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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 | /* * Compaq Hot Plug Controller Driver * * Copyright (C) 1995,2001 Compaq Computer Corporation * Copyright (C) 2001 Greg Kroah-Hartman <greg@kroah.com> * Copyright (C) 2001 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 <greg@kroah.com> * * Jan 12, 2003 - Added 66/100/133MHz PCI-X support, * Torben Mathiasen <torben.mathiasen@hp.com> * */ #include <linux/config.h> #include <linux/module.h> #include <linux/moduleparam.h> #include <linux/kernel.h> #include <linux/types.h> #include <linux/proc_fs.h> #include <linux/slab.h> #include <linux/workqueue.h> #include <linux/pci.h> #include <linux/init.h> #include <linux/interrupt.h> #include <asm/uaccess.h> #include "cpqphp.h" #include "cpqphp_nvram.h" #include "../../../arch/i386/pci/pci.h" /* horrible hack showing how processor dependent we are... */ /* Global variables */ int cpqhp_debug; int cpqhp_legacy_mode; struct controller *cpqhp_ctrl_list; /* = NULL */ struct pci_func *cpqhp_slot_list[256]; /* local variables */ static void __iomem *smbios_table; static void __iomem *smbios_start; static void __iomem *cpqhp_rom_start; static int power_mode; static int debug; #define DRIVER_VERSION "0.9.8" #define DRIVER_AUTHOR "Dan Zink <dan.zink@compaq.com>, Greg Kroah-Hartman <greg@kroah.com>" #define DRIVER_DESC "Compaq Hot Plug PCI Controller Driver" MODULE_AUTHOR(DRIVER_AUTHOR); MODULE_DESCRIPTION(DRIVER_DESC); MODULE_LICENSE("GPL"); module_param(power_mode, bool, 0644); MODULE_PARM_DESC(power_mode, "Power mode enabled or not"); module_param(debug, bool, 0644); MODULE_PARM_DESC(debug, "Debugging mode enabled or not"); #define CPQHPC_MODULE_MINOR 208 static int one_time_init (void); static int set_attention_status (struct hotplug_slot *slot, u8 value); static int process_SI (struct hotplug_slot *slot); static int process_SS (struct hotplug_slot *slot); static int hardware_test (struct hotplug_slot *slot, u32 value); static int get_power_status (struct hotplug_slot *slot, u8 *value); static int get_attention_status (struct hotplug_slot *slot, u8 *value); static int get_latch_status (struct hotplug_slot *slot, u8 *value); static int get_adapter_status (struct hotplug_slot *slot, u8 *value); static int get_max_bus_speed (struct hotplug_slot *slot, enum pci_bus_speed *value); static int get_cur_bus_speed (struct hotplug_slot *slot, enum pci_bus_speed *value); static struct hotplug_slot_ops cpqphp_hotplug_slot_ops = { .owner = THIS_MODULE, .set_attention_status = set_attention_status, .enable_slot = process_SI, .disable_slot = process_SS, .hardware_test = hardware_test, .get_power_status = get_power_status, .get_attention_status = get_attention_status, .get_latch_status = get_latch_status, .get_adapter_status = get_adapter_status, .get_max_bus_speed = get_max_bus_speed, .get_cur_bus_speed = get_cur_bus_speed, }; static inline int is_slot64bit(struct slot *slot) { return (readb(slot->p_sm_slot + SMBIOS_SLOT_WIDTH) == 0x06) ? 1 : 0; } static inline int is_slot66mhz(struct slot *slot) { return (readb(slot->p_sm_slot + SMBIOS_SLOT_TYPE) == 0x0E) ? 1 : 0; } /** * detect_SMBIOS_pointer - find the System Management BIOS Table in mem region. * * @begin: begin pointer for region to be scanned. * @end: end pointer for region to be scanned. * * Returns pointer to the head of the SMBIOS tables (or NULL) * */ static void __iomem * detect_SMBIOS_pointer(void __iomem *begin, void __iomem *end) { void __iomem *fp; void __iomem *endp; u8 temp1, temp2, temp3, temp4; int status = 0; endp = (end - sizeof(u32) + 1); for (fp = begin; fp <= endp; fp += 16) { temp1 = readb(fp); temp2 = readb(fp+1); temp3 = readb(fp+2); temp4 = readb(fp+3); if (temp1 == '_' && temp2 == 'S' && temp3 == 'M' && temp4 == '_') { status = 1; break; } } if (!status) fp = NULL; dbg("Discovered SMBIOS Entry point at %p\n", fp); return fp; } /** * init_SERR - Initializes the per slot SERR generation. * * For unexpected switch opens * */ static int init_SERR(struct controller * ctrl) { u32 tempdword; u32 number_of_slots; u8 physical_slot; if (!ctrl) return 1; tempdword = ctrl->first_slot; number_of_slots = readb(ctrl->hpc_reg + SLOT_MASK) & 0x0F; // Loop through slots while (number_of_slots) { physical_slot = tempdword; writeb(0, ctrl->hpc_reg + SLOT_SERR); tempdword++; number_of_slots--; } return 0; } /* nice debugging output */ static int pci_print_IRQ_route (void) { struct irq_routing_table *routing_table; int len; int loop; u8 tbus, tdevice, tslot; routing_table = pcibios_get_irq_routing_table(); if (routing_table == NULL) { err("No BIOS Routing Table??? Not good\n"); return -ENOMEM; } len = (routing_table->size - sizeof(struct irq_routing_table)) / sizeof(struct irq_info); // Make sure I got at least one entry if (len == 0) { kfree(routing_table); return -1; } dbg("bus dev func slot\n"); for (loop = 0; loop < len; ++loop) { tbus = routing_table->slots[loop].bus; tdevice = routing_table->slots[loop].devfn; tslot = routing_table->slots[loop].slot; dbg("%d %d %d %d\n", tbus, tdevice >> 3, tdevice & 0x7, tslot); } kfree(routing_table); return 0; } /** * get_subsequent_smbios_entry: get the next entry from bios table. * * Gets the first entry if previous == NULL * Otherwise, returns the next entry * Uses global SMBIOS Table pointer * * @curr: %NULL or pointer to previously returned structure * * returns a pointer to an SMBIOS structure or NULL if none found */ static void __iomem *get_subsequent_smbios_entry(void __iomem *smbios_start, void __iomem *smbios_table, void __iomem *curr) { u8 bail = 0; u8 previous_byte = 1; void __iomem *p_temp; void __iomem *p_max; if (!smbios_table || !curr) return(NULL); // set p_max to the end of the table p_max = smbios_start + readw(smbios_table + ST_LENGTH); p_temp = curr; p_temp += readb(curr + SMBIOS_GENERIC_LENGTH); while ((p_temp < p_max) && !bail) { /* Look for the double NULL terminator * The first condition is the previous byte * and the second is the curr */ if (!previous_byte && !(readb(p_temp))) { bail = 1; } previous_byte = readb(p_temp); p_temp++; } if (p_temp < p_max) { return p_temp; } else { return NULL; } } /** * get_SMBIOS_entry * * @type:SMBIOS structure type to be returned * @previous: %NULL or pointer to previously returned structure * * Gets the first entry of the specified type if previous == NULL * Otherwise, returns the next entry of the given type. * Uses global SMBIOS Table pointer * Uses get_subsequent_smbios_entry * * returns a pointer to an SMBIOS structure or %NULL if none found */ static void __iomem *get_SMBIOS_entry(void __iomem *smbios_start, void __iomem *smbios_table, u8 type, void __iomem *previous) { if (!smbios_table) return NULL; if (!previous) { previous = smbios_start; } else { previous = get_subsequent_smbios_entry(smbios_start, smbios_table, previous); } while (previous) { if (readb(previous + SMBIOS_GENERIC_TYPE) != type) { previous = get_subsequent_smbios_entry(smbios_start, smbios_table, previous); } else { break; } } return previous; } static void release_slot(struct hotplug_slot *hotplug_slot) { struct slot *slot = hotplug_slot->private; dbg("%s - physical_slot = %s\n", __FUNCTION__, hotplug_slot->name); kfree(slot->hotplug_slot->info); kfree(slot->hotplug_slot->name); kfree(slot->hotplug_slot); kfree(slot); } static int ctrl_slot_setup(struct controller *ctrl, void __iomem *smbios_start, void __iomem *smbios_table) { struct slot *new_slot; u8 number_of_slots; u8 slot_device; u8 slot_number; u8 ctrl_slot; u32 tempdword; void __iomem *slot_entry= NULL; int result = -ENOMEM; dbg("%s\n", __FUNCTION__); tempdword = readl(ctrl->hpc_reg + INT_INPUT_CLEAR); number_of_slots = readb(ctrl->hpc_reg + SLOT_MASK) & 0x0F; slot_device = readb(ctrl->hpc_reg + SLOT_MASK) >> 4; slot_number = ctrl->first_slot; while (number_of_slots) { new_slot = kmalloc(sizeof(*new_slot), GFP_KERNEL); if (!new_slot) goto error; memset(new_slot, 0, sizeof(struct slot)); new_slot->hotplug_slot = kmalloc(sizeof(*(new_slot->hotplug_slot)), GFP_KERNEL); if (!new_slot->hotplug_slot) goto error_slot; memset(new_slot->hotplug_slot, 0, sizeof(struct hotplug_slot)); new_slot->hotplug_slot->info = kmalloc(sizeof(*(new_slot->hotplug_slot->info)), GFP_KERNEL); if (!new_slot->hotplug_slot->info) goto error_hpslot; memset(new_slot->hotplug_slot->info, 0, sizeof(struct hotplug_slot_info)); new_slot->hotplug_slot->name = kmalloc(SLOT_NAME_SIZE, GFP_KERNEL); if (!new_slot->hotplug_slot->name) goto error_info; new_slot->ctrl = ctrl; new_slot->bus = ctrl->bus; new_slot->device = slot_device; new_slot->number = slot_number; dbg("slot->number = %d\n",new_slot->number); slot_entry = get_SMBIOS_entry(smbios_start, smbios_table, 9, slot_entry); while (slot_entry && (readw(slot_entry + SMBIOS_SLOT_NUMBER) != new_slot->number)) { slot_entry = get_SMBIOS_entry(smbios_start, smbios_table, 9, slot_entry); } new_slot->p_sm_slot = slot_entry; init_timer(&new_slot->task_event); new_slot->task_event.expires = jiffies + 5 * HZ; new_slot->task_event.function = cpqhp_pushbutton_thread; //FIXME: these capabilities aren't used but if they are // they need to be correctly implemented new_slot->capabilities |= PCISLOT_REPLACE_SUPPORTED; new_slot->capabilities |= PCISLOT_INTERLOCK_SUPPORTED; if (is_slot64bit(new_slot)) new_slot->capabilities |= PCISLOT_64_BIT_SUPPORTED; if (is_slot66mhz(new_slot)) new_slot->capabilities |= PCISLOT_66_MHZ_SUPPORTED; if (ctrl->speed == PCI_SPEED_66MHz) new_slot->capabilities |= PCISLOT_66_MHZ_OPERATION; ctrl_slot = slot_device - (readb(ctrl->hpc_reg + SLOT_MASK) >> 4); // Check presence new_slot->capabilities |= ((((~tempdword) >> 23) | ((~tempdword) >> 15)) >> ctrl_slot) & 0x02; // Check the switch state new_slot->capabilities |= ((~tempdword & 0xFF) >> ctrl_slot) & 0x01; // Check the slot enable new_slot->capabilities |= ((read_slot_enable(ctrl) << 2) >> ctrl_slot) & 0x04; /* register this slot with the hotplug pci core */ new_slot->hotplug_slot->release = &release_slot; new_slot->hotplug_slot->private = new_slot; make_slot_name(new_slot->hotplug_slot->name, SLOT_NAME_SIZE, new_slot); new_slot->hotplug_slot->ops = &cpqphp_hotplug_slot_ops; new_slot->hotplug_slot->info->power_status = get_slot_enabled(ctrl, new_slot); new_slot->hotplug_slot->info->attention_status = cpq_get_attention_status(ctrl, new_slot); new_slot->hotplug_slot->info->latch_status = cpq_get_latch_status(ctrl, new_slot); new_slot->hotplug_slot->info->adapter_status = get_presence_status(ctrl, new_slot); dbg ("registering bus %d, dev %d, number %d, " "ctrl->slot_device_offset %d, slot %d\n", new_slot->bus, new_slot->device, new_slot->number, ctrl->slot_device_offset, slot_number); result = pci_hp_register (new_slot->hotplug_slot); if (result) { err ("pci_hp_register failed with error %d\n", result); goto error_name; } new_slot->next = ctrl->slot; ctrl->slot = new_slot; number_of_slots--; slot_device++; slot_number++; } return 0; error_name: kfree(new_slot->hotplug_slot->name); error_info: kfree(new_slot->hotplug_slot->info); error_hpslot: kfree(new_slot->hotplug_slot); error_slot: kfree(new_slot); error: return result; } static int ctrl_slot_cleanup (struct controller * ctrl) { struct slot *old_slot, *next_slot; old_slot = ctrl->slot; ctrl->slot = NULL; while (old_slot) { /* memory will be freed by the release_slot callback */ next_slot = old_slot->next; pci_hp_deregister (old_slot->hotplug_slot); old_slot = next_slot; } //Free IRQ associated with hot plug device free_irq(ctrl->interrupt, ctrl); //Unmap the memory iounmap(ctrl->hpc_reg); //Finally reclaim PCI mem release_mem_region(pci_resource_start(ctrl->pci_dev, 0), pci_resource_len(ctrl->pci_dev, 0)); return(0); } //============================================================================ // function: get_slot_mapping // // Description: Attempts to determine a logical slot mapping for a PCI // device. Won't work for more than one PCI-PCI bridge // in a slot. // // Input: u8 bus_num - bus number of PCI device // u8 dev_num - device number of PCI device // u8 *slot - Pointer to u8 where slot number will // be returned // // Output: SUCCESS or FAILURE //============================================================================= static int get_slot_mapping(struct pci_bus *bus, u8 bus_num, u8 dev_num, u8 *slot) { struct irq_routing_table *PCIIRQRoutingInfoLength; u32 work; long len; long loop; u8 tbus, tdevice, tslot, bridgeSlot; dbg("%s: %p, %d, %d, %p\n", __FUNCTION__, bus, bus_num, dev_num, slot); bridgeSlot = 0xFF; PCIIRQRoutingInfoLength = pcibios_get_irq_routing_table(); if (!PCIIRQRoutingInfoLength) return -1; len = (PCIIRQRoutingInfoLength->size - sizeof(struct irq_routing_table)) / sizeof(struct irq_info); // Make sure I got at least one entry if (len == 0) { kfree(PCIIRQRoutingInfoLength); return -1; } for (loop = 0; loop < len; ++loop) { tbus = PCIIRQRoutingInfoLength->slots[loop].bus; tdevice = PCIIRQRoutingInfoLength->slots[loop].devfn >> 3; tslot = PCIIRQRoutingInfoLength->slots[loop].slot; if ((tbus == bus_num) && (tdevice == dev_num)) { *slot = tslot; kfree(PCIIRQRoutingInfoLength); return 0; } else { /* Did not get a match on the target PCI device. Check * if the current IRQ table entry is a PCI-to-PCI bridge * device. If so, and it's secondary bus matches the * bus number for the target device, I need to save the * bridge's slot number. If I can not find an entry for * the target device, I will have to assume it's on the * other side of the bridge, and assign it the bridge's * slot. */ bus->number = tbus; pci_bus_read_config_dword(bus, PCI_DEVFN(tdevice, 0), PCI_REVISION_ID, &work); if ((work >> 8) == PCI_TO_PCI_BRIDGE_CLASS) { pci_bus_read_config_dword(bus, PCI_DEVFN(tdevice, 0), PCI_PRIMARY_BUS, &work); // See if bridge's secondary bus matches target bus. if (((work >> 8) & 0x000000FF) == (long) bus_num) { bridgeSlot = tslot; } } } } // If we got here, we didn't find an entry in the IRQ mapping table // for the target PCI device. If we did determine that the target // device is on the other side of a PCI-to-PCI bridge, return the // slot number for the bridge. if (bridgeSlot != 0xFF) { *slot = bridgeSlot; kfree(PCIIRQRoutingInfoLength); return 0; } kfree(PCIIRQRoutingInfoLength); // Couldn't find an entry in the routing table for this PCI device return -1; } /** * cpqhp_set_attention_status - Turns the Amber LED for a slot on or off * */ static int cpqhp_set_attention_status(struct controller *ctrl, struct pci_func *func, u32 status) { u8 hp_slot; hp_slot = func->device - ctrl->slot_device_offset; if (func == NULL) return(1); // Wait for exclusive access to hardware down(&ctrl->crit_sect); if (status == 1) { amber_LED_on (ctrl, hp_slot); } else if (status == 0) { amber_LED_off (ctrl, hp_slot); } else { // Done with exclusive hardware access up(&ctrl->crit_sect); return(1); } set_SOGO(ctrl); // Wait for SOBS to be unset wait_for_ctrl_irq (ctrl); // Done with exclusive hardware access up(&ctrl->crit_sect); return(0); } /** * set_attention_status - Turns the Amber LED for a slot on or off * */ static int set_attention_status (struct hotplug_slot *hotplug_slot, u8 status) { struct pci_func *slot_func; struct slot *slot = hotplug_slot->private; struct controller *ctrl = slot->ctrl; u8 bus; u8 devfn; u8 device; u8 function; dbg("%s - physical_slot = %s\n", __FUNCTION__, hotplug_slot->name); if (cpqhp_get_bus_dev(ctrl, &bus, &devfn, slot->number) == -1) return -ENODEV; device = devfn >> 3; function = devfn & 0x7; dbg("bus, dev, fn = %d, %d, %d\n", bus, device, function); slot_func = cpqhp_slot_find(bus, device, function); if (!slot_func) return -ENODEV; return cpqhp_set_attention_status(ctrl, slot_func, status); } static int process_SI(struct hotplug_slot *hotplug_slot) { struct pci_func *slot_func; struct slot *slot = hotplug_slot->private; struct controller *ctrl = slot->ctrl; u8 bus; u8 devfn; u8 device; u8 function; dbg("%s - physical_slot = %s\n", __FUNCTION__, hotplug_slot->name); if (cpqhp_get_bus_dev(ctrl, &bus, &devfn, slot->number) == -1) return -ENODEV; device = devfn >> 3; function = devfn & 0x7; dbg("bus, dev, fn = %d, %d, %d\n", bus, device, function); slot_func = cpqhp_slot_find(bus, device, function); if (!slot_func) return -ENODEV; slot_func->bus = bus; slot_func->device = device; slot_func->function = function; slot_func->configured = 0; dbg("board_added(%p, %p)\n", slot_func, ctrl); return cpqhp_process_SI(ctrl, slot_func); } static int process_SS(struct hotplug_slot *hotplug_slot) { struct pci_func *slot_func; struct slot *slot = hotplug_slot->private; struct controller *ctrl = slot->ctrl; u8 bus; u8 devfn; u8 device; u8 function; dbg("%s - physical_slot = %s\n", __FUNCTION__, hotplug_slot->name); if (cpqhp_get_bus_dev(ctrl, &bus, &devfn, slot->number) == -1) return -ENODEV; device = devfn >> 3; function = devfn & 0x7; dbg("bus, dev, fn = %d, %d, %d\n", bus, device, function); slot_func = cpqhp_slot_find(bus, device, function); if (!slot_func) return -ENODEV; dbg("In %s, slot_func = %p, ctrl = %p\n", __FUNCTION__, slot_func, ctrl); return cpqhp_process_SS(ctrl, slot_func); } static int hardware_test(struct hotplug_slot *hotplug_slot, u32 value) { struct slot *slot = hotplug_slot->private; struct controller *ctrl = slot->ctrl; dbg("%s - physical_slot = %s\n", __FUNCTION__, hotplug_slot->name); return cpqhp_hardware_test(ctrl, value); } static int get_power_status(struct hotplug_slot *hotplug_slot, u8 *value) { struct slot *slot = hotplug_slot->private; struct controller *ctrl = slot->ctrl; dbg("%s - physical_slot = %s\n", __FUNCTION__, hotplug_slot->name); *value = get_slot_enabled(ctrl, slot); return 0; } static int get_attention_status(struct hotplug_slot *hotplug_slot, u8 *value) { struct slot *slot = hotplug_slot->private; struct controller *ctrl = slot->ctrl; dbg("%s - physical_slot = %s\n", __FUNCTION__, hotplug_slot->name); *value = cpq_get_attention_status(ctrl, slot); return 0; } static int get_latch_status(struct hotplug_slot *hotplug_slot, u8 *value) { struct slot *slot = hotplug_slot->private; struct controller *ctrl = slot->ctrl; dbg("%s - physical_slot = %s\n", __FUNCTION__, hotplug_slot->name); *value = cpq_get_latch_status(ctrl, slot); return 0; } static int get_adapter_status(struct hotplug_slot *hotplug_slot, u8 *value) { struct slot *slot = hotplug_slot->private; struct controller *ctrl = slot->ctrl; dbg("%s - physical_slot = %s\n", __FUNCTION__, hotplug_slot->name); *value = get_presence_status(ctrl, slot); return 0; } static int get_max_bus_speed (struct hotplug_slot *hotplug_slot, enum pci_bus_speed *value) { struct slot *slot = hotplug_slot->private; struct controller *ctrl = slot->ctrl; dbg("%s - physical_slot = %s\n", __FUNCTION__, hotplug_slot->name); *value = ctrl->speed_capability; return 0; } static int get_cur_bus_speed (struct hotplug_slot *hotplug_slot, enum pci_bus_speed *value) { struct slot *slot = hotplug_slot->private; struct controller *ctrl = slot->ctrl; dbg("%s - physical_slot = %s\n", __FUNCTION__, hotplug_slot->name); *value = ctrl->speed; return 0; } static int cpqhpc_probe(struct pci_dev *pdev, const struct pci_device_id *ent) { u8 num_of_slots = 0; u8 hp_slot = 0; u8 device; u8 rev; u8 bus_cap; u16 temp_word; u16 vendor_id; u16 subsystem_vid; u16 subsystem_deviceid; u32 rc; struct controller *ctrl; struct pci_func *func; // Need to read VID early b/c it's used to differentiate CPQ and INTC discovery rc = pci_read_config_word(pdev, PCI_VENDOR_ID, &vendor_id); if (rc || ((vendor_id != PCI_VENDOR_ID_COMPAQ) && (vendor_id != PCI_VENDOR_ID_INTEL))) { err(msg_HPC_non_compaq_or_intel); return -ENODEV; } dbg("Vendor ID: %x\n", vendor_id); rc = pci_read_config_byte(pdev, PCI_REVISION_ID, &rev); dbg("revision: %d\n", rev); if (rc || ((vendor_id == PCI_VENDOR_ID_COMPAQ) && (!rev))) { err(msg_HPC_rev_error); return -ENODEV; } /* Check for the proper subsytem ID's * Intel uses a different SSID programming model than Compaq. * For Intel, each SSID bit identifies a PHP capability. * Also Intel HPC's may have RID=0. */ if ((rev > 2) || (vendor_id == PCI_VENDOR_ID_INTEL)) { // TODO: This code can be made to support non-Compaq or Intel subsystem IDs rc = pci_read_config_word(pdev, PCI_SUBSYSTEM_VENDOR_ID, &subsystem_vid); if (rc) { err("%s : pci_read_config_word failed\n", __FUNCTION__); return rc; } dbg("Subsystem Vendor ID: %x\n", subsystem_vid); if ((subsystem_vid != PCI_VENDOR_ID_COMPAQ) && (subsystem_vid != PCI_VENDOR_ID_INTEL)) { err(msg_HPC_non_compaq_or_intel); return -ENODEV; } ctrl = (struct controller *) kmalloc(sizeof(struct controller), GFP_KERNEL); if (!ctrl) { err("%s : out of memory\n", __FUNCTION__); return -ENOMEM; } memset(ctrl, 0, sizeof(struct controller)); rc = pci_read_config_word(pdev, PCI_SUBSYSTEM_ID, &subsystem_deviceid); if (rc) { err("%s : pci_read_config_word failed\n", __FUNCTION__); goto err_free_ctrl; } info("Hot Plug Subsystem Device ID: %x\n", subsystem_deviceid); /* Set Vendor ID, so it can be accessed later from other functions */ ctrl->vendor_id = vendor_id; switch (subsystem_vid) { case PCI_VENDOR_ID_COMPAQ: if (rev >= 0x13) { /* CIOBX */ ctrl->push_flag = 1; ctrl->slot_switch_type = 1; ctrl->push_button = 1; ctrl->pci_config_space = 1; ctrl->defeature_PHP = 1; ctrl->pcix_support = 1; ctrl->pcix_speed_capability = 1; pci_read_config_byte(pdev, 0x41, &bus_cap); if (bus_cap & 0x80) { dbg("bus max supports 133MHz PCI-X\n"); ctrl->speed_capability = PCI_SPEED_133MHz_PCIX; break; } if (bus_cap & 0x40) { dbg("bus max supports 100MHz PCI-X\n"); ctrl->speed_capability = PCI_SPEED_100MHz_PCIX; break; } if (bus_cap & 20) { dbg("bus max supports 66MHz PCI-X\n"); ctrl->speed_capability = PCI_SPEED_66MHz_PCIX; break; } if (bus_cap & 10) { dbg("bus max supports 66MHz PCI\n"); ctrl->speed_capability = PCI_SPEED_66MHz; break; } break; } switch (subsystem_deviceid) { case PCI_SUB_HPC_ID: /* Original 6500/7000 implementation */ ctrl->slot_switch_type = 1; ctrl->speed_capability = PCI_SPEED_33MHz; ctrl->push_button = 0; ctrl->pci_config_space = 1; ctrl->defeature_PHP = 1; ctrl->pcix_support = 0; ctrl->pcix_speed_capability = 0; break; case PCI_SUB_HPC_ID2: /* First Pushbutton implementation */ ctrl->push_flag = 1; ctrl->slot_switch_type = 1; ctrl->speed_capability = PCI_SPEED_33MHz; ctrl->push_button = 1; ctrl->pci_config_space = 1; ctrl->defeature_PHP = 1; ctrl->pcix_support = 0; ctrl->pcix_speed_capability = 0; break; case PCI_SUB_HPC_ID_INTC: /* Third party (6500/7000) */ ctrl->slot_switch_type = 1; ctrl->speed_capability = PCI_SPEED_33MHz; ctrl->push_button = 0; ctrl->pci_config_space = 1; ctrl->defeature_PHP = 1; ctrl->pcix_support = 0; ctrl->pcix_speed_capability = 0; break; case PCI_SUB_HPC_ID3: /* First 66 Mhz implementation */ ctrl->push_flag = 1; ctrl->slot_switch_type = 1; ctrl->speed_capability = PCI_SPEED_66MHz; ctrl->push_button = 1; ctrl->pci_config_space = 1; ctrl->defeature_PHP = 1; ctrl->pcix_support = 0; ctrl->pcix_speed_capability = 0; break; case PCI_SUB_HPC_ID4: /* First PCI-X implementation, 100MHz */ ctrl->push_flag = 1; ctrl->slot_switch_type = 1; ctrl->speed_capability = PCI_SPEED_100MHz_PCIX; ctrl->push_button = 1; ctrl->pci_config_space = 1; ctrl->defeature_PHP = 1; ctrl->pcix_support = 1; ctrl->pcix_speed_capability = 0; break; default: err(msg_HPC_not_supported); rc = -ENODEV; goto err_free_ctrl; } break; case PCI_VENDOR_ID_INTEL: /* Check for speed capability (0=33, 1=66) */ if (subsystem_deviceid & 0x0001) { ctrl->speed_capability = PCI_SPEED_66MHz; } else { ctrl->speed_capability = PCI_SPEED_33MHz; } /* Check for push button */ if (subsystem_deviceid & 0x0002) { /* no push button */ ctrl->push_button = 0; } else { /* push button supported */ ctrl->push_button = 1; } /* Check for slot switch type (0=mechanical, 1=not mechanical) */ if (subsystem_deviceid & 0x0004) { /* no switch */ ctrl->slot_switch_type = 0; } else { /* switch */ ctrl->slot_switch_type = 1; } /* PHP Status (0=De-feature PHP, 1=Normal operation) */ if (subsystem_deviceid & 0x0008) { ctrl->defeature_PHP = 1; // PHP supported } else { ctrl->defeature_PHP = 0; // PHP not supported } /* Alternate Base Address Register Interface (0=not supported, 1=supported) */ if (subsystem_deviceid & 0x0010) { ctrl->alternate_base_address = 1; // supported } else { ctrl->alternate_base_address = 0; // not supported } /* PCI Config Space Index (0=not supported, 1=supported) */ if (subsystem_deviceid & 0x0020) { ctrl->pci_config_space = 1; // supported } else { ctrl->pci_config_space = 0; // not supported } /* PCI-X support */ if (subsystem_deviceid & 0x0080) { /* PCI-X capable */ ctrl->pcix_support = 1; /* Frequency of operation in PCI-X mode */ if (subsystem_deviceid & 0x0040) { /* 133MHz PCI-X if bit 7 is 1 */ ctrl->pcix_speed_capability = 1; } else { /* 100MHz PCI-X if bit 7 is 1 and bit 0 is 0, */ /* 66MHz PCI-X if bit 7 is 1 and bit 0 is 1 */ ctrl->pcix_speed_capability = 0; } } else { /* Conventional PCI */ ctrl->pcix_support = 0; ctrl->pcix_speed_capability = 0; } break; default: err(msg_HPC_not_supported); rc = -ENODEV; goto err_free_ctrl; } } else { err(msg_HPC_not_supported); return -ENODEV; } // Tell the user that we found one. info("Initializing the PCI hot plug controller residing on PCI bus %d\n", pdev->bus->number); dbg("Hotplug controller capabilities:\n"); dbg(" speed_capability %d\n", ctrl->speed_capability); dbg(" slot_switch_type %s\n", ctrl->slot_switch_type ? "switch present" : "no switch"); dbg(" defeature_PHP %s\n", ctrl->defeature_PHP ? "PHP supported" : "PHP not supported"); dbg(" alternate_base_address %s\n", ctrl->alternate_base_address ? "supported" : "not supported"); dbg(" pci_config_space %s\n", ctrl->pci_config_space ? "supported" : "not supported"); dbg(" pcix_speed_capability %s\n", ctrl->pcix_speed_capability ? "supported" : "not supported"); dbg(" pcix_support %s\n", ctrl->pcix_support ? "supported" : "not supported"); ctrl->pci_dev = pdev; pci_set_drvdata(pdev, ctrl); /* make our own copy of the pci bus structure, * as we like tweaking it a lot */ ctrl->pci_bus = kmalloc(sizeof(*ctrl->pci_bus), GFP_KERNEL); if (!ctrl->pci_bus) { err("out of memory\n"); rc = -ENOMEM; goto err_free_ctrl; } memcpy(ctrl->pci_bus, pdev->bus, sizeof(*ctrl->pci_bus)); ctrl->bus = pdev->bus->number; ctrl->rev = rev; dbg("bus device function rev: %d %d %d %d\n", ctrl->bus, PCI_SLOT(pdev->devfn), PCI_FUNC(pdev->devfn), ctrl->rev); init_MUTEX(&ctrl->crit_sect); init_waitqueue_head(&ctrl->queue); /* initialize our threads if they haven't already been started up */ rc = one_time_init(); if (rc) { goto err_free_bus; } dbg("pdev = %p\n", pdev); dbg("pci resource start %lx\n", pci_resource_start(pdev, 0)); dbg("pci resource len %lx\n", pci_resource_len(pdev, 0)); if (!request_mem_region(pci_resource_start(pdev, 0), pci_resource_len(pdev, 0), MY_NAME)) { err("cannot reserve MMIO region\n"); rc = -ENOMEM; goto err_free_bus; } ctrl->hpc_reg = ioremap(pci_resource_start(pdev, 0), pci_resource_len(pdev, 0)); if (!ctrl->hpc_reg) { err("cannot remap MMIO region %lx @ %lx\n", pci_resource_len(pdev, 0), pci_resource_start(pdev, 0)); rc = -ENODEV; goto err_free_mem_region; } // Check for 66Mhz operation ctrl->speed = get_controller_speed(ctrl); /******************************************************** * * Save configuration headers for this and * subordinate PCI buses * ********************************************************/ // find the physical slot number of the first hot plug slot /* Get slot won't work for devices behind bridges, but * in this case it will always be called for the "base" * bus/dev/func of a slot. * CS: this is leveraging the PCIIRQ routing code from the kernel * (pci-pc.c: get_irq_routing_table) */ rc = get_slot_mapping(ctrl->pci_bus, pdev->bus->number, (readb(ctrl->hpc_reg + SLOT_MASK) >> 4), &(ctrl->first_slot)); dbg("get_slot_mapping: first_slot = %d, returned = %d\n", ctrl->first_slot, rc); if (rc) { err(msg_initialization_err, rc); goto err_iounmap; } // Store PCI Config Space for all devices on this bus rc = cpqhp_save_config(ctrl, ctrl->bus, readb(ctrl->hpc_reg + SLOT_MASK)); if (rc) { err("%s: unable to save PCI configuration data, error %d\n", __FUNCTION__, rc); goto err_iounmap; } /* * Get IO, memory, and IRQ resources for new devices */ // The next line is required for cpqhp_find_available_resources ctrl->interrupt = pdev->irq; if (ctrl->interrupt < 0x10) { cpqhp_legacy_mode = 1; dbg("System seems to be configured for Full Table Mapped MPS mode\n"); } ctrl->cfgspc_irq = 0; pci_read_config_byte(pdev, PCI_INTERRUPT_LINE, &ctrl->cfgspc_irq); rc = cpqhp_find_available_resources(ctrl, cpqhp_rom_start); ctrl->add_support = !rc; if (rc) { dbg("cpqhp_find_available_resources = 0x%x\n", rc); err("unable to locate PCI configuration resources for hot plug add.\n"); goto err_iounmap; } /* * Finish setting up the hot plug ctrl device */ ctrl->slot_device_offset = readb(ctrl->hpc_reg + SLOT_MASK) >> 4; dbg("NumSlots %d \n", ctrl->slot_device_offset); ctrl->next_event = 0; /* Setup the slot information structures */ rc = ctrl_slot_setup(ctrl, smbios_start, smbios_table); if (rc) { err(msg_initialization_err, 6); err("%s: unable to save PCI configuration data, error %d\n", __FUNCTION__, rc); goto err_iounmap; } /* Mask all general input interrupts */ writel(0xFFFFFFFFL, ctrl->hpc_reg + INT_MASK); /* set up the interrupt */ dbg("HPC interrupt = %d \n", ctrl->interrupt); if (request_irq(ctrl->interrupt, cpqhp_ctrl_intr, SA_SHIRQ, MY_NAME, ctrl)) { err("Can't get irq %d for the hotplug pci controller\n", ctrl->interrupt); rc = -ENODEV; goto err_iounmap; } /* Enable Shift Out interrupt and clear it, also enable SERR on power fault */ temp_word = readw(ctrl->hpc_reg + MISC); temp_word |= 0x4006; writew(temp_word, ctrl->hpc_reg + MISC); // Changed 05/05/97 to clear all interrupts at start writel(0xFFFFFFFFL, ctrl->hpc_reg + INT_INPUT_CLEAR); ctrl->ctrl_int_comp = readl(ctrl->hpc_reg + INT_INPUT_CLEAR); writel(0x0L, ctrl->hpc_reg + INT_MASK); if (!cpqhp_ctrl_list) { cpqhp_ctrl_list = ctrl; ctrl->next = NULL; } else { ctrl->next = cpqhp_ctrl_list; cpqhp_ctrl_list = ctrl; } // turn off empty slots here unless command line option "ON" set // Wait for exclusive access to hardware down(&ctrl->crit_sect); num_of_slots = readb(ctrl->hpc_reg + SLOT_MASK) & 0x0F; // find first device number for the ctrl device = readb(ctrl->hpc_reg + SLOT_MASK) >> 4; while (num_of_slots) { dbg("num_of_slots: %d\n", num_of_slots); func = cpqhp_slot_find(ctrl->bus, device, 0); if (!func) break; hp_slot = func->device - ctrl->slot_device_offset; dbg("hp_slot: %d\n", hp_slot); // We have to save the presence info for these slots temp_word = ctrl->ctrl_int_comp >> 16; func->presence_save = (temp_word >> hp_slot) & 0x01; func->presence_save |= (temp_word >> (hp_slot + 7)) & 0x02; if (ctrl->ctrl_int_comp & (0x1L << hp_slot)) { func->switch_save = 0; } else { func->switch_save = 0x10; } if (!power_mode) { if (!func->is_a_board) { green_LED_off(ctrl, hp_slot); slot_disable(ctrl, hp_slot); } } device++; num_of_slots--; } if (!power_mode) { set_SOGO(ctrl); // Wait for SOBS to be unset wait_for_ctrl_irq(ctrl); } rc = init_SERR(ctrl); if (rc) { err("init_SERR failed\n"); up(&ctrl->crit_sect); goto err_free_irq; } // Done with exclusive hardware access up(&ctrl->crit_sect); cpqhp_create_ctrl_files(ctrl); return 0; err_free_irq: free_irq(ctrl->interrupt, ctrl); err_iounmap: iounmap(ctrl->hpc_reg); err_free_mem_region: release_mem_region(pci_resource_start(pdev, 0), pci_resource_len(pdev, 0)); err_free_bus: kfree(ctrl->pci_bus); err_free_ctrl: kfree(ctrl); return rc; } static int one_time_init(void) { int loop; int retval = 0; static int initialized = 0; if (initialized) return 0; power_mode = 0; retval = pci_print_IRQ_route(); if (retval) goto error; dbg("Initialize + Start the notification mechanism \n"); retval = cpqhp_event_start_thread(); if (retval) goto error; dbg("Initialize slot lists\n"); for (loop = 0; loop < 256; loop++) { cpqhp_slot_list[loop] = NULL; } // FIXME: We also need to hook the NMI handler eventually. // this also needs to be worked with Christoph // register_NMI_handler(); // Map rom address cpqhp_rom_start = ioremap(ROM_PHY_ADDR, ROM_PHY_LEN); if (!cpqhp_rom_start) { err ("Could not ioremap memory region for ROM\n"); retval = -EIO; goto error; } /* Now, map the int15 entry point if we are on compaq specific hardware */ compaq_nvram_init(cpqhp_rom_start); /* Map smbios table entry point structure */ smbios_table = detect_SMBIOS_pointer(cpqhp_rom_start, cpqhp_rom_start + ROM_PHY_LEN); if (!smbios_table) { err ("Could not find the SMBIOS pointer in memory\n"); retval = -EIO; goto error_rom_start; } smbios_start = ioremap(readl(smbios_table + ST_ADDRESS), readw(smbios_table + ST_LENGTH)); if (!smbios_start) { err ("Could not ioremap memory region taken from SMBIOS values\n"); retval = -EIO; goto error_smbios_start; } initialized = 1; return retval; error_smbios_start: iounmap(smbios_start); error_rom_start: iounmap(cpqhp_rom_start); error: return retval; } static void __exit unload_cpqphpd(void) { struct pci_func *next; struct pci_func *TempSlot; int loop; u32 rc; struct controller *ctrl; struct controller *tctrl; struct pci_resource *res; struct pci_resource *tres; rc = compaq_nvram_store(cpqhp_rom_start); ctrl = cpqhp_ctrl_list; while (ctrl) { if (ctrl->hpc_reg) { u16 misc; rc = read_slot_enable (ctrl); writeb(0, ctrl->hpc_reg + SLOT_SERR); writel(0xFFFFFFC0L | ~rc, ctrl->hpc_reg + INT_MASK); misc = readw(ctrl->hpc_reg + MISC); misc &= 0xFFFD; writew(misc, ctrl->hpc_reg + MISC); } ctrl_slot_cleanup(ctrl); res = ctrl->io_head; while (res) { tres = res; res = res->next; kfree(tres); } res = ctrl->mem_head; while (res) { tres = res; res = res->next; kfree(tres); } res = ctrl->p_mem_head; while (res) { tres = res; res = res->next; kfree(tres); } res = ctrl->bus_head; while (res) { tres = res; res = res->next; kfree(tres); } kfree (ctrl->pci_bus); tctrl = ctrl; ctrl = ctrl->next; kfree(tctrl); } for (loop = 0; loop < 256; loop++) { next = cpqhp_slot_list[loop]; while (next != NULL) { res = next->io_head; while (res) { tres = res; res = res->next; kfree(tres); } res = next->mem_head; while (res) { tres = res; res = res->next; kfree(tres); } res = next->p_mem_head; while (res) { tres = res; res = res->next; kfree(tres); } res = next->bus_head; while (res) { tres = res; res = res->next; kfree(tres); } TempSlot = next; next = next->next; kfree(TempSlot); } } // Stop the notification mechanism cpqhp_event_stop_thread(); //unmap the rom address if (cpqhp_rom_start) iounmap(cpqhp_rom_start); if (smbios_start) iounmap(smbios_start); } static struct pci_device_id hpcd_pci_tbl[] = { { /* handle any PCI Hotplug controller */ .class = ((PCI_CLASS_SYSTEM_PCI_HOTPLUG << 8) | 0x00), .class_mask = ~0, /* no matter who makes it */ .vendor = PCI_ANY_ID, .device = PCI_ANY_ID, .subvendor = PCI_ANY_ID, .subdevice = PCI_ANY_ID, }, { /* end: all zeroes */ } }; MODULE_DEVICE_TABLE(pci, hpcd_pci_tbl); static struct pci_driver cpqhpc_driver = { .name = "compaq_pci_hotplug", .id_table = hpcd_pci_tbl, .probe = cpqhpc_probe, /* remove: cpqhpc_remove_one, */ }; static int __init cpqhpc_init(void) { int result; cpqhp_debug = debug; info (DRIVER_DESC " version: " DRIVER_VERSION "\n"); result = pci_register_driver(&cpqhpc_driver); dbg("pci_register_driver = %d\n", result); return result; } static void __exit cpqhpc_cleanup(void) { dbg("unload_cpqphpd()\n"); unload_cpqphpd(); dbg("pci_unregister_driver\n"); pci_unregister_driver(&cpqhpc_driver); } module_init(cpqhpc_init); module_exit(cpqhpc_cleanup); |