/***************************************************************************** * sdlamain.c WANPIPE(tm) Multiprotocol WAN Link Driver. Main module. * * Author: Gene Kozin * * Copyright: (c) 1995-1997 Sangoma Technologies Inc. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version * 2 of the License, or (at your option) any later version. * ============================================================================ * Jan 02, 1997 Gene Kozin Initial version. *****************************************************************************/ #if !defined(__KERNEL__) || !defined(MODULE) #error This code MUST be compiled as a kernel module! #endif #include /* OS configuration options */ #include /* offsetof(), etc. */ #include /* return codes */ #include /* inline memset(), etc. */ #include /* kmalloc(), kfree() */ #include /* printk(), and other useful stuff */ #include /* support for loadable modules */ #include /* request_region(), release_region() */ #include /* for kernel task queues */ #include /* WAN router definitions */ #include /* WANPIPE common user API definitions */ #include /* kernel <-> user copy */ /****** Defines & Macros ****************************************************/ #ifdef _DEBUG_ #define STATIC #else #define STATIC static #endif #define DRV_VERSION 3 /* version number */ #define DRV_RELEASE 0 /* release (minor version) number */ #define MAX_CARDS 8 /* max number of adapters */ #ifndef CONFIG_WANPIPE_CARDS /* configurable option */ #define CONFIG_WANPIPE_CARDS 1 #endif #define CMD_OK 0 /* normal firmware return code */ #define CMD_TIMEOUT 0xFF /* firmware command timed out */ #define MAX_CMD_RETRY 10 /* max number of firmware retries */ /****** Function Prototypes *************************************************/ /* Module entry points */ int init_module (void); void cleanup_module (void); /* WAN link driver entry points */ static int setup (wan_device_t* wandev, wandev_conf_t* conf); static int shutdown (wan_device_t* wandev); static int ioctl (wan_device_t* wandev, unsigned cmd, unsigned long arg); /* IOCTL hanlers */ static int ioctl_dump (sdla_t* card, sdla_dump_t* u_dump); static int ioctl_exec (sdla_t* card, sdla_exec_t* u_exec); /* Miscellaneous functions */ STATIC void sdla_isr (int irq, void* dev_id, struct pt_regs *regs); STATIC void sdla_poll (void* data); /****** Global Data ********************************************************** * Note: All data must be explicitly initialized!!! */ /* private data */ static char drvname[] = "wanpipe"; static char fullname[] = "WANPIPE(tm) Multiprotocol Driver"; static char copyright[] = "(c) 1995-1996 Sangoma Technologies Inc."; static int ncards = CONFIG_WANPIPE_CARDS; static int active = 0; /* number of active cards */ static sdla_t* card_array = NULL; /* adapter data space */ /* Task queue element for creating a 'thread' */ static struct tq_struct sdla_tq = { NULL, /* .next */ 0, /* .sync */ &sdla_poll, /* .routine */ NULL /* .data */ }; /******* Kernel Loadable Module Entry Points ********************************/ /*============================================================================ * Module 'insert' entry point. * o print announcement * o allocate adapter data space * o initialize static data * o register all cards with WAN router * o calibrate SDLA shared memory access delay. * * Return: 0 Ok * < 0 error. * Context: process */ int init_module (void) { int cnt, err = 0; printk(KERN_INFO "%s v%u.%u %s\n", fullname, DRV_VERSION, DRV_RELEASE, copyright) ; /* Verify number of cards and allocate adapter data space */ ncards = min(ncards, MAX_CARDS); ncards = max(ncards, 1); card_array = kmalloc(sizeof(sdla_t) * ncards, GFP_KERNEL); if (card_array == NULL) return -ENOMEM ; memset(card_array, 0, sizeof(sdla_t) * ncards); /* Register adapters with WAN router */ for (cnt = 0; cnt < ncards; ++cnt) { sdla_t* card = &card_array[cnt]; wan_device_t* wandev = &card->wandev; sprintf(card->devname, "%s%d", drvname, cnt + 1); wandev->magic = ROUTER_MAGIC; wandev->name = card->devname; wandev->private = card; wandev->setup = &setup; wandev->shutdown = &shutdown; wandev->ioctl = &ioctl; err = register_wandev(wandev); if (err) { printk(KERN_ERR "%s: %s registration failed with error %d!\n", drvname, card->devname, err) ; break; } } if (cnt) ncards = cnt; /* adjust actual number of cards */ else kfree(card_array); return err; } /*============================================================================ * Module 'remove' entry point. * o unregister all adapters from the WAN router * o release all remaining system resources */ void cleanup_module (void) { int i; for (i = 0; i < ncards; ++i) { sdla_t* card = &card_array[i]; unregister_wandev(card->devname); } kfree(card_array); } /******* WAN Device Driver Entry Points *************************************/ /*============================================================================ * Setup/confugure WAN link driver. * o check adapter state * o make sure firmware is present in configuration * o make sure I/O port and IRQ are specified * o make sure I/O region is available * o allocate interrupt vector * o setup SDLA hardware * o call appropriate routine to perform protocol-specific initialization * o mark I/O region as used * o if this is the first active card, then schedule background task * * This function is called when router handles ROUTER_SETUP IOCTL. The * configuration structure is in kernel memory (including extended data, if * any). */ static int setup (wan_device_t* wandev, wandev_conf_t* conf) { sdla_t* card; int err = 0; int irq; /* Sanity checks */ if ((wandev == NULL) || (wandev->private == NULL) || (conf == NULL)) return -EFAULT ; card = wandev->private; if (wandev->state != WAN_UNCONFIGURED) return -EBUSY /* already configured */ ; if (!conf->data_size || (conf->data == NULL)) { printk(KERN_ERR "%s: firmware not found in configuration data!\n", wandev->name) ; return -EINVAL; } if (conf->ioport <= 0) { printk(KERN_ERR "%s: can't configure without I/O port address!\n", wandev->name) ; return -EINVAL; } if (conf->irq <= 0) { printk(KERN_ERR "%s: can't configure without IRQ!\n", wandev->name) ; return -EINVAL; } /* Make sure I/O port region is available */ if (check_region(conf->ioport, SDLA_MAXIORANGE)) { printk(KERN_ERR "%s: I/O region 0x%X - 0x%X is in use!\n", wandev->name, conf->ioport, conf->ioport + SDLA_MAXIORANGE) ; return -EINVAL; } /* Allocate IRQ */ irq = (conf->irq == 2) ? 9 : conf->irq; /* IRQ2 -> IRQ9 */ if (request_irq(irq, sdla_isr, 0, wandev->name, card)) { printk(KERN_ERR "%s: can't reserve IRQ %d!\n", wandev->name, irq) ; return -EINVAL; } /* Configure hardware, load firmware, etc. */ memset(&card->hw, 0, sizeof(sdlahw_t)); card->hw.port = conf->ioport; card->hw.irq = (conf->irq == 9) ? 2 : conf->irq; card->hw.dpmbase = conf->maddr; card->hw.dpmsize = SDLA_WINDOWSIZE; card->hw.type = conf->hw_opt[0]; card->hw.pclk = conf->hw_opt[1]; err = sdla_setup(&card->hw, conf->data, conf->data_size); if (err) { free_irq(irq, card); return err; } /* Intialize WAN device data space */ wandev->irq = irq; wandev->dma = 0; wandev->ioport = card->hw.port; wandev->maddr = card->hw.dpmbase; wandev->msize = card->hw.dpmsize; wandev->hw_opt[0] = card->hw.type; wandev->hw_opt[1] = card->hw.pclk; wandev->hw_opt[2] = card->hw.memory; wandev->hw_opt[3] = card->hw.fwid; /* Protocol-specific initialization */ switch (card->hw.fwid) { #ifdef CONFIG_WANPIPE_X25 case SFID_X25_502: case SFID_X25_508: err = wpx_init(card, conf); break; #endif #ifdef CONFIG_WANPIPE_FR case SFID_FR502: case SFID_FR508: err = wpf_init(card, conf); break; #endif #ifdef CONFIG_WANPIPE_PPP case SFID_PPP502: case SFID_PPP508: err = wpp_init(card, conf); break; #endif default: printk(KERN_ERR "%s: this firmware is not supported!\n", wandev->name) ; err = -EINVAL; } if (err) { sdla_down(&card->hw); free_irq(irq, card); return err; } /* Reserve I/O region and schedule background task */ request_region(card->hw.port, card->hw.io_range, wandev->name); if (++active == 1) queue_task(&sdla_tq, &tq_scheduler) ; wandev->critical = 0; return 0; } /*============================================================================ * Shut down WAN link driver. * o shut down adapter hardware * o release system resources. * * This function is called by the router when device is being unregistered or * when it handles ROUTER_DOWN IOCTL. */ static int shutdown (wan_device_t* wandev) { sdla_t* card; /* sanity checks */ if ((wandev == NULL) || (wandev->private == NULL)) return -EFAULT ; if (wandev->state == WAN_UNCONFIGURED) return 0 ; if (test_and_set_bit(0, (void*)&wandev->critical)) return -EAGAIN ; card = wandev->private; wandev->state = WAN_UNCONFIGURED; if (--active == 0) schedule(); /* stop background thread */ sdla_down(&card->hw); free_irq(wandev->irq, card); release_region(card->hw.port, card->hw.io_range); wandev->critical = 0; return 0; } /*============================================================================ * Driver I/O control. * o verify arguments * o perform requested action * * This function is called when router handles one of the reserved user * IOCTLs. Note that 'arg' stil points to user address space. */ static int ioctl (wan_device_t* wandev, unsigned cmd, unsigned long arg) { int err; /* sanity checks */ if ((wandev == NULL) || (wandev->private == NULL)) return -EFAULT ; if (wandev->state == WAN_UNCONFIGURED) return -ENODEV ; if (test_and_set_bit(0, (void*)&wandev->critical)) return -EAGAIN ; switch (cmd) { case WANPIPE_DUMP: err = ioctl_dump(wandev->private, (void*)arg); break; case WANPIPE_EXEC: err = ioctl_exec(wandev->private, (void*)arg); break; default: err = -EINVAL; } wandev->critical = 0; return err; } /****** Driver IOCTL Hanlers ************************************************/ /*============================================================================ * Dump adpater memory to user buffer. * o verify request structure * o copy request structure to kernel data space * o verify length/offset * o verify user buffer * o copy adapter memory image to user buffer * * Note: when dumping memory, this routine switches curent dual-port memory * vector, so care must be taken to avoid racing conditions. */ static int ioctl_dump (sdla_t* card, sdla_dump_t* u_dump) { sdla_dump_t dump; unsigned winsize; unsigned long oldvec; /* DPM window vector */ int err = 0; if ((u_dump == NULL) || verify_area(VERIFY_READ, u_dump, sizeof(sdla_dump_t))) return -EFAULT ; memcpy_fromfs((void*)&dump, (void*)u_dump, sizeof(sdla_dump_t)); if ((dump.magic != WANPIPE_MAGIC) || (dump.offset + dump.length > card->hw.memory)) return -EINVAL ; if ((dump.ptr == NULL) || verify_area(VERIFY_WRITE, dump.ptr, dump.length)) return -EFAULT ; winsize = card->hw.dpmsize; cli(); /* >>> critical section start <<< */ oldvec = card->hw.vector; while (dump.length) { unsigned pos = dump.offset % winsize; /* current offset */ unsigned long vec = dump.offset - pos; /* current vector */ unsigned len = (dump.length > (winsize - pos)) ? (winsize - pos) : dump.length ; if (sdla_mapmem(&card->hw, vec) != 0) /* relocate window */ { err = -EIO; break; } memcpy_tofs((void*)(dump.ptr), (void*)(card->hw.dpmbase + pos), len) ; dump.length -= len; dump.offset += len; (char*)dump.ptr += len; } sdla_mapmem(&card->hw, oldvec); /* restore DPM window position */ sti(); /* >>> critical section end <<< */ return err; } /*============================================================================ * Execute adapter firmware command. * o verify request structure * o copy request structure to kernel data space * o call protocol-specific 'exec' function */ static int ioctl_exec (sdla_t* card, sdla_exec_t* u_exec) { sdla_exec_t exec; if (card->exec == NULL) return -ENODEV ; if ((u_exec == NULL) || verify_area(VERIFY_READ, u_exec, sizeof(sdla_exec_t))) return -EFAULT ; memcpy_fromfs((void*)&exec, (void*)u_exec, sizeof(sdla_exec_t)); if ((exec.magic != WANPIPE_MAGIC) || (exec.cmd == NULL)) return -EINVAL ; return card->exec(card, exec.cmd, exec.data); } /******* Miscellaneous ******************************************************/ /*============================================================================ * SDLA Interrupt Service Routine. * o acknowledge SDLA hardware interrupt. * o call protocol-specific interrupt service routine, if any. */ STATIC void sdla_isr (int irq, void* dev_id, struct pt_regs *regs) { #define card ((sdla_t*)dev_id) if (!card || (card->wandev.state == WAN_UNCONFIGURED)) return ; if (card->in_isr) { printk(KERN_WARNING "%s: interrupt re-entrancy on IRQ %d!\n", card->devname, card->wandev.irq) ; return; } card->in_isr = 1; sdla_intack(&card->hw); if (card->isr) card->isr(card); card->in_isr = 0; #undef card } /*============================================================================ * SDLA polling routine. * This routine simulates kernel thread to perform various housekeeping job. * * o for each configured device call its poll() routine * o if there is at least one active card, then reschedule itself once again */ STATIC void sdla_poll (void* data) { int i; for (i = 0; i < ncards; ++i) { sdla_t* card = &card_array[i]; if ((card->wandev.state != WAN_UNCONFIGURED) && card->poll && !test_and_set_bit(0, (void*)&card->wandev.critical)) { card->poll(card); card->wandev.critical = 0; } } if (active) queue_task(&sdla_tq, &tq_scheduler); } /*============================================================================ * This routine is called by the protocol-specific modules when network * interface is being open. The only reason we need this, is because we * have to call MOD_INC_USE_COUNT, but cannot include 'module.h' where it's * defined more than once into the same kernel module. */ void wanpipe_open (sdla_t* card) { ++card->open_cnt; MOD_INC_USE_COUNT; } /*============================================================================ * This routine is called by the protocol-specific modules when network * interface is being closed. The only reason we need this, is because we * have to call MOD_DEC_USE_COUNT, but cannot include 'module.h' where it's * defined more than once into the same kernel module. */ void wanpipe_close (sdla_t* card) { --card->open_cnt; MOD_DEC_USE_COUNT; } /*============================================================================ * Set WAN device state. */ void wanpipe_set_state (sdla_t* card, int state) { unsigned long flags; save_flags(flags); cli(); if (card->wandev.state != state) { switch (state) { case WAN_CONNECTED: printk (KERN_INFO "%s: link connected!\n", card->devname) ; break; case WAN_CONNECTING: printk (KERN_INFO "%s: link connecting...\n", card->devname) ; break; case WAN_DISCONNECTED: printk (KERN_INFO "%s: link disconnected!\n", card->devname) ; break; } card->wandev.state = state; } card->state_tick = jiffies; restore_flags(flags); } /****** End *****************************************************************/