Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Brent Casavant | 1422 | 84.95% | 8 | 38.10% |
Patrick Gefre | 123 | 7.35% | 1 | 4.76% |
Richard Leitner | 38 | 2.27% | 1 | 4.76% |
Jes Sorensen | 34 | 2.03% | 1 | 4.76% |
Tejun Heo | 17 | 1.02% | 3 | 14.29% |
Julia Lawall | 14 | 0.84% | 1 | 4.76% |
Harvey Harrison | 10 | 0.60% | 1 | 4.76% |
Randy Dunlap | 6 | 0.36% | 1 | 4.76% |
Thomas Gleixner | 4 | 0.24% | 1 | 4.76% |
Al Viro | 3 | 0.18% | 1 | 4.76% |
Jean Delvare | 2 | 0.12% | 1 | 4.76% |
Arvind Yadav | 1 | 0.06% | 1 | 4.76% |
Total | 1674 | 21 |
/* * 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) 2005-2006 Silicon Graphics, Inc. All Rights Reserved. */ /* This file contains the master driver module for use by SGI IOC4 subdrivers. * * It allocates any resources shared between multiple subdevices, and * provides accessor functions (where needed) and the like for those * resources. It also provides a mechanism for the subdevice modules * to support loading and unloading. * * Non-shared resources (e.g. external interrupt A_INT_OUT register page * alias, serial port and UART registers) are handled by the subdevice * modules themselves. * * This is all necessary because IOC4 is not implemented as a multi-function * PCI device, but an amalgamation of disparate registers for several * types of device (ATA, serial, external interrupts). The normal * resource management in the kernel doesn't have quite the right interfaces * to handle this situation (e.g. multiple modules can't claim the same * PCI ID), thus this IOC4 master module. */ #include <linux/errno.h> #include <linux/module.h> #include <linux/pci.h> #include <linux/ioc4.h> #include <linux/ktime.h> #include <linux/slab.h> #include <linux/mutex.h> #include <linux/time.h> #include <asm/io.h> /*************** * Definitions * ***************/ /* Tweakable values */ /* PCI bus speed detection/calibration */ #define IOC4_CALIBRATE_COUNT 63 /* Calibration cycle period */ #define IOC4_CALIBRATE_CYCLES 256 /* Average over this many cycles */ #define IOC4_CALIBRATE_DISCARD 2 /* Discard first few cycles */ #define IOC4_CALIBRATE_LOW_MHZ 25 /* Lower bound on bus speed sanity */ #define IOC4_CALIBRATE_HIGH_MHZ 75 /* Upper bound on bus speed sanity */ #define IOC4_CALIBRATE_DEFAULT_MHZ 66 /* Assumed if sanity check fails */ /************************ * Submodule management * ************************/ static DEFINE_MUTEX(ioc4_mutex); static LIST_HEAD(ioc4_devices); static LIST_HEAD(ioc4_submodules); /* Register an IOC4 submodule */ int ioc4_register_submodule(struct ioc4_submodule *is) { struct ioc4_driver_data *idd; mutex_lock(&ioc4_mutex); list_add(&is->is_list, &ioc4_submodules); /* Initialize submodule for each IOC4 */ if (!is->is_probe) goto out; list_for_each_entry(idd, &ioc4_devices, idd_list) { if (is->is_probe(idd)) { printk(KERN_WARNING "%s: IOC4 submodule %s probe failed " "for pci_dev %s", __func__, module_name(is->is_owner), pci_name(idd->idd_pdev)); } } out: mutex_unlock(&ioc4_mutex); return 0; } /* Unregister an IOC4 submodule */ void ioc4_unregister_submodule(struct ioc4_submodule *is) { struct ioc4_driver_data *idd; mutex_lock(&ioc4_mutex); list_del(&is->is_list); /* Remove submodule for each IOC4 */ if (!is->is_remove) goto out; list_for_each_entry(idd, &ioc4_devices, idd_list) { if (is->is_remove(idd)) { printk(KERN_WARNING "%s: IOC4 submodule %s remove failed " "for pci_dev %s.\n", __func__, module_name(is->is_owner), pci_name(idd->idd_pdev)); } } out: mutex_unlock(&ioc4_mutex); } /********************* * Device management * *********************/ #define IOC4_CALIBRATE_LOW_LIMIT \ (1000*IOC4_EXTINT_COUNT_DIVISOR/IOC4_CALIBRATE_LOW_MHZ) #define IOC4_CALIBRATE_HIGH_LIMIT \ (1000*IOC4_EXTINT_COUNT_DIVISOR/IOC4_CALIBRATE_HIGH_MHZ) #define IOC4_CALIBRATE_DEFAULT \ (1000*IOC4_EXTINT_COUNT_DIVISOR/IOC4_CALIBRATE_DEFAULT_MHZ) #define IOC4_CALIBRATE_END \ (IOC4_CALIBRATE_CYCLES + IOC4_CALIBRATE_DISCARD) #define IOC4_INT_OUT_MODE_TOGGLE 0x7 /* Toggle INT_OUT every COUNT+1 ticks */ /* Determines external interrupt output clock period of the PCI bus an * IOC4 is attached to. This value can be used to determine the PCI * bus speed. * * IOC4 has a design feature that various internal timers are derived from * the PCI bus clock. This causes IOC4 device drivers to need to take the * bus speed into account when setting various register values (e.g. INT_OUT * register COUNT field, UART divisors, etc). Since this information is * needed by several subdrivers, it is determined by the main IOC4 driver, * even though the following code utilizes external interrupt registers * to perform the speed calculation. */ static void ioc4_clock_calibrate(struct ioc4_driver_data *idd) { union ioc4_int_out int_out; union ioc4_gpcr gpcr; unsigned int state, last_state; uint64_t start, end, period; unsigned int count; /* Enable output */ gpcr.raw = 0; gpcr.fields.dir = IOC4_GPCR_DIR_0; gpcr.fields.int_out_en = 1; writel(gpcr.raw, &idd->idd_misc_regs->gpcr_s.raw); /* Reset to power-on state */ writel(0, &idd->idd_misc_regs->int_out.raw); /* Set up square wave */ int_out.raw = 0; int_out.fields.count = IOC4_CALIBRATE_COUNT; int_out.fields.mode = IOC4_INT_OUT_MODE_TOGGLE; int_out.fields.diag = 0; writel(int_out.raw, &idd->idd_misc_regs->int_out.raw); /* Check square wave period averaged over some number of cycles */ start = ktime_get_ns(); state = 1; /* make sure the first read isn't a rising edge */ for (count = 0; count <= IOC4_CALIBRATE_END; count++) { do { /* wait for a rising edge */ last_state = state; int_out.raw = readl(&idd->idd_misc_regs->int_out.raw); state = int_out.fields.int_out; } while (last_state || !state); /* discard the first few cycles */ if (count == IOC4_CALIBRATE_DISCARD) start = ktime_get_ns(); } end = ktime_get_ns(); /* Calculation rearranged to preserve intermediate precision. * Logically: * 1. "end - start" gives us the measurement period over all * the square wave cycles. * 2. Divide by number of square wave cycles to get the period * of a square wave cycle. * 3. Divide by 2*(int_out.fields.count+1), which is the formula * by which the IOC4 generates the square wave, to get the * period of an IOC4 INT_OUT count. */ period = (end - start) / (IOC4_CALIBRATE_CYCLES * 2 * (IOC4_CALIBRATE_COUNT + 1)); /* Bounds check the result. */ if (period > IOC4_CALIBRATE_LOW_LIMIT || period < IOC4_CALIBRATE_HIGH_LIMIT) { printk(KERN_INFO "IOC4 %s: Clock calibration failed. Assuming" "PCI clock is %d ns.\n", pci_name(idd->idd_pdev), IOC4_CALIBRATE_DEFAULT / IOC4_EXTINT_COUNT_DIVISOR); period = IOC4_CALIBRATE_DEFAULT; } else { u64 ns = period; do_div(ns, IOC4_EXTINT_COUNT_DIVISOR); printk(KERN_DEBUG "IOC4 %s: PCI clock is %llu ns.\n", pci_name(idd->idd_pdev), (unsigned long long)ns); } /* Remember results. We store the extint clock period rather * than the PCI clock period so that greater precision is * retained. Divide by IOC4_EXTINT_COUNT_DIVISOR to get * PCI clock period. */ idd->count_period = period; } /* There are three variants of IOC4 cards: IO9, IO10, and PCI-RT. * Each brings out different combinations of IOC4 signals, thus. * the IOC4 subdrivers need to know to which we're attached. * * We look for the presence of a SCSI (IO9) or SATA (IO10) controller * on the same PCI bus at slot number 3 to differentiate IO9 from IO10. * If neither is present, it's a PCI-RT. */ static unsigned int ioc4_variant(struct ioc4_driver_data *idd) { struct pci_dev *pdev = NULL; int found = 0; /* IO9: Look for a QLogic ISP 12160 at the same bus and slot 3. */ do { pdev = pci_get_device(PCI_VENDOR_ID_QLOGIC, PCI_DEVICE_ID_QLOGIC_ISP12160, pdev); if (pdev && idd->idd_pdev->bus->number == pdev->bus->number && 3 == PCI_SLOT(pdev->devfn)) found = 1; } while (pdev && !found); if (NULL != pdev) { pci_dev_put(pdev); return IOC4_VARIANT_IO9; } /* IO10: Look for a Vitesse VSC 7174 at the same bus and slot 3. */ pdev = NULL; do { pdev = pci_get_device(PCI_VENDOR_ID_VITESSE, PCI_DEVICE_ID_VITESSE_VSC7174, pdev); if (pdev && idd->idd_pdev->bus->number == pdev->bus->number && 3 == PCI_SLOT(pdev->devfn)) found = 1; } while (pdev && !found); if (NULL != pdev) { pci_dev_put(pdev); return IOC4_VARIANT_IO10; } /* PCI-RT: No SCSI/SATA controller will be present */ return IOC4_VARIANT_PCI_RT; } static void ioc4_load_modules(struct work_struct *work) { request_module("sgiioc4"); } static DECLARE_WORK(ioc4_load_modules_work, ioc4_load_modules); /* Adds a new instance of an IOC4 card */ static int ioc4_probe(struct pci_dev *pdev, const struct pci_device_id *pci_id) { struct ioc4_driver_data *idd; struct ioc4_submodule *is; uint32_t pcmd; int ret; /* Enable IOC4 and take ownership of it */ if ((ret = pci_enable_device(pdev))) { printk(KERN_WARNING "%s: Failed to enable IOC4 device for pci_dev %s.\n", __func__, pci_name(pdev)); goto out; } pci_set_master(pdev); /* Set up per-IOC4 data */ idd = kmalloc(sizeof(struct ioc4_driver_data), GFP_KERNEL); if (!idd) { printk(KERN_WARNING "%s: Failed to allocate IOC4 data for pci_dev %s.\n", __func__, pci_name(pdev)); ret = -ENODEV; goto out_idd; } idd->idd_pdev = pdev; idd->idd_pci_id = pci_id; /* Map IOC4 misc registers. These are shared between subdevices * so the main IOC4 module manages them. */ idd->idd_bar0 = pci_resource_start(idd->idd_pdev, 0); if (!idd->idd_bar0) { printk(KERN_WARNING "%s: Unable to find IOC4 misc resource " "for pci_dev %s.\n", __func__, pci_name(idd->idd_pdev)); ret = -ENODEV; goto out_pci; } if (!request_mem_region(idd->idd_bar0, sizeof(struct ioc4_misc_regs), "ioc4_misc")) { printk(KERN_WARNING "%s: Unable to request IOC4 misc region " "for pci_dev %s.\n", __func__, pci_name(idd->idd_pdev)); ret = -ENODEV; goto out_pci; } idd->idd_misc_regs = ioremap(idd->idd_bar0, sizeof(struct ioc4_misc_regs)); if (!idd->idd_misc_regs) { printk(KERN_WARNING "%s: Unable to remap IOC4 misc region " "for pci_dev %s.\n", __func__, pci_name(idd->idd_pdev)); ret = -ENODEV; goto out_misc_region; } /* Failsafe portion of per-IOC4 initialization */ /* Detect card variant */ idd->idd_variant = ioc4_variant(idd); printk(KERN_INFO "IOC4 %s: %s card detected.\n", pci_name(pdev), idd->idd_variant == IOC4_VARIANT_IO9 ? "IO9" : idd->idd_variant == IOC4_VARIANT_PCI_RT ? "PCI-RT" : idd->idd_variant == IOC4_VARIANT_IO10 ? "IO10" : "unknown"); /* Initialize IOC4 */ pci_read_config_dword(idd->idd_pdev, PCI_COMMAND, &pcmd); pci_write_config_dword(idd->idd_pdev, PCI_COMMAND, pcmd | PCI_COMMAND_PARITY | PCI_COMMAND_SERR); /* Determine PCI clock */ ioc4_clock_calibrate(idd); /* Disable/clear all interrupts. Need to do this here lest * one submodule request the shared IOC4 IRQ, but interrupt * is generated by a different subdevice. */ /* Disable */ writel(~0, &idd->idd_misc_regs->other_iec.raw); writel(~0, &idd->idd_misc_regs->sio_iec); /* Clear (i.e. acknowledge) */ writel(~0, &idd->idd_misc_regs->other_ir.raw); writel(~0, &idd->idd_misc_regs->sio_ir); /* Track PCI-device specific data */ idd->idd_serial_data = NULL; pci_set_drvdata(idd->idd_pdev, idd); mutex_lock(&ioc4_mutex); list_add_tail(&idd->idd_list, &ioc4_devices); /* Add this IOC4 to all submodules */ list_for_each_entry(is, &ioc4_submodules, is_list) { if (is->is_probe && is->is_probe(idd)) { printk(KERN_WARNING "%s: IOC4 submodule 0x%s probe failed " "for pci_dev %s.\n", __func__, module_name(is->is_owner), pci_name(idd->idd_pdev)); } } mutex_unlock(&ioc4_mutex); /* Request sgiioc4 IDE driver on boards that bring that functionality * off of IOC4. The root filesystem may be hosted on a drive connected * to IOC4, so we need to make sure the sgiioc4 driver is loaded as it * won't be picked up by modprobes due to the ioc4 module owning the * PCI device. */ if (idd->idd_variant != IOC4_VARIANT_PCI_RT) { /* Request the module from a work procedure as the modprobe * goes out to a userland helper and that will hang if done * directly from ioc4_probe(). */ printk(KERN_INFO "IOC4 loading sgiioc4 submodule\n"); schedule_work(&ioc4_load_modules_work); } return 0; out_misc_region: release_mem_region(idd->idd_bar0, sizeof(struct ioc4_misc_regs)); out_pci: kfree(idd); out_idd: pci_disable_device(pdev); out: return ret; } /* Removes a particular instance of an IOC4 card. */ static void ioc4_remove(struct pci_dev *pdev) { struct ioc4_submodule *is; struct ioc4_driver_data *idd; idd = pci_get_drvdata(pdev); /* Remove this IOC4 from all submodules */ mutex_lock(&ioc4_mutex); list_for_each_entry(is, &ioc4_submodules, is_list) { if (is->is_remove && is->is_remove(idd)) { printk(KERN_WARNING "%s: IOC4 submodule 0x%s remove failed " "for pci_dev %s.\n", __func__, module_name(is->is_owner), pci_name(idd->idd_pdev)); } } mutex_unlock(&ioc4_mutex); /* Release resources */ iounmap(idd->idd_misc_regs); if (!idd->idd_bar0) { printk(KERN_WARNING "%s: Unable to get IOC4 misc mapping for pci_dev %s. " "Device removal may be incomplete.\n", __func__, pci_name(idd->idd_pdev)); } release_mem_region(idd->idd_bar0, sizeof(struct ioc4_misc_regs)); /* Disable IOC4 and relinquish */ pci_disable_device(pdev); /* Remove and free driver data */ mutex_lock(&ioc4_mutex); list_del(&idd->idd_list); mutex_unlock(&ioc4_mutex); kfree(idd); } static const struct pci_device_id ioc4_id_table[] = { {PCI_VENDOR_ID_SGI, PCI_DEVICE_ID_SGI_IOC4, PCI_ANY_ID, PCI_ANY_ID, 0x0b4000, 0xFFFFFF}, {0} }; static struct pci_driver ioc4_driver = { .name = "IOC4", .id_table = ioc4_id_table, .probe = ioc4_probe, .remove = ioc4_remove, }; MODULE_DEVICE_TABLE(pci, ioc4_id_table); /********************* * Module management * *********************/ /* Module load */ static int __init ioc4_init(void) { return pci_register_driver(&ioc4_driver); } /* Module unload */ static void __exit ioc4_exit(void) { /* Ensure ioc4_load_modules() has completed before exiting */ flush_work(&ioc4_load_modules_work); pci_unregister_driver(&ioc4_driver); } module_init(ioc4_init); module_exit(ioc4_exit); MODULE_AUTHOR("Brent Casavant - Silicon Graphics, Inc. <bcasavan@sgi.com>"); MODULE_DESCRIPTION("PCI driver master module for SGI IOC4 Base-IO Card"); MODULE_LICENSE("GPL"); EXPORT_SYMBOL(ioc4_register_submodule); EXPORT_SYMBOL(ioc4_unregister_submodule);
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