/***************************************************************************** * wanproc.c WAN Router Module. /proc filesystem interface. * * This module is completely hardware-independent and provides * access to the router using Linux /proc filesystem. * * Author: Gideon Hack * * Copyright: (c) 1995-1999 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. * ============================================================================ * Jun 02, 1999 Gideon Hack Updates for Linux 2.2.X kernels. * Jun 29, 1997 Alan Cox Merged with 1.0.3 vendor code * Jan 29, 1997 Gene Kozin v1.0.1. Implemented /proc read routines * Jan 30, 1997 Alan Cox Hacked around for 2.1 * Dec 13, 1996 Gene Kozin Initial version (based on Sangoma's WANPIPE) *****************************************************************************/ #include #include #include /* offsetof(), etc. */ #include /* return codes */ #include #include /* kmalloc(), kfree() */ #include /* verify_area(), etc. */ #include /* inline mem*, str* functions */ #include /* htons(), etc. */ #include #include /* WAN router API definitions */ #if defined(LINUX_2_1) || defined(LINUX_2_4) #include /* __initfunc et al. */ #include /* copy_to_user */ #define PROC_STATS_FORMAT "%30s: %12lu\n" #else #define PROC_STATS_FORMAT "%30s: %12u\n" #include /* kernel <-> user copy */ #endif /****** Defines and Macros **************************************************/ #define PROC_BUFSZ 4000 /* buffer size for printing proc info */ #define PROT_DECODE(prot) ((prot == WANCONFIG_FR) ? " FR" :\ (prot == WANCONFIG_X25) ? " X25" : \ (prot == WANCONFIG_PPP) ? " PPP" : \ (prot == WANCONFIG_CHDLC) ? " CHDLC": \ (prot == WANCONFIG_MPPP) ? " MPPP" : \ " Unknown" ) /****** Data Types **********************************************************/ typedef struct wan_stat_entry { struct wan_stat_entry *next; char *description; /* description string */ void *data; /* -> data */ unsigned data_type; /* data type */ } wan_stat_entry_t; /****** Function Prototypes *************************************************/ #ifdef CONFIG_PROC_FS #ifdef LINUX_2_4 /* Start of LINUX 2.4.X code */ /* Proc filesystem interface */ static int router_proc_perms(struct inode *, int); static ssize_t router_proc_read(struct file* file, char* buf, size_t count, loff_t *ppos); /* Methods for preparing data for reading proc entries */ static int config_get_info(char* buf, char** start, off_t offs, int len); static int status_get_info(char* buf, char** start, off_t offs, int len); static int wandev_get_info(char* buf, char** start, off_t offs, int len); /* Miscellaneous */ /* * Structures for interfacing with the /proc filesystem. * Router creates its own directory /proc/net/router with the folowing * entries: * config device configuration * status global device statistics * entry for each WAN device */ /* * Generic /proc/net/router/ file and inode operations */ static struct file_operations router_fops = { read: router_proc_read, }; static struct inode_operations router_inode = { permission: router_proc_perms, }; /* * /proc/net/router/ file operations */ static struct file_operations wandev_fops = { read: router_proc_read, ioctl: wanrouter_ioctl, }; /* * /proc/net/router */ static struct proc_dir_entry *proc_router; /* Strings */ static char conf_hdr[] = "Device name | port |IRQ|DMA| mem.addr |mem.size|" "option1|option2|option3|option4\n"; static char stat_hdr[] = "Device name |protocol|station|interface|clocking|baud rate" "| MTU |ndev|link state\n"; /* * Interface functions */ /* * Initialize router proc interface. */ int __init wanrouter_proc_init (void) { struct proc_dir_entry *p; proc_router = proc_mkdir(ROUTER_NAME, proc_net); if (!proc_router) goto fail; p = create_proc_entry("config",0,proc_router); if (!p) goto fail_config; p->proc_fops = &router_fops; p->proc_iops = &router_inode; p->get_info = config_get_info; p = create_proc_entry("status",0,proc_router); if (!p) goto fail_stat; p->proc_fops = &router_fops; p->proc_iops = &router_inode; p->get_info = status_get_info; return 0; fail_stat: remove_proc_entry("config", proc_router); fail_config: remove_proc_entry(ROUTER_NAME, proc_net); fail: return -ENOMEM; } /* * Clean up router proc interface. */ void wanrouter_proc_cleanup (void) { remove_proc_entry("config", proc_router); remove_proc_entry("status", proc_router); remove_proc_entry(ROUTER_NAME,proc_net); } /* * Add directory entry for WAN device. */ int wanrouter_proc_add (wan_device_t* wandev) { if (wandev->magic != ROUTER_MAGIC) return -EINVAL; wandev->dent = create_proc_entry(wandev->name, 0, proc_router); if (!wandev->dent) return -ENOMEM; wandev->dent->proc_fops = &wandev_fops; wandev->dent->proc_iops = &router_inode; wandev->dent->get_info = wandev_get_info; wandev->dent->data = wandev; return 0; } /* * Delete directory entry for WAN device. */ int wanrouter_proc_delete(wan_device_t* wandev) { if (wandev->magic != ROUTER_MAGIC) return -EINVAL; remove_proc_entry(wandev->name, proc_router); return 0; } /****** Proc filesystem entry points ****************************************/ /* * Verify access rights. */ static int router_proc_perms (struct inode* inode, int op) { return 0; } /* * Read router proc directory entry. * This is universal routine for reading all entries in /proc/net/wanrouter * directory. Each directory entry contains a pointer to the 'method' for * preparing data for that entry. * o verify arguments * o allocate kernel buffer * o call get_info() to prepare data * o copy data to user space * o release kernel buffer * * Return: number of bytes copied to user space (0, if no data) * <0 error */ static ssize_t router_proc_read(struct file* file, char* buf, size_t count, loff_t *ppos) { struct inode *inode = file->f_dentry->d_inode; struct proc_dir_entry* dent; char* page; int pos, len; loff_t n = *ppos; unsigned offs = n; if (count <= 0) return 0; dent = inode->u.generic_ip; if ((dent == NULL) || (dent->get_info == NULL)) return 0; page = kmalloc(PROC_BUFSZ, GFP_KERNEL); if (page == NULL) return -ENOBUFS; pos = dent->get_info(page, dent->data, 0, 0); if (offs == n && offs < pos) { len = min_t(unsigned int, pos - offs, count); if (copy_to_user(buf, (page + offs), len)) { kfree(page); return -EFAULT; } *ppos = offs + len; } else len = 0; kfree(page); return len; } /* * Prepare data for reading 'Config' entry. * Return length of data. */ static int config_get_info(char* buf, char** start, off_t offs, int len) { int cnt = sizeof(conf_hdr) - 1; wan_device_t* wandev; strcpy(buf, conf_hdr); for (wandev = router_devlist; wandev && (cnt < (PROC_BUFSZ - 120)); wandev = wandev->next) { if (wandev->state) cnt += sprintf(&buf[cnt], "%-15s|0x%-4X|%3u|%3u| 0x%-8lX |0x%-6X|%7u|%7u|%7u|%7u\n", wandev->name, wandev->ioport, wandev->irq, wandev->dma, wandev->maddr, wandev->msize, wandev->hw_opt[0], wandev->hw_opt[1], wandev->hw_opt[2], wandev->hw_opt[3]); } return cnt; } /* * Prepare data for reading 'Status' entry. * Return length of data. */ static int status_get_info(char* buf, char** start, off_t offs, int len) { int cnt = 0; wan_device_t* wandev; //cnt += sprintf(&buf[cnt], "\nSTATUS:\n\n"); strcpy(&buf[cnt], stat_hdr); cnt += sizeof(stat_hdr) - 1; for (wandev = router_devlist; wandev && (cnt < (PROC_BUFSZ - 80)); wandev = wandev->next) { if (!wandev->state) continue; cnt += sprintf(&buf[cnt], "%-15s|%-8s|%-7s|%-9s|%-8s|%9u|%5u|%3u |", wandev->name, PROT_DECODE(wandev->config_id), wandev->config_id == WANCONFIG_FR ? (wandev->station ? " Node" : " CPE") : (wandev->config_id == WANCONFIG_X25 ? (wandev->station ? " DCE" : " DTE") : (" N/A")), wandev->interface ? " V.35" : " RS-232", wandev->clocking ? "internal" : "external", wandev->bps, wandev->mtu, wandev->ndev); switch (wandev->state) { case WAN_UNCONFIGURED: cnt += sprintf(&buf[cnt], "%-12s\n", "unconfigured"); break; case WAN_DISCONNECTED: cnt += sprintf(&buf[cnt], "%-12s\n", "disconnected"); break; case WAN_CONNECTING: cnt += sprintf(&buf[cnt], "%-12s\n", "connecting"); break; case WAN_CONNECTED: cnt += sprintf(&buf[cnt], "%-12s\n", "connected"); break; default: cnt += sprintf(&buf[cnt], "%-12s\n", "invalid"); break; } } return cnt; } /* * Prepare data for reading entry. * Return length of data. * * On entry, the 'start' argument will contain a pointer to WAN device * data space. */ static int wandev_get_info(char* buf, char** start, off_t offs, int len) { wan_device_t* wandev = (void*)start; int cnt = 0; int rslt = 0; if ((wandev == NULL) || (wandev->magic != ROUTER_MAGIC)) return 0; if (!wandev->state) return sprintf(&buf[cnt], "device is not configured!\n"); /* Update device statistics */ if (wandev->update) { rslt = wandev->update(wandev); if(rslt) { switch (rslt) { case -EAGAIN: return sprintf(&buf[cnt], "Device is busy!\n"); default: return sprintf(&buf[cnt], "Device is not configured!\n"); } } } cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "total packets received", wandev->stats.rx_packets); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "total packets transmitted", wandev->stats.tx_packets); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "total bytes received", wandev->stats.rx_bytes); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "total bytes transmitted", wandev->stats.tx_bytes); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "bad packets received", wandev->stats.rx_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "packet transmit problems", wandev->stats.tx_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "received frames dropped", wandev->stats.rx_dropped); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "transmit frames dropped", wandev->stats.tx_dropped); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "multicast packets received", wandev->stats.multicast); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "transmit collisions", wandev->stats.collisions); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "receive length errors", wandev->stats.rx_length_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "receiver overrun errors", wandev->stats.rx_over_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "CRC errors", wandev->stats.rx_crc_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "frame format errors (aborts)", wandev->stats.rx_frame_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "receiver fifo overrun", wandev->stats.rx_fifo_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "receiver missed packet", wandev->stats.rx_missed_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "aborted frames transmitted", wandev->stats.tx_aborted_errors); return cnt; } #else /* ------------------- END OF LINUX 2.4.X VERSION -------------*/ /* Proc filesystem interface */ static int router_proc_perms(struct inode *, int); #ifdef LINUX_2_1 static ssize_t router_proc_read(struct file *file, char *buf, size_t count, loff_t *ppos); #else static int router_proc_read( struct inode* inode, struct file* file, char* buf, int count); static int device_write( struct inode* inode, struct file* file, const char* buf, int count); #endif /* Methods for preparing data for reading proc entries */ static int config_get_info(char* buf, char** start, off_t offs, int len, int dummy); static int status_get_info(char* buf, char** start, off_t offs, int len, int dummy); static int wandev_get_info(char* buf, char** start, off_t offs, int len, int dummy); /* Miscellaneous */ /* * Global Data */ /* * Names of the proc directory entries */ static char name_root[] = ROUTER_NAME; static char name_conf[] = "config"; static char name_stat[] = "status"; /* * Structures for interfacing with the /proc filesystem. * Router creates its own directory /proc/net/router with the folowing * entries: * config device configuration * status global device statistics * entry for each WAN device */ /* * Generic /proc/net/router/ file and inode operations */ #ifdef LINUX_2_1 static struct file_operations router_fops = { NULL, /* lseek */ router_proc_read, /* read */ NULL, /* write */ NULL, /* readdir */ NULL, /* select */ NULL, /* ioctl */ NULL, /* mmap */ NULL, /* no special open code */ NULL, /* flush */ NULL, /* no special release code */ NULL /* can't fsync */ }; #else static struct file_operations router_fops = { NULL, /* lseek */ router_proc_read, /* read */ NULL, /* write */ NULL, /* readdir */ NULL, /* select */ NULL, /* ioctl */ NULL, /* mmap */ NULL, /* no special open code */ NULL, /* no special release code */ NULL /* can't fsync */ }; #endif static struct inode_operations router_inode = { &router_fops, NULL, /* create */ NULL, /* lookup */ NULL, /* link */ NULL, /* unlink */ NULL, /* symlink */ NULL, /* mkdir */ NULL, /* rmdir */ NULL, /* mknod */ NULL, /* rename */ NULL, /* follow link */ NULL, /* readlink */ NULL, /* readpage */ NULL, /* writepage */ NULL, /* bmap */ NULL, /* truncate */ router_proc_perms }; /* * /proc/net/router/ file and inode operations */ #ifdef LINUX_2_1 static struct file_operations wandev_fops = { NULL, /* lseek */ router_proc_read, /* read */ NULL, /* write */ NULL, /* readdir */ NULL, /* select */ wanrouter_ioctl, /* ioctl */ NULL, /* mmap */ NULL, /* no special open code */ NULL, /* flush */ NULL, /* no special release code */ NULL /* can't fsync */ }; #else static struct file_operations wandev_fops = { NULL, /* lseek */ router_proc_read, /* read */ device_write, /* write */ NULL, /* readdir */ NULL, /* select */ wanrouter_ioctl, /* ioctl */ NULL, /* mmap */ NULL, /* no special open code */ NULL, /* no special release code */ NULL /* can't fsync */ }; #endif static struct inode_operations wandev_inode = { &wandev_fops, NULL, /* create */ NULL, /* lookup */ NULL, /* link */ NULL, /* unlink */ NULL, /* symlink */ NULL, /* mkdir */ NULL, /* rmdir */ NULL, /* mknod */ NULL, /* rename */ NULL, /* readlink */ NULL, /* follow_link */ NULL, /* readpage */ NULL, /* writepage */ NULL, /* bmap */ NULL, /* truncate */ router_proc_perms }; /* * Proc filesystem derectory entries. */ /* * /proc/net/router */ static struct proc_dir_entry proc_router = { 0, /* .low_ino */ sizeof(name_root) - 1, /* .namelen */ name_root, /* .name */ 0555 | S_IFDIR, /* .mode */ 2, /* .nlink */ 0, /* .uid */ 0, /* .gid */ 0, /* .size */ &proc_dir_inode_operations, /* .ops */ NULL, /* .get_info */ NULL, /* .fill_node */ NULL, /* .next */ NULL, /* .parent */ NULL, /* .subdir */ NULL, /* .data */ }; /* * /proc/net/router/config */ static struct proc_dir_entry proc_router_conf = { 0, /* .low_ino */ sizeof(name_conf) - 1, /* .namelen */ name_conf, /* .name */ 0444 | S_IFREG, /* .mode */ 1, /* .nlink */ 0, /* .uid */ 0, /* .gid */ 0, /* .size */ &router_inode, /* .ops */ &config_get_info, /* .get_info */ NULL, /* .fill_node */ NULL, /* .next */ NULL, /* .parent */ NULL, /* .subdir */ NULL, /* .data */ }; /* * /proc/net/router/status */ static struct proc_dir_entry proc_router_stat = { 0, /* .low_ino */ sizeof(name_stat) - 1, /* .namelen */ name_stat, /* .name */ 0444 | S_IFREG, /* .mode */ 1, /* .nlink */ 0, /* .uid */ 0, /* .gid */ 0, /* .size */ &router_inode, /* .ops */ status_get_info, /* .get_info */ NULL, /* .fill_node */ NULL, /* .next */ NULL, /* .parent */ NULL, /* .subdir */ NULL, /* .data */ }; /* Strings */ static char conf_hdr[] = "Device name | port |IRQ|DMA| mem.addr |mem.size|" "option1|option2|option3|option4\n"; static char stat_hdr[] = "Device name |protocol|station|interface|clocking|baud rate| MTU |ndev" "|link state\n"; /* * Interface functions */ /* * Initialize router proc interface. */ #ifdef LINUX_2_1 __initfunc(int wanrouter_proc_init (void)) { int err = proc_register(proc_net, &proc_router); if (!err) { proc_register(&proc_router, &proc_router_conf); proc_register(&proc_router, &proc_router_stat); } return err; } #else int wanrouter_proc_init (void) { int err = proc_register_dynamic(&proc_net, &proc_router); if (!err) { proc_register_dynamic(&proc_router, &proc_router_conf); proc_register_dynamic(&proc_router, &proc_router_stat); } return err; } #endif /* * Clean up router proc interface. */ void wanrouter_proc_cleanup (void) { proc_unregister(&proc_router, proc_router_conf.low_ino); proc_unregister(&proc_router, proc_router_stat.low_ino); #ifdef LINUX_2_1 proc_unregister(proc_net, proc_router.low_ino); #else proc_unregister(&proc_net, proc_router.low_ino); #endif } /* * Add directory entry for WAN device. */ int wanrouter_proc_add (wan_device_t* wandev) { if (wandev->magic != ROUTER_MAGIC) return -EINVAL; memset(&wandev->dent, 0, sizeof(wandev->dent)); wandev->dent.namelen = strlen(wandev->name); wandev->dent.name = wandev->name; wandev->dent.mode = 0444 | S_IFREG; wandev->dent.nlink = 1; wandev->dent.ops = &wandev_inode; wandev->dent.get_info = &wandev_get_info; wandev->dent.data = wandev; #ifdef LINUX_2_1 return proc_register(&proc_router, &wandev->dent); #else return proc_register_dynamic(&proc_router, &wandev->dent); #endif } /* * Delete directory entry for WAN device. */ int wanrouter_proc_delete(wan_device_t* wandev) { if (wandev->magic != ROUTER_MAGIC) return -EINVAL; proc_unregister(&proc_router, wandev->dent.low_ino); return 0; } /****** Proc filesystem entry points ****************************************/ /* * Verify access rights. */ static int router_proc_perms (struct inode* inode, int op) { return 0; } /* * Read router proc directory entry. * This is universal routine for reading all entries in /proc/net/wanrouter * directory. Each directory entry contains a pointer to the 'method' for * preparing data for that entry. * o verify arguments * o allocate kernel buffer * o call get_info() to prepare data * o copy data to user space * o release kernel buffer * * Return: number of bytes copied to user space (0, if no data) * <0 error */ #ifdef LINUX_2_1 static ssize_t router_proc_read(struct file* file, char* buf, size_t count, loff_t *ppos) { struct inode *inode = file->f_dentry->d_inode; struct proc_dir_entry* dent; char* page; int pos, offs, len; if (count <= 0) return 0; dent = inode->u.generic_ip; if ((dent == NULL) || (dent->get_info == NULL)) return 0; page = kmalloc(PROC_BUFSZ, GFP_KERNEL); if (page == NULL) return -ENOBUFS; pos = dent->get_info(page, dent->data, 0, 0, 0); offs = file->f_pos; if (offs < pos) { len = min_t(unsigned int, pos - offs, count); if (copy_to_user(buf, (page + offs), len)) { kfree(page); return -EFAULT; } file->f_pos += len; } else len = 0; kfree(page); return len; } #else static int router_proc_read( struct inode* inode, struct file* file, char* buf, int count) { struct proc_dir_entry* dent; char* page; int err, pos, offs, len; if (count <= 0) return 0; dent = inode->u.generic_ip; if ((dent == NULL) || (dent->get_info == NULL)) return -ENODATA; err = verify_area(VERIFY_WRITE, buf, count); if (err) return err; page = kmalloc(PROC_BUFSZ, GFP_KERNEL); if (page == NULL) return -ENOMEM; pos = dent->get_info(page, dent->data, 0, 0, 0); offs = file->f_pos; if (offs < pos) { len = min_t(unsigned int, pos - offs, count); memcpy_tofs((void*)buf, (void*)(page + offs), len); file->f_pos += len; } else len = 0; kfree(page); return len; } #endif /* * Prepare data for reading 'Config' entry. * Return length of data. */ static int config_get_info(char* buf, char** start, off_t offs, int len, int dummy) { int cnt = sizeof(conf_hdr) - 1; wan_device_t* wandev; strcpy(buf, conf_hdr); for (wandev = router_devlist; wandev && (cnt < (PROC_BUFSZ - 120)); wandev = wandev->next) { if (wandev->state) cnt += sprintf(&buf[cnt], "%-15s|0x%-4X|%3u|%3u| 0x%-8lX |0x%-6X|%7u|%7u|%7u|%7u\n", wandev->name, wandev->ioport, wandev->irq, wandev->dma, wandev->maddr, wandev->msize, wandev->hw_opt[0], wandev->hw_opt[1], wandev->hw_opt[2], wandev->hw_opt[3]); } return cnt; } /* * Prepare data for reading 'Status' entry. * Return length of data. */ static int status_get_info(char* buf, char** start, off_t offs, int len, int dummy) { int cnt = 0; wan_device_t* wandev; //cnt += sprintf(&buf[cnt], "\nSTATUS:\n\n"); strcpy(&buf[cnt], stat_hdr); cnt += sizeof(stat_hdr) - 1; for (wandev = router_devlist; wandev && (cnt < (PROC_BUFSZ - 80)); wandev = wandev->next) { if (!wandev->state) continue; cnt += sprintf(&buf[cnt], "%-15s|%-8s|%-7s|%-9s|%-8s|%9u|%5u|%3u |", wandev->name, PROT_DECODE(wandev->config_id), wandev->config_id == WANCONFIG_FR ? (wandev->station ? " Node" : " CPE") : (wandev->config_id == WANCONFIG_X25 ? (wandev->station ? " DCE" : " DTE") : (" N/A")), wandev->interface ? " V.35" : " RS-232", wandev->clocking ? "internal" : "external", wandev->bps, wandev->mtu, wandev->ndev); switch (wandev->state) { case WAN_UNCONFIGURED: cnt += sprintf(&buf[cnt], "%-12s\n", "unconfigured"); break; case WAN_DISCONNECTED: cnt += sprintf(&buf[cnt], "%-12s\n", "disconnected"); break; case WAN_CONNECTING: cnt += sprintf(&buf[cnt], "%-12s\n", "connecting"); break; case WAN_CONNECTED: cnt += sprintf(&buf[cnt], "%-12s\n", "connected"); break; case WAN_FT1_READY: cnt += sprintf(&buf[cnt], "%-12s\n", "ft1 ready"); break; default: cnt += sprintf(&buf[cnt], "%-12s\n", "invalid"); break; } } return cnt; } /* * Prepare data for reading entry. * Return length of data. * * On entry, the 'start' argument will contain a pointer to WAN device * data space. */ static int wandev_get_info(char* buf, char** start, off_t offs, int len, int dummy) { wan_device_t* wandev = (void*)start; int cnt = 0; int rslt = 0; if ((wandev == NULL) || (wandev->magic != ROUTER_MAGIC)) return 0; if (!wandev->state) return sprintf(&buf[cnt], "Device is not configured!\n"); /* Update device statistics */ if (wandev->update) { rslt = wandev->update(wandev); if(rslt) { switch (rslt) { case -EAGAIN: return sprintf(&buf[cnt], "Device is busy!\n"); default: return sprintf(&buf[cnt], "Device is not configured!\n"); } } } cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "total packets received", wandev->stats.rx_packets); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "total packets transmitted", wandev->stats.tx_packets); #ifdef LINUX_2_1 cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "total bytes received", wandev->stats.rx_bytes); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "total bytes transmitted", wandev->stats.tx_bytes); #endif cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "bad packets received", wandev->stats.rx_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "packet transmit problems", wandev->stats.tx_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "received frames dropped", wandev->stats.rx_dropped); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "transmit frames dropped", wandev->stats.tx_dropped); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "multicast packets received", wandev->stats.multicast); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "transmit collisions", wandev->stats.collisions); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "receive length errors", wandev->stats.rx_length_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "receiver overrun errors", wandev->stats.rx_over_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "CRC errors", wandev->stats.rx_crc_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "frame format errors (aborts)", wandev->stats.rx_frame_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "receiver fifo overrun", wandev->stats.rx_fifo_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "receiver missed packet", wandev->stats.rx_missed_errors); cnt += sprintf(&buf[cnt], PROC_STATS_FORMAT, "aborted frames transmitted", wandev->stats.tx_aborted_errors); return cnt; } #endif /* End of ifdef LINUX_2_4 */ #else /* * No /proc - output stubs */ int __init wanrouter_proc_init(void) { return 0; } void wanrouter_proc_cleanup(void) { return; } int wanrouter_proc_add(wan_device_t *wandev) { return 0; } int wanrouter_proc_delete(wan_device_t *wandev) { return 0; } #endif /*============================================================================ * Write WAN device ???. * o Find WAN device associated with this node */ #ifdef LINUX_2_0 static int device_write( struct inode* inode, struct file* file, const char* buf, int count) { int err = verify_area(VERIFY_READ, buf, count); struct proc_dir_entry* dent; wan_device_t* wandev; if (err) return err; dent = inode->u.generic_ip; if ((dent == NULL) || (dent->data == NULL)) return -ENODATA; wandev = dent->data; printk(KERN_ERR "%s: writing %d bytes to %s...\n", name_root, count, dent->name); return 0; } #endif /* * End */