tmp); range_tmp = NULL; } bus_cur->rangePFMem = NULL; } return 0; } /* * find the resource node in the bus * Input: Resource needed, start address of the resource, type or resource */ int ibmphp_find_resource (struct bus_node *bus, u32 start_address, struct resource_node **res, int flag) { struct resource_node *res_cur = NULL; char * type = ""; switch (flag) { case IO: res_cur = bus->firstIO; type = "io"; break; case MEM: res_cur = bus->firstMem; type = "mem"; break; case PFMEM: res_cur = bus->firstPFMem; type = "pfmem"; break; default: err ("wrong type of flag \n"); return -EINVAL; } while (res_cur) { if (res_cur->start == start_address) { *res = res_cur; break; } if (res_cur->next) res_cur = res_cur->next; else res_cur = res_cur->nextRange; } if (!res_cur) { if (flag == PFMEM) { res_cur = bus->firstPFMemFromMem; while (res_cur) { if (res_cur->start == start_address) { *res = res_cur; break; } res_cur = res_cur->next; } if (!res_cur) { err ("SOS...cannot find %s resource in the bus. \n", type); return -EINVAL; } } else { err ("SOS... cannot find %s resource in the bus. \n", type); return -EINVAL; } } if (*res) debug ("*res->start = %x \n", (*res)->start); return 0; } /*********************************************************************** * This routine will free the resource structures used by the * system. It is called from cleanup routine for the module * Parameters: none * Returns: none ***********************************************************************/ void ibmphp_free_resources (void) { struct bus_node *bus_cur = NULL; struct bus_node *bus_tmp; struct range_node *range_cur; struct range_node *range_tmp; struct resource_node *res_cur; struct resource_node *res_tmp; struct list_head *tmp; struct list_head *next; int i = 0; flags = 1; list_for_each_safe (tmp, next, &gbuses) { bus_cur = list_entry (tmp, struct bus_node, bus_list); if (bus_cur->noIORanges) { range_cur = bus_cur->rangeIO; for (i = 0; i < bus_cur->noIORanges; i++) { if (!range_cur) break; range_tmp = range_cur; range_cur = range_cur->next; kfree (range_tmp); range_tmp = NULL; } } if (bus_cur->noMemRanges) { range_cur = bus_cur->rangeMem; for (i = 0; i < bus_cur->noMemRanges; i++) { if (!range_cur) break; range_tmp = range_cur; range_cur = range_cur->next; kfree (range_tmp); range_tmp = NULL; } } if (bus_cur->noPFMemRanges) { range_cur = bus_cur->rangePFMem; for (i = 0; i < bus_cur->noPFMemRanges; i++) { if (!range_cur) break; range_tmp = range_cur; range_cur = range_cur->next; kfree (range_tmp); range_tmp = NULL; } } if (bus_cur->firstIO) { res_cur = bus_cur->firstIO; while (res_cur) { res_tmp = res_cur; if (res_cur->next) res_cur = res_cur->next; else res_cur = res_cur->nextRange; kfree (res_tmp); res_tmp = NULL; } bus_cur->firstIO = NULL; } if (bus_cur->firstMem) { res_cur = bus_cur->firstMem; while (res_cur) { res_tmp = res_cur; if (res_cur->next) res_cur = res_cur->next; else res_cur = res_cur->nextRange; kfree (res_tmp); res_tmp = NULL; } bus_cur->firstMem = NULL; } if (bus_cur->firstPFMem) { res_cur = bus_cur->firstPFMem; while (res_cur) { res_tmp = res_cur; if (res_cur->next) res_cur = res_cur->next; else res_cur = res_cur->nextRange; kfree (res_tmp); res_tmp = NULL; } bus_cur->firstPFMem = NULL; } if (bus_cur->firstPFMemFromMem) { res_cur = bus_cur->firstPFMemFromMem; while (res_cur) { res_tmp = res_cur; res_cur = res_cur->next; kfree (res_tmp); res_tmp = NULL; } bus_cur->firstPFMemFromMem = NULL; } bus_tmp = bus_cur; list_del (&bus_cur->bus_list); kfree (bus_tmp); bus_tmp = NULL; } } /********************************************************************************* * This function will go over the PFmem resources to check if the EBDA allocated * pfmem out of memory buckets of the bus. If so, it will change the range numbers * and a flag to indicate that this resource is out of memory. It will also move the * Pfmem out of the pfmem resource list to the PFMemFromMem list, and will create * a new Mem node * This routine is called right after initialization *******************************************************************************/ static int once_over (void) { struct resource_node *pfmem_cur; struct resource_node *pfmem_prev; struct resource_node *mem; struct bus_node *bus_cur; struct list_head *tmp; list_for_each (tmp, &gbuses) { bus_cur = list_entry (tmp, struct bus_node, bus_list); if ((!bus_cur->rangePFMem) && (bus_cur->firstPFMem)) { for (pfmem_cur = bus_cur->firstPFMem, pfmem_prev = NULL; pfmem_cur; pfmem_prev = pfmem_cur, pfmem_cur = pfmem_cur->next) { pfmem_cur->fromMem = TRUE; if (pfmem_prev) pfmem_prev->next = pfmem_cur->next; else bus_cur->firstPFMem = pfmem_cur->next; if (!bus_cur->firstPFMemFromMem) pfmem_cur->next = NULL; else /* we don't need to sort PFMemFromMem since we're using mem node for all the real work anyways, so just insert at the beginning of the list */ pfmem_cur->next = bus_cur->firstPFMemFromMem; bus_cur->firstPFMemFromMem = pfmem_cur; mem = kmalloc (sizeof (struct resource_node), GFP_KERNEL); if (!mem) { err ("out of system memory \n"); return -ENOMEM; } memset (mem, 0, sizeof (struct resource_node)); mem->type = MEM; mem->busno = pfmem_cur->busno; mem->devfunc = pfmem_cur->devfunc; mem->start = pfmem_cur->start; mem->end = pfmem_cur->end; mem->len = pfmem_cur->len; if (ibmphp_add_resource (mem) < 0) err ("Trouble...trouble... EBDA allocated pfmem from mem, but system doesn't display it has this space... unless not PCI device...\n"); pfmem_cur->rangeno = mem->rangeno; } /* end for pfmem */ } /* end if */ } /* end list_for_each bus */ return 0; } int ibmphp_add_pfmem_from_mem (struct resource_node *pfmem) { struct bus_node *bus_cur = find_bus_wprev (pfmem->busno, NULL, 0); if (!bus_cur) { err ("cannot find bus of pfmem to add...\n"); return -ENODEV; } if (bus_cur->firstPFMemFromMem) pfmem->next = bus_cur->firstPFMemFromMem; else pfmem->next = NULL; bus_cur->firstPFMemFromMem = pfmem; return 0; } /* This routine just goes through the buses to see if the bus already exists. * It is called from ibmphp_find_sec_number, to find out a secondary bus number for * bridged cards * Parameters: bus_number * Returns: Bus pointer or NULL */ struct bus_node *ibmphp_find_res_bus (u8 bus_number) { return find_bus_wprev (bus_number, NULL, 0); } static inline struct bus_node *find_bus_wprev (u8 bus_number, struct bus_node **prev, u8 flag) { struct bus_node *bus_cur; struct list_head *tmp; struct list_head *tmp_prev; list_for_each (tmp, &gbuses) { tmp_prev = tmp->prev; bus_cur = list_entry (tmp, struct bus_node, bus_list); if (flag) *prev = list_entry (tmp_prev, struct bus_node, bus_list); if (bus_cur->busno == bus_number) return bus_cur; } return NULL; } void ibmphp_print_test (void) { int i = 0; struct bus_node *bus_cur = NULL; struct range_node *range; struct resource_node *res; struct list_head *tmp; if ((!list_empty(&gbuses)) && flags) { err ("The GBUSES is not NULL?!?!?!?!?\n"); return; } list_for_each (tmp, &gbuses) { bus_cur = list_entry (tmp, struct bus_node, bus_list); debug ("This is bus # %d. There are \n", bus_cur->busno); debug ("IORanges = %d\t", bus_cur->noIORanges); debug ("MemRanges = %d\t", bus_cur->noMemRanges); debug ("PFMemRanges = %d\n", bus_cur->noPFMemRanges); debug ("The IO Ranges are as follows:\n"); if (bus_cur->rangeIO) { range = bus_cur->rangeIO; for (i = 0; i < bus_cur->noIORanges; i++) { debug ("rangeno is %d\n", range->rangeno); debug ("[%x - %x]\n", range->start, range->end); range = range->next; } } debug ("The Mem Ranges are as follows:\n"); if (bus_cur->rangeMem) { range = bus_cur->rangeMem; for (i = 0; i < bus_cur->noMemRanges; i++) { debug ("rangeno is %d\n", range->rangeno); debug ("[%x - %x]\n", range->start, range->end); range = range->next; } } debug ("The PFMem Ranges are as follows:\n"); if (bus_cur->rangePFMem) { range = bus_cur->rangePFMem; for (i = 0; i < bus_cur->noPFMemRanges; i++) { debug ("rangeno is %d\n", range->rangeno); debug ("[%x - %x]\n", range->start, range->end); range = range->next; } } debug ("The resources on this bus are as follows\n"); debug ("IO...\n"); if (bus_cur->firstIO) { res = bus_cur->firstIO; while (res) { debug ("The range # is %d\n", res->rangeno); debug ("The bus, devfnc is %d, %x\n", res->busno, res->devfunc); debug ("[%x - %x], len=%x\n", res->start, res->end, res->len); if (res->next) res = res->next; else if (res->nextRange) res = res->nextRange; else break; } } debug ("Mem...\n"); if (bus_cur->firstMem) { res = bus_cur->firstMem; while (res) { debug ("The range # is %d\n", res->rangeno); debug ("The bus, devfnc is %d, %x\n", res->busno, res->devfunc); debug ("[%x - %x], len=%x\n", res->start, res->end, res->len); if (res->next) res = res->next; else if (res->nextRange) res = res->nextRange; else break; } } debug ("PFMem...\n"); if (bus_cur->firstPFMem) { res = bus_cur->firstPFMem; while (res) { debug ("The range # is %d\n", res->rangeno); debug ("The bus, devfnc is %d, %x\n", res->busno, res->devfunc); debug ("[%x - %x], len=%x\n", res->start, res->end, res->len); if (res->next) res = res->next; else if (res->nextRange) res = res->nextRange; else break; } } debug ("PFMemFromMem...\n"); if (bus_cur->firstPFMemFromMem) { res = bus_cur->firstPFMemFromMem; while (res) { debug ("The range # is %d\n", res->rangeno); debug ("The bus, devfnc is %d, %x\n", res->busno, res->devfunc); debug ("[%x - %x], len=%x\n", res->start, res->end, res->len); res = res->next; } } } } /* This routine will read the windows for any PPB we have and update the * range info for the secondary bus, and will also input this info into * primary bus, since BIOS doesn't. This is for PPB that are in the system * on bootup * Input: primary busno * Returns: none * Note: this function doesn't take into account IO restrictions etc, * so will only work for bridges with no video/ISA devices behind them It * also will not work for onboard PPB's that can have more than 1 *bus * behind them All these are TO DO. * Also need to add more error checkings... (from fnc returns etc) */ static int update_bridge_ranges (struct bus_node **bus) { u8 sec_busno, device, function, busno, hdr_type, start_io_address, end_io_address; u16 vendor_id, upper_io_start, upper_io_end, start_mem_address, end_mem_address; u32 start_address, end_address, upper_start, upper_end; struct bus_node *bus_sec; struct bus_node *bus_cur; struct resource_node *io; struct resource_node *mem; struct resource_node *pfmem; struct range_node *range; bus_cur = *bus; busno = bus_cur->busno; debug ("inside update_bridge_ranges \n"); debug ("bus_cur->busno = %x\n", bus_cur->busno); for (device = 0; device < 32; device++) { for (function = 0x00; function < 0x08; function++) { pci_read_config_word_nodev (ibmphp_pci_root_ops, busno, device, function, PCI_VENDOR_ID, &vendor_id); if (vendor_id != PCI_VENDOR_ID_NOTVALID) { /* found correct device!!! */ pci_read_config_byte_nodev (ibmphp_pci_root_ops, busno, device, function, PCI_HEADER_TYPE, &hdr_type); switch (hdr_type) { case PCI_HEADER_TYPE_NORMAL: function = 0x8; break; case PCI_HEADER_TYPE_MULTIDEVICE: break; case PCI_HEADER_TYPE_BRIDGE: function = 0x8; case PCI_HEADER_TYPE_MULTIBRIDGE: /* We assume here that only 1 bus behind the bridge TO DO: add functionality for several: temp = secondary; while (temp < subordinate) { ... temp++; } */ pci_read_config_byte_nodev (ibmphp_pci_root_ops, busno, device, function, PCI_SECONDARY_BUS, &sec_busno); bus_sec = find_bus_wprev (sec_busno, NULL, 0); pci_read_config_byte_nodev (ibmphp_pci_root_ops, busno, device, function, PCI_IO_BASE, &start_io_address); pci_read_config_byte_nodev (ibmphp_pci_root_ops, busno, device, function, PCI_IO_LIMIT, &end_io_address); pci_read_config_word_nodev (ibmphp_pci_root_ops, busno, device, function, PCI_IO_BASE_UPPER16, &upper_io_start); pci_read_config_word_nodev (ibmphp_pci_root_ops, busno, device, function, PCI_IO_LIMIT_UPPER16, &upper_io_end); start_address = (start_io_address & PCI_IO_RANGE_MASK) << 8; start_address |= (upper_io_start << 16); end_address = (end_io_address & PCI_IO_RANGE_MASK) << 8; end_address |= (upper_io_end << 16); if ((start_address) && (start_address <= end_address)) { range = kmalloc (sizeof (struct range_node), GFP_KERNEL); if (!range) { err ("out of system memory \n"); return -ENOMEM; } memset (range, 0, sizeof (struct range_node)); range->start = start_address; range->end = end_address + 0xfff; if (bus_sec->noIORanges > 0) add_range (IO, range, bus_sec); else { /* 1st IO Range on the bus */ range->rangeno = 1; bus_sec->rangeIO = range; } ++bus_sec->noIORanges; fix_resources (bus_sec); io = kmalloc (sizeof (struct resource_node), GFP_KERNEL); if (!io) { kfree (range); err ("out of system memory \n"); return -ENOMEM; } memset (io, 0, sizeof (struct resource_node)); io->type = IO; io->busno = bus_cur->busno; io->devfunc = ((device << 3) | (function & 0x7)); io->start = start_address; io->end = end_address + 0xfff; io->len = io->end - io->start + 1; ibmphp_add_resource (io); } pci_read_config_word_nodev (ibmphp_pci_root_ops, busno, device, function, PCI_MEMORY_BASE, &start_mem_address); pci_read_config_word_nodev (ibmphp_pci_root_ops, busno, device, function, PCI_MEMORY_LIMIT, &end_mem_address); start_address = 0x00000000 | (start_mem_address & PCI_MEMORY_RANGE_MASK) << 16; end_address = 0x00000000 | (end_mem_address & PCI_MEMORY_RANGE_MASK) << 16; if ((start_address) && (start_address <= end_address)) { range = kmalloc (sizeof (struct range_node), GFP_KERNEL); if (!range) { err ("out of system memory \n"); return -ENOMEM; } memset (range, 0, sizeof (struct range_node)); range->start = start_address; range->end = end_address + 0xfffff; if (bus_sec->noMemRanges > 0) add_range (MEM, range, bus_sec); else { /* 1st Mem Range on the bus */ range->rangeno = 1; bus_sec->rangeMem = range; } ++bus_sec->noMemRanges; fix_resources (bus_sec); mem = kmalloc (sizeof (struct resource_node), GFP_KERNEL); if (!mem) { kfree (range); err ("out of system memory \n"); return -ENOMEM; } memset (mem, 0, sizeof (struct resource_node)); mem->type = MEM; mem->busno = bus_cur->busno; mem->devfunc = ((device << 3) | (function & 0x7)); mem->start = start_address; mem->end = end_address + 0xfffff; mem->len = mem->end - mem->start + 1; ibmphp_add_resource (mem); } pci_read_config_word_nodev (ibmphp_pci_root_ops, busno, device, function, PCI_PREF_MEMORY_BASE, &start_mem_address); pci_read_config_word_nodev (ibmphp_pci_root_ops, busno, device, function, PCI_PREF_MEMORY_LIMIT, &end_mem_address); pci_read_config_dword_nodev (ibmphp_pci_root_ops, busno, device, function, PCI_PREF_BASE_UPPER32, &upper_start); pci_read_config_dword_nodev (ibmphp_pci_root_ops, busno, device, function, PCI_PREF_LIMIT_UPPER32, &upper_end); start_address = 0x00000000 | (start_mem_address & PCI_MEMORY_RANGE_MASK) << 16; end_address = 0x00000000 | (end_mem_address & PCI_MEMORY_RANGE_MASK) << 16; #if BITS_PER_LONG == 64 start_address |= ((long) upper_start) << 32; end_address |= ((long) upper_end) << 32; #endif if ((start_address) && (start_address <= end_address)) { range = kmalloc (sizeof (struct range_node), GFP_KERNEL); if (!range) { err ("out of system memory \n"); return -ENOMEM; } memset (range, 0, sizeof (struct range_node)); range->start = start_address; range->end = end_address + 0xfffff; if (bus_sec->noPFMemRanges > 0) add_range (PFMEM, range, bus_sec); else { /* 1st PFMem Range on the bus */ range->rangeno = 1; bus_sec->rangePFMem = range; } ++bus_sec->noPFMemRanges; fix_resources (bus_sec); pfmem = kmalloc (sizeof (struct resource_node), GFP_KERNEL); if (!pfmem) { kfree (range); err ("out of system memory \n"); return -ENOMEM; } memset (pfmem, 0, sizeof (struct resource_node)); pfmem->type = PFMEM; pfmem->busno = bus_cur->busno; pfmem->devfunc = ((device << 3) | (function & 0x7)); pfmem->start = start_address; pfmem->end = end_address + 0xfffff; pfmem->len = pfmem->end - pfmem->start + 1; pfmem->fromMem = FALSE; ibmphp_add_resource (pfmem); } break; } /* end of switch */ } /* end if vendor */ } /* end for function */ } /* end for device */ bus = &bus_cur; return 0; } |