diff options
Diffstat (limited to 'drivers/net/wireless')
-rw-r--r-- | drivers/net/wireless/Kconfig | 23 | ||||
-rw-r--r-- | drivers/net/wireless/Makefile | 1 | ||||
-rw-r--r-- | drivers/net/wireless/strip.c | 2805 |
3 files changed, 0 insertions, 2829 deletions
diff --git a/drivers/net/wireless/Kconfig b/drivers/net/wireless/Kconfig index 85f8bf4112c1..5df47486e358 100644 --- a/drivers/net/wireless/Kconfig +++ b/drivers/net/wireless/Kconfig @@ -25,29 +25,6 @@ menuconfig WLAN_PRE80211 This option does not affect the kernel build, it only lets you choose drivers. -config STRIP - tristate "STRIP (Metricom starmode radio IP)" - depends on INET && WLAN_PRE80211 - select WIRELESS_EXT - ---help--- - Say Y if you have a Metricom radio and intend to use Starmode Radio - IP. STRIP is a radio protocol developed for the MosquitoNet project - to send Internet traffic using Metricom radios. Metricom radios are - small, battery powered, 100kbit/sec packet radio transceivers, about - the size and weight of a cellular telephone. (You may also have heard - them called "Metricom modems" but we avoid the term "modem" because - it misleads many people into thinking that you can plug a Metricom - modem into a phone line and use it as a modem.) - - You can use STRIP on any Linux machine with a serial port, although - it is obviously most useful for people with laptop computers. If you - think you might get a Metricom radio in the future, there is no harm - in saying Y to STRIP now, except that it makes the kernel a bit - bigger. - - To compile this as a module, choose M here: the module will be - called strip. - config ARLAN tristate "Aironet Arlan 655 & IC2200 DS support" depends on ISA && !64BIT && WLAN_PRE80211 diff --git a/drivers/net/wireless/Makefile b/drivers/net/wireless/Makefile index 7a4647e78fd3..527c272aa1af 100644 --- a/drivers/net/wireless/Makefile +++ b/drivers/net/wireless/Makefile @@ -5,7 +5,6 @@ obj-$(CONFIG_IPW2100) += ipw2x00/ obj-$(CONFIG_IPW2200) += ipw2x00/ -obj-$(CONFIG_STRIP) += strip.o obj-$(CONFIG_ARLAN) += arlan.o arlan-objs := arlan-main.o arlan-proc.o diff --git a/drivers/net/wireless/strip.c b/drivers/net/wireless/strip.c deleted file mode 100644 index ea6a87c19319..000000000000 --- a/drivers/net/wireless/strip.c +++ /dev/null @@ -1,2805 +0,0 @@ -/* - * Copyright 1996 The Board of Trustees of The Leland Stanford - * Junior University. All Rights Reserved. - * - * Permission to use, copy, modify, and distribute this - * software and its documentation for any purpose and without - * fee is hereby granted, provided that the above copyright - * notice appear in all copies. Stanford University - * makes no representations about the suitability of this - * software for any purpose. It is provided "as is" without - * express or implied warranty. - * - * strip.c This module implements Starmode Radio IP (STRIP) - * for kernel-based devices like TTY. It interfaces between a - * raw TTY, and the kernel's INET protocol layers (via DDI). - * - * Version: @(#)strip.c 1.3 July 1997 - * - * Author: Stuart Cheshire <cheshire@cs.stanford.edu> - * - * Fixes: v0.9 12th Feb 1996 (SC) - * New byte stuffing (2+6 run-length encoding) - * New watchdog timer task - * New Protocol key (SIP0) - * - * v0.9.1 3rd March 1996 (SC) - * Changed to dynamic device allocation -- no more compile - * time (or boot time) limit on the number of STRIP devices. - * - * v0.9.2 13th March 1996 (SC) - * Uses arp cache lookups (but doesn't send arp packets yet) - * - * v0.9.3 17th April 1996 (SC) - * Fixed bug where STR_ERROR flag was getting set unneccessarily - * (causing otherwise good packets to be unneccessarily dropped) - * - * v0.9.4 27th April 1996 (SC) - * First attempt at using "&COMMAND" Starmode AT commands - * - * v0.9.5 29th May 1996 (SC) - * First attempt at sending (unicast) ARP packets - * - * v0.9.6 5th June 1996 (Elliot) - * Put "message level" tags in every "printk" statement - * - * v0.9.7 13th June 1996 (laik) - * Added support for the /proc fs - * - * v0.9.8 July 1996 (Mema) - * Added packet logging - * - * v1.0 November 1996 (SC) - * Fixed (severe) memory leaks in the /proc fs code - * Fixed race conditions in the logging code - * - * v1.1 January 1997 (SC) - * Deleted packet logging (use tcpdump instead) - * Added support for Metricom Firmware v204 features - * (like message checksums) - * - * v1.2 January 1997 (SC) - * Put portables list back in - * - * v1.3 July 1997 (SC) - * Made STRIP driver set the radio's baud rate automatically. - * It is no longer necessarily to manually set the radio's - * rate permanently to 115200 -- the driver handles setting - * the rate automatically. - */ - -#ifdef MODULE -static const char StripVersion[] = "1.3A-STUART.CHESHIRE-MODULAR"; -#else -static const char StripVersion[] = "1.3A-STUART.CHESHIRE"; -#endif - -#define TICKLE_TIMERS 0 -#define EXT_COUNTERS 1 - - -/************************************************************************/ -/* Header files */ - -#include <linux/kernel.h> -#include <linux/module.h> -#include <linux/init.h> -#include <linux/bitops.h> -#include <asm/system.h> -#include <asm/uaccess.h> - -# include <linux/ctype.h> -#include <linux/string.h> -#include <linux/mm.h> -#include <linux/interrupt.h> -#include <linux/in.h> -#include <linux/tty.h> -#include <linux/errno.h> -#include <linux/netdevice.h> -#include <linux/inetdevice.h> -#include <linux/etherdevice.h> -#include <linux/skbuff.h> -#include <linux/if_arp.h> -#include <linux/if_strip.h> -#include <linux/proc_fs.h> -#include <linux/seq_file.h> -#include <linux/serial.h> -#include <linux/serialP.h> -#include <linux/rcupdate.h> -#include <net/arp.h> -#include <net/net_namespace.h> - -#include <linux/ip.h> -#include <linux/tcp.h> -#include <linux/time.h> -#include <linux/jiffies.h> - -/************************************************************************/ -/* Useful structures and definitions */ - -/* - * A MetricomKey identifies the protocol being carried inside a Metricom - * Starmode packet. - */ - -typedef union { - __u8 c[4]; - __u32 l; -} MetricomKey; - -/* - * An IP address can be viewed as four bytes in memory (which is what it is) or as - * a single 32-bit long (which is convenient for assignment, equality testing etc.) - */ - -typedef union { - __u8 b[4]; - __u32 l; -} IPaddr; - -/* - * A MetricomAddressString is used to hold a printable representation of - * a Metricom address. - */ - -typedef struct { - __u8 c[24]; -} MetricomAddressString; - -/* Encapsulation can expand packet of size x to 65/64x + 1 - * Sent packet looks like "<CR>*<address>*<key><encaps payload><CR>" - * 1 1 1-18 1 4 ? 1 - * eg. <CR>*0000-1234*SIP0<encaps payload><CR> - * We allow 31 bytes for the stars, the key, the address and the <CR>s - */ -#define STRIP_ENCAP_SIZE(X) (32 + (X)*65L/64L) - -/* - * A STRIP_Header is never really sent over the radio, but making a dummy - * header for internal use within the kernel that looks like an Ethernet - * header makes certain other software happier. For example, tcpdump - * already understands Ethernet headers. - */ - -typedef struct { - MetricomAddress dst_addr; /* Destination address, e.g. "0000-1234" */ - MetricomAddress src_addr; /* Source address, e.g. "0000-5678" */ - unsigned short protocol; /* The protocol type, using Ethernet codes */ -} STRIP_Header; - -typedef struct { - char c[60]; -} MetricomNode; - -#define NODE_TABLE_SIZE 32 -typedef struct { - struct timeval timestamp; - int num_nodes; - MetricomNode node[NODE_TABLE_SIZE]; -} MetricomNodeTable; - -enum { FALSE = 0, TRUE = 1 }; - -/* - * Holds the radio's firmware version. - */ -typedef struct { - char c[50]; -} FirmwareVersion; - -/* - * Holds the radio's serial number. - */ -typedef struct { - char c[18]; -} SerialNumber; - -/* - * Holds the radio's battery voltage. - */ -typedef struct { - char c[11]; -} BatteryVoltage; - -typedef struct { - char c[8]; -} char8; - -enum { - NoStructure = 0, /* Really old firmware */ - StructuredMessages = 1, /* Parsable AT response msgs */ - ChecksummedMessages = 2 /* Parsable AT response msgs with checksums */ -}; - -struct strip { - int magic; - /* - * These are pointers to the malloc()ed frame buffers. - */ - - unsigned char *rx_buff; /* buffer for received IP packet */ - unsigned char *sx_buff; /* buffer for received serial data */ - int sx_count; /* received serial data counter */ - int sx_size; /* Serial buffer size */ - unsigned char *tx_buff; /* transmitter buffer */ - unsigned char *tx_head; /* pointer to next byte to XMIT */ - int tx_left; /* bytes left in XMIT queue */ - int tx_size; /* Serial buffer size */ - - /* - * STRIP interface statistics. - */ - - unsigned long rx_packets; /* inbound frames counter */ - unsigned long tx_packets; /* outbound frames counter */ - unsigned long rx_errors; /* Parity, etc. errors */ - unsigned long tx_errors; /* Planned stuff */ - unsigned long rx_dropped; /* No memory for skb */ - unsigned long tx_dropped; /* When MTU change */ - unsigned long rx_over_errors; /* Frame bigger than STRIP buf. */ - - unsigned long pps_timer; /* Timer to determine pps */ - unsigned long rx_pps_count; /* Counter to determine pps */ - unsigned long tx_pps_count; /* Counter to determine pps */ - unsigned long sx_pps_count; /* Counter to determine pps */ - unsigned long rx_average_pps; /* rx packets per second * 8 */ - unsigned long tx_average_pps; /* tx packets per second * 8 */ - unsigned long sx_average_pps; /* sent packets per second * 8 */ - -#ifdef EXT_COUNTERS - unsigned long rx_bytes; /* total received bytes */ - unsigned long tx_bytes; /* total received bytes */ - unsigned long rx_rbytes; /* bytes thru radio i/f */ - unsigned long tx_rbytes; /* bytes thru radio i/f */ - unsigned long rx_sbytes; /* tot bytes thru serial i/f */ - unsigned long tx_sbytes; /* tot bytes thru serial i/f */ - unsigned long rx_ebytes; /* tot stat/err bytes */ - unsigned long tx_ebytes; /* tot stat/err bytes */ -#endif - - /* - * Internal variables. - */ - - struct list_head list; /* Linked list of devices */ - - int discard; /* Set if serial error */ - int working; /* Is radio working correctly? */ - int firmware_level; /* Message structuring level */ - int next_command; /* Next periodic command */ - unsigned int user_baud; /* The user-selected baud rate */ - int mtu; /* Our mtu (to spot changes!) */ - long watchdog_doprobe; /* Next time to test the radio */ - long watchdog_doreset; /* Time to do next reset */ - long gratuitous_arp; /* Time to send next ARP refresh */ - long arp_interval; /* Next ARP interval */ - struct timer_list idle_timer; /* For periodic wakeup calls */ - MetricomAddress true_dev_addr; /* True address of radio */ - int manual_dev_addr; /* Hack: See note below */ - - FirmwareVersion firmware_version; /* The radio's firmware version */ - SerialNumber serial_number; /* The radio's serial number */ - BatteryVoltage battery_voltage; /* The radio's battery voltage */ - - /* - * Other useful structures. - */ - - struct tty_struct *tty; /* ptr to TTY structure */ - struct net_device *dev; /* Our device structure */ - - /* - * Neighbour radio records - */ - - MetricomNodeTable portables; - MetricomNodeTable poletops; -}; - -/* - * Note: manual_dev_addr hack - * - * It is not possible to change the hardware address of a Metricom radio, - * or to send packets with a user-specified hardware source address, thus - * trying to manually set a hardware source address is a questionable - * thing to do. However, if the user *does* manually set the hardware - * source address of a STRIP interface, then the kernel will believe it, - * and use it in certain places. For example, the hardware address listed - * by ifconfig will be the manual address, not the true one. - * (Both addresses are listed in /proc/net/strip.) - * Also, ARP packets will be sent out giving the user-specified address as - * the source address, not the real address. This is dangerous, because - * it means you won't receive any replies -- the ARP replies will go to - * the specified address, which will be some other radio. The case where - * this is useful is when that other radio is also connected to the same - * machine. This allows you to connect a pair of radios to one machine, - * and to use one exclusively for inbound traffic, and the other - * exclusively for outbound traffic. Pretty neat, huh? - * - * Here's the full procedure to set this up: - * - * 1. "slattach" two interfaces, e.g. st0 for outgoing packets, - * and st1 for incoming packets - * - * 2. "ifconfig" st0 (outbound radio) to have the hardware address - * which is the real hardware address of st1 (inbound radio). - * Now when it sends out packets, it will masquerade as st1, and - * replies will be sent to that radio, which is exactly what we want. - * - * 3. Set the route table entry ("route add default ..." or - * "route add -net ...", as appropriate) to send packets via the st0 - * interface (outbound radio). Do not add any route which sends packets - * out via the st1 interface -- that radio is for inbound traffic only. - * - * 4. "ifconfig" st1 (inbound radio) to have hardware address zero. - * This tells the STRIP driver to "shut down" that interface and not - * send any packets through it. In particular, it stops sending the - * periodic gratuitous ARP packets that a STRIP interface normally sends. - * Also, when packets arrive on that interface, it will search the - * interface list to see if there is another interface who's manual - * hardware address matches its own real address (i.e. st0 in this - * example) and if so it will transfer ownership of the skbuff to - * that interface, so that it looks to the kernel as if the packet - * arrived on that interface. This is necessary because when the - * kernel sends an ARP packet on st0, it expects to get a reply on - * st0, and if it sees the reply come from st1 then it will ignore - * it (to be accurate, it puts the entry in the ARP table, but - * labelled in such a way that st0 can't use it). - * - * Thanks to Petros Maniatis for coming up with the idea of splitting - * inbound and outbound traffic between two interfaces, which turned - * out to be really easy to implement, even if it is a bit of a hack. - * - * Having set a manual address on an interface, you can restore it - * to automatic operation (where the address is automatically kept - * consistent with the real address of the radio) by setting a manual - * address of all ones, e.g. "ifconfig st0 hw strip FFFFFFFFFFFF" - * This 'turns off' manual override mode for the device address. - * - * Note: The IEEE 802 headers reported in tcpdump will show the *real* - * radio addresses the packets were sent and received from, so that you - * can see what is really going on with packets, and which interfaces - * they are really going through. - */ - - -/************************************************************************/ -/* Constants */ - -/* - * CommandString1 works on all radios - * Other CommandStrings are only used with firmware that provides structured responses. - * - * ats319=1 Enables Info message for node additions and deletions - * ats319=2 Enables Info message for a new best node - * ats319=4 Enables checksums - * ats319=8 Enables ACK messages - */ - -static const int MaxCommandStringLength = 32; -static const int CompatibilityCommand = 1; - -static const char CommandString0[] = "*&COMMAND*ATS319=7"; /* Turn on checksums & info messages */ -static const char CommandString1[] = "*&COMMAND*ATS305?"; /* Query radio name */ -static const char CommandString2[] = "*&COMMAND*ATS325?"; /* Query battery voltage */ -static const char CommandString3[] = "*&COMMAND*ATS300?"; /* Query version information */ -static const char CommandString4[] = "*&COMMAND*ATS311?"; /* Query poletop list */ -static const char CommandString5[] = "*&COMMAND*AT~LA"; /* Query portables list */ -typedef struct { - const char *string; - long length; -} StringDescriptor; - -static const StringDescriptor CommandString[] = { - {CommandString0, sizeof(CommandString0) - 1}, - {CommandString1, sizeof(CommandString1) - 1}, - {CommandString2, sizeof(CommandString2) - 1}, - {CommandString3, sizeof(CommandString3) - 1}, - {CommandString4, sizeof(CommandString4) - 1}, - {CommandString5, sizeof(CommandString5) - 1} -}; - -#define GOT_ALL_RADIO_INFO(S) \ - ((S)->firmware_version.c[0] && \ - (S)->battery_voltage.c[0] && \ - memcmp(&(S)->true_dev_addr, zero_address.c, sizeof(zero_address))) - -static const char hextable[16] = "0123456789ABCDEF"; - -static const MetricomAddress zero_address; -static const MetricomAddress broadcast_address = - { {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF} }; - -static const MetricomKey SIP0Key = { "SIP0" }; -static const MetricomKey ARP0Key = { "ARP0" }; -static const MetricomKey ATR_Key = { "ATR " }; -static const MetricomKey ACK_Key = { "ACK_" }; -static const MetricomKey INF_Key = { "INF_" }; -static const MetricomKey ERR_Key = { "ERR_" }; - -static const long MaxARPInterval = 60 * HZ; /* One minute */ - -/* - * Maximum Starmode packet length is 1183 bytes. Allowing 4 bytes for - * protocol key, 4 bytes for checksum, one byte for CR, and 65/64 expansion - * for STRIP encoding, that translates to a maximum payload MTU of 1155. - * Note: A standard NFS 1K data packet is a total of 0x480 (1152) bytes - * long, including IP header, UDP header, and NFS header. Setting the STRIP - * MTU to 1152 allows us to send default sized NFS packets without fragmentation. - */ -static const unsigned short MAX_SEND_MTU = 1152; -static const unsigned short MAX_RECV_MTU = 1500; /* Hoping for Ethernet sized packets in the future! */ -static const unsigned short DEFAULT_STRIP_MTU = 1152; -static const int STRIP_MAGIC = 0x5303; -static const long LongTime = 0x7FFFFFFF; - -/************************************************************************/ -/* Global variables */ - -static LIST_HEAD(strip_list); -static DEFINE_SPINLOCK(strip_lock); - -/************************************************************************/ -/* Macros */ - -/* Returns TRUE if text T begins with prefix P */ -#define has_prefix(T,L,P) (((L) >= sizeof(P)-1) && !strncmp((T), (P), sizeof(P)-1)) - -/* Returns TRUE if text T of length L is equal to string S */ -#define text_equal(T,L,S) (((L) == sizeof(S)-1) && !strncmp((T), (S), sizeof(S)-1)) - -#define READHEX(X) ((X)>='0' && (X)<='9' ? (X)-'0' : \ - (X)>='a' && (X)<='f' ? (X)-'a'+10 : \ - (X)>='A' && (X)<='F' ? (X)-'A'+10 : 0 ) - -#define READHEX16(X) ((__u16)(READHEX(X))) - -#define READDEC(X) ((X)>='0' && (X)<='9' ? (X)-'0' : 0) - -#define ARRAY_END(X) (&((X)[ARRAY_SIZE(X)])) - -#define JIFFIE_TO_SEC(X) ((X) / HZ) - - -/************************************************************************/ -/* Utility routines */ - -static int arp_query(unsigned char *haddr, u32 paddr, - struct net_device *dev) -{ - struct neighbour *neighbor_entry; - int ret = 0; - - neighbor_entry = neigh_lookup(&arp_tbl, &paddr, dev); - - if (neighbor_entry != NULL) { - neighbor_entry->used = jiffies; - if (neighbor_entry->nud_state & NUD_VALID) { - memcpy(haddr, neighbor_entry->ha, dev->addr_len); - ret = 1; - } - neigh_release(neighbor_entry); - } - return ret; -} - -static void DumpData(char *msg, struct strip *strip_info, __u8 * ptr, - __u8 * end) -{ - static const int MAX_DumpData = 80; - __u8 pkt_text[MAX_DumpData], *p = pkt_text; - - *p++ = '\"'; - - while (ptr < end && p < &pkt_text[MAX_DumpData - 4]) { - if (*ptr == '\\') { - *p++ = '\\'; - *p++ = '\\'; - } else { - if (*ptr >= 32 && *ptr <= 126) { - *p++ = *ptr; - } else { - sprintf(p, "\\%02X", *ptr); - p += 3; - } - } - ptr++; - } - - if (ptr == end) - *p++ = '\"'; - *p++ = 0; - - printk(KERN_INFO "%s: %-13s%s\n", strip_info->dev->name, msg, pkt_text); -} - - -/************************************************************************/ -/* Byte stuffing/unstuffing routines */ - -/* Stuffing scheme: - * 00 Unused (reserved character) - * 01-3F Run of 2-64 different characters - * 40-7F Run of 1-64 different characters plus a single zero at the end - * 80-BF Run of 1-64 of the same character - * C0-FF Run of 1-64 zeroes (ASCII 0) - */ - -typedef enum { - Stuff_Diff = 0x00, - Stuff_DiffZero = 0x40, - Stuff_Same = 0x80, - Stuff_Zero = 0xC0, - Stuff_NoCode = 0xFF, /* Special code, meaning no code selected */ - - Stuff_CodeMask = 0xC0, - Stuff_CountMask = 0x3F, - Stuff_MaxCount = 0x3F, - Stuff_Magic = 0x0D /* The value we are eliminating */ -} StuffingCode; - -/* StuffData encodes the data starting at "src" for "length" bytes. - * It writes it to the buffer pointed to by "dst" (which must be at least - * as long as 1 + 65/64 of the input length). The output may be up to 1.6% - * larger than the input for pathological input, but will usually be smaller. - * StuffData returns the new value of the dst pointer as its result. - * "code_ptr_ptr" points to a "__u8 *" which is used to hold encoding state - * between calls, allowing an encoded packet to be incrementally built up - * from small parts. On the first call, the "__u8 *" pointed to should be - * initialized to NULL; between subsequent calls the calling routine should - * leave the value alone and simply pass it back unchanged so that the - * encoder can recover its current state. - */ - -#define StuffData_FinishBlock(X) \ -(*code_ptr = (X) ^ Stuff_Magic, code = Stuff_NoCode) - -static __u8 *StuffData(__u8 * src, __u32 length, __u8 * dst, - __u8 ** code_ptr_ptr) -{ - __u8 *end = src + length; - __u8 *code_ptr = *code_ptr_ptr; - __u8 code = Stuff_NoCode, count = 0; - - if (!length) - return (dst); - - if (code_ptr) { - /* - * Recover state from last call, if applicable - */ - code = (*code_ptr ^ Stuff_Magic) & Stuff_CodeMask; - count = (*code_ptr ^ Stuff_Magic) & Stuff_CountMask; - } - - while (src < end) { - switch (code) { - /* Stuff_NoCode: If no current code, select one */ - case Stuff_NoCode: - /* Record where we're going to put this code */ - code_ptr = dst++; - count = 0; /* Reset the count (zero means one instance) */ - /* Tentatively start a new block */ - if (*src == 0) { - code = Stuff_Zero; - src++; - } else { - code = Stuff_Same; - *dst++ = *src++ ^ Stuff_Magic; - } - /* Note: We optimistically assume run of same -- */ - /* which will be fixed later in Stuff_Same */ - /* if it turns out not to be true. */ - break; - - /* Stuff_Zero: We already have at least one zero encoded */ - case Stuff_Zero: - /* If another zero, count it, else finish this code block */ - if (*src == 0) { - count++; - src++; - } else { - StuffData_FinishBlock(Stuff_Zero + count); - } - break; - - /* Stuff_Same: We already have at least one byte encoded */ - case Stuff_Same: - /* If another one the same, count it */ - if ((*src ^ Stuff_Magic) == code_ptr[1]) { - count++; - src++; - break; - } - /* else, this byte does not match this block. */ - /* If we already have two or more bytes encoded, finish this code block */ - if (count) { - StuffData_FinishBlock(Stuff_Same + count); - break; - } - /* else, we only have one so far, so switch to Stuff_Diff code */ - code = Stuff_Diff; - /* and fall through to Stuff_Diff case below - * Note cunning cleverness here: case Stuff_Diff compares - * the current character with the previous two to see if it - * has a run of three the same. Won't this be an error if - * there aren't two previous characters stored to compare with? - * No. Because we know the current character is *not* the same - * as the previous one, the first test below will necessarily - * fail and the send half of the "if" won't be executed. - */ - - /* Stuff_Diff: We have at least two *different* bytes encoded */ - case Stuff_Diff: - /* If this is a zero, must encode a Stuff_DiffZero, and begin a new block */ - if (*src == 0) { - StuffData_FinishBlock(Stuff_DiffZero + - count); - } - /* else, if we have three in a row, it is worth starting a Stuff_Same block */ - else if ((*src ^ Stuff_Magic) == dst[-1] - && dst[-1] == dst[-2]) { - /* Back off the last two characters we encoded */ - code += count - 2; - /* Note: "Stuff_Diff + 0" is an illegal code */ - if (code == Stuff_Diff + 0) { - code = Stuff_Same + 0; - } - StuffData_FinishBlock(code); - code_ptr = dst - 2; - /* dst[-1] already holds the correct value */ - count = 2; /* 2 means three bytes encoded */ - code = Stuff_Same; - } - /* else, another different byte, so add it to the block */ - else { - *dst++ = *src ^ Stuff_Magic; - count++; - } - src++; /* Consume the byte */ - break; - } - if (count == Stuff_MaxCount) { - StuffData_FinishBlock(code + count); - } - } - if (code == Stuff_NoCode) { - *code_ptr_ptr = NULL; - } else { - *code_ptr_ptr = code_ptr; - StuffData_FinishBlock(code + count); - } - return (dst); -} - -/* - * UnStuffData decodes the data at "src", up to (but not including) "end". - * It writes the decoded data into the buffer pointed to by "dst", up to a - * maximum of "dst_length", and returns the new value of "src" so that a - * follow-on call can read more data, continuing from where the first left off. - * - * There are three types of results: - * 1. The source data runs out before extracting "dst_length" bytes: - * UnStuffData returns NULL to indicate failure. - * 2. The source data produces exactly "dst_length" bytes: - * UnStuffData returns new_src = end to indicate that all bytes were consumed. - * 3. "dst_length" bytes are extracted, with more remaining. - * UnStuffData returns new_src < end to indicate that there are more bytes - * to be read. - * - * Note: The decoding may be destructive, in that it may alter the source - * data in the process of decoding it (this is necessary to allow a follow-on - * call to resume correctly). - */ - -static __u8 *UnStuffData(__u8 * src, __u8 * end, __u8 * dst, - __u32 dst_length) -{ - __u8 *dst_end = dst + dst_length; - /* Sanity check */ - if (!src || !end || !dst || !dst_length) - return (NULL); - while (src < end && dst < dst_end) { - int count = (*src ^ Stuff_Magic) & Stuff_CountMask; - switch ((*src ^ Stuff_Magic) & Stuff_CodeMask) { - case Stuff_Diff: - if (src + 1 + count >= end) - return (NULL); - do { - *dst++ = *++src ^ Stuff_Magic; - } - while (--count >= 0 && dst < dst_end); - if (count < 0) - src += 1; - else { - if (count == 0) - *src = Stuff_Same ^ Stuff_Magic; - else - *src = - (Stuff_Diff + - count) ^ Stuff_Magic; - } - break; - case Stuff_DiffZero: - if (src + 1 + count >= end) - return (NULL); - do { - *dst++ = *++src ^ Stuff_Magic; - } - while (--count >= 0 && dst < dst_end); - if (count < 0) - *src = Stuff_Zero ^ Stuff_Magic; - else - *src = - (Stuff_DiffZero + count) ^ Stuff_Magic; - break; - case Stuff_Same: - if (src + 1 >= end) - return (NULL); - do { - *dst++ = src[1] ^ Stuff_Magic; - } - while (--count >= 0 && dst < dst_end); - if (count < 0) - src += 2; - else - *src = (Stuff_Same + count) ^ Stuff_Magic; - break; - case Stuff_Zero: - do { - *dst++ = 0; - } - while (--count >= 0 && dst < dst_end); - if (count < 0) - src += 1; - else - *src = (Stuff_Zero + count) ^ Stuff_Magic; - break; - } - } - if (dst < dst_end) - return (NULL); - else - return (src); -} - - -/************************************************************************/ -/* General routines for STRIP */ - -/* - * set_baud sets the baud rate to the rate defined by baudcode - */ -static void set_baud(struct tty_struct *tty, speed_t baudrate) -{ - struct ktermios old_termios; - - mutex_lock(&tty->termios_mutex); - old_termios =*(tty->termios); - tty_encode_baud_rate(tty, baudrate, baudrate); - tty->ops->set_termios(tty, &old_termios); - mutex_unlock(&tty->termios_mutex); -} - -/* - * Convert a string to a Metricom Address. - */ - -#define IS_RADIO_ADDRESS(p) ( \ - isdigit((p)[0]) && isdigit((p)[1]) && isdigit((p)[2]) && isdigit((p)[3]) && \ - (p)[4] == '-' && \ - isdigit((p)[5]) && isdigit((p)[6]) && isdigit((p)[7]) && isdigit((p)[8]) ) - -static int string_to_radio_address(MetricomAddress * addr, __u8 * p) -{ - if (!IS_RADIO_ADDRESS(p)) - return (1); - addr->c[0] = 0; - addr->c[1] = 0; - addr->c[2] = READHEX(p[0]) << 4 | READHEX(p[1]); - addr->c[3] = READHEX(p[2]) << 4 | READHEX(p[3]); - addr->c[4] = READHEX(p[5]) << 4 | READHEX(p[6]); - addr->c[5] = READHEX(p[7]) << 4 | READHEX(p[8]); - return (0); -} - -/* - * Convert a Metricom Address to a string. - */ - -static __u8 *radio_address_to_string(const MetricomAddress * addr, - MetricomAddressString * p) -{ - sprintf(p->c, "%02X%02X-%02X%02X", addr->c[2], addr->c[3], - addr->c[4], addr->c[5]); - return (p->c); -} - -/* - * Note: Must make sure sx_size is big enough to receive a stuffed - * MAX_RECV_MTU packet. Additionally, we also want to ensure that it's - * big enough to receive a large radio neighbour list (currently 4K). - */ - -static int allocate_buffers(struct strip *strip_info, int mtu) -{ - struct net_device *dev = strip_info->dev; - int sx_size = max_t(int, STRIP_ENCAP_SIZE(MAX_RECV_MTU), 4096); - int tx_size = STRIP_ENCAP_SIZE(mtu) + MaxCommandStringLength; - __u8 *r = kmalloc(MAX_RECV_MTU, GFP_ATOMIC); - __u8 *s = kmalloc(sx_size, GFP_ATOMIC); - __u8 *t = kmalloc(tx_size, GFP_ATOMIC); - if (r && s && t) { - strip_info->rx_buff = r; - strip_info->sx_buff = s; - strip_info->tx_buff = t; - strip_info->sx_size = sx_size; - strip_info->tx_size = tx_size; - strip_info->mtu = dev->mtu = mtu; - return (1); - } - kfree(r); - kfree(s); - kfree(t); - return (0); -} - -/* - * MTU has been changed by the IP layer. - * We could be in - * an upcall from the tty driver, or in an ip packet queue. - */ -static int strip_change_mtu(struct net_device *dev, int new_mtu) -{ - struct strip *strip_info = netdev_priv(dev); - int old_mtu = strip_info->mtu; - unsigned char *orbuff = strip_info->rx_buff; - unsigned char *osbuff = strip_info->sx_buff; - unsigned char *otbuff = strip_info->tx_buff; - - if (new_mtu > MAX_SEND_MTU) { - printk(KERN_ERR - "%s: MTU exceeds maximum allowable (%d), MTU change cancelled.\n", - strip_info->dev->name, MAX_SEND_MTU); - return -EINVAL; - } - - spin_lock_bh(&strip_lock); - if (!allocate_buffers(strip_info, new_mtu)) { - printk(KERN_ERR "%s: unable to grow strip buffers, MTU change cancelled.\n", - strip_info->dev->name); - spin_unlock_bh(&strip_lock); - return -ENOMEM; - } - - if (strip_info->sx_count) { - if (strip_info->sx_count <= strip_info->sx_size) - memcpy(strip_info->sx_buff, osbuff, - strip_info->sx_count); - else { - strip_info->discard = strip_info->sx_count; - strip_info->rx_over_errors++; - } - } - - if (strip_info->tx_left) { - if (strip_info->tx_left <= strip_info->tx_size) - memcpy(strip_info->tx_buff, strip_info->tx_head, - strip_info->tx_left); - else { - strip_info->tx_left = 0; - strip_info->tx_dropped++; - } - } - strip_info->tx_head = strip_info->tx_buff; - spin_unlock_bh(&strip_lock); - - printk(KERN_NOTICE "%s: strip MTU changed fom %d to %d.\n", - strip_info->dev->name, old_mtu, strip_info->mtu); - - kfree(orbuff); - kfree(osbuff); - kfree(otbuff); - return 0; -} - -static void strip_unlock(struct strip *strip_info) -{ - /* - * Set the timer to go off in one second. - */ - strip_info->idle_timer.expires = jiffies + 1 * HZ; - add_timer(&strip_info->idle_timer); - netif_wake_queue(strip_info->dev); -} - - - -/* - * If the time is in the near future, time_delta prints the number of - * seconds to go into the buffer and returns the address of the buffer. - * If the time is not in the near future, it returns the address of the - * string "Not scheduled" The buffer must be long enough to contain the - * ascii representation of the number plus 9 charactes for the " seconds" - * and the null character. - */ -#ifdef CONFIG_PROC_FS -static char *time_delta(char buffer[], long time) -{ - time -= jiffies; - if (time > LongTime / 2) - return ("Not scheduled"); - if (time < 0) - time = 0; /* Don't print negative times */ - sprintf(buffer, "%ld seconds", time / HZ); - return (buffer); -} - -/* get Nth element of the linked list */ -static struct strip *strip_get_idx(loff_t pos) -{ - struct strip *str; - int i = 0; - - list_for_each_entry_rcu(str, &strip_list, list) { - if (pos == i) - return str; - ++i; - } - return NULL; -} - -static void *strip_seq_start(struct seq_file *seq, loff_t *pos) - __acquires(RCU) -{ - rcu_read_lock(); - return *pos ? strip_get_idx(*pos - 1) : SEQ_START_TOKEN; -} - -static void *strip_seq_next(struct seq_file *seq, void *v, loff_t *pos) -{ - struct list_head *l; - struct strip *s; - - ++*pos; - if (v == SEQ_START_TOKEN) - return strip_get_idx(1); - - s = v; - l = &s->list; - list_for_each_continue_rcu(l, &strip_list) { - return list_entry(l, struct strip, list); - } - return NULL; -} - -static void strip_seq_stop(struct seq_file *seq, void *v) - __releases(RCU) -{ - rcu_read_unlock(); -} - -static void strip_seq_neighbours(struct seq_file *seq, - const MetricomNodeTable * table, - const char *title) -{ - /* We wrap this in a do/while loop, so if the table changes */ - /* while we're reading it, we just go around and try again. */ - struct timeval t; - - do { - int i; - t = table->timestamp; - if (table->num_nodes) - seq_printf(seq, "\n %s\n", title); - for (i = 0; i < table->num_nodes; i++) { - MetricomNode node; - - spin_lock_bh(&strip_lock); - node = table->node[i]; - spin_unlock_bh(&strip_lock); - seq_printf(seq, " %s\n", node.c); - } - } while (table->timestamp.tv_sec != t.tv_sec - || table->timestamp.tv_usec != t.tv_usec); -} - -/* - * This function prints radio status information via the seq_file - * interface. The interface takes care of buffer size and over - * run issues. - * - * The buffer in seq_file is PAGESIZE (4K) - * so this routine should never print more or it will get truncated. - * With the maximum of 32 portables and 32 poletops - * reported, the routine outputs 3107 bytes into the buffer. - */ -static void strip_seq_status_info(struct seq_file *seq, - const struct strip *strip_info) -{ - char temp[32]; - MetricomAddressString addr_string; - - /* First, we must copy all of our data to a safe place, */ - /* in case a serial interrupt comes in and changes it. */ - int tx_left = strip_info->tx_left; - unsigned long rx_average_pps = strip_info->rx_average_pps; - unsigned long tx_average_pps = strip_info->tx_average_pps; - unsigned long sx_average_pps = strip_info->sx_average_pps; - int working = strip_info->working; - int firmware_level = strip_info->firmware_level; - long watchdog_doprobe = strip_info->watchdog_doprobe; - long watchdog_doreset = strip_info->watchdog_doreset; - long gratuitous_arp = strip_info->gratuitous_arp; - long arp_interval = strip_info->arp_interval; - FirmwareVersion firmware_version = strip_info->firmware_version; - SerialNumber serial_number = strip_info->serial_number; - BatteryVoltage battery_voltage = strip_info->battery_voltage; - char *if_name = strip_info->dev->name; - MetricomAddress true_dev_addr = strip_info->true_dev_addr; - MetricomAddress dev_dev_addr = - *(MetricomAddress *) strip_info->dev->dev_addr; - int manual_dev_addr = strip_info->manual_dev_addr; -#ifdef EXT_COUNTERS - unsigned long rx_bytes = strip_info->rx_bytes; - unsigned long tx_bytes = strip_info->tx_bytes; - unsigned long rx_rbytes = strip_info->rx_rbytes; - unsigned long tx_rbytes = strip_info->tx_rbytes; - unsigned long rx_sbytes = strip_info->rx_sbytes; - unsigned long tx_sbytes = strip_info->tx_sbytes; - unsigned long rx_ebytes = strip_info->rx_ebytes; - unsigned long tx_ebytes = strip_info->tx_ebytes; -#endif - - seq_printf(seq, "\nInterface name\t\t%s\n", if_name); - seq_printf(seq, " Radio working:\t\t%s\n", working ? "Yes" : "No"); - radio_address_to_string(&true_dev_addr, &addr_string); - seq_printf(seq, " Radio address:\t\t%s\n", addr_string.c); - if (manual_dev_addr) { - radio_address_to_string(&dev_dev_addr, &addr_string); - seq_printf(seq, " Device address:\t%s\n", addr_string.c); - } - seq_printf(seq, " Firmware version:\t%s", !working ? "Unknown" : - !firmware_level ? "Should be upgraded" : - firmware_version.c); - if (firmware_level >= ChecksummedMessages) - seq_printf(seq, " (Checksums Enabled)"); - seq_printf(seq, "\n"); - seq_printf(seq, " Serial number:\t\t%s\n", serial_number.c); - seq_printf(seq, " Battery voltage:\t%s\n", battery_voltage.c); - seq_printf(seq, " Transmit queue (bytes):%d\n", tx_left); - seq_printf(seq, " Receive packet rate: %ld packets per second\n", - rx_average_pps / 8); - seq_printf(seq, " Transmit packet rate: %ld packets per second\n", - tx_average_pps / 8); - seq_printf(seq, " Sent packet rate: %ld packets per second\n", - sx_average_pps / 8); - seq_printf(seq, " Next watchdog probe:\t%s\n", - time_delta(temp, watchdog_doprobe)); - seq_printf(seq, " Next watchdog reset:\t%s\n", - time_delta(temp, watchdog_doreset)); - seq_printf(seq, " Next gratuitous ARP:\t"); - - if (!memcmp - (strip_info->dev->dev_addr, zero_address.c, - sizeof(zero_address))) - seq_printf(seq, "Disabled\n"); - else { - seq_printf(seq, "%s\n", time_delta(temp, gratuitous_arp)); - seq_printf(seq, " Next ARP interval:\t%ld seconds\n", - JIFFIE_TO_SEC(arp_interval)); - } - - if (working) { -#ifdef EXT_COUNTERS - seq_printf(seq, "\n"); - seq_printf(seq, - " Total bytes: \trx:\t%lu\ttx:\t%lu\n", - rx_bytes, tx_bytes); - seq_printf(seq, - " thru radio: \trx:\t%lu\ttx:\t%lu\n", - rx_rbytes, tx_rbytes); - seq_printf(seq, - " thru serial port: \trx:\t%lu\ttx:\t%lu\n", - rx_sbytes, tx_sbytes); - seq_printf(seq, - " Total stat/err bytes:\trx:\t%lu\ttx:\t%lu\n", - rx_ebytes, tx_ebytes); -#endif - strip_seq_neighbours(seq, &strip_info->poletops, - "Poletops:"); - strip_seq_neighbours(seq, &strip_info->portables, - "Portables:"); - } -} - -/* - * This function is exports status information from the STRIP driver through - * the /proc file system. - */ -static int strip_seq_show(struct seq_file *seq, void *v) -{ - if (v == SEQ_START_TOKEN) - seq_printf(seq, "strip_version: %s\n", StripVersion); - else - strip_seq_status_info(seq, (const struct strip *)v); - return 0; -} - - -static const struct seq_operations strip_seq_ops = { - .start = strip_seq_start, - .next = strip_seq_next, - .stop = strip_seq_stop, - .show = strip_seq_show, -}; - -static int strip_seq_open(struct inode *inode, struct file *file) -{ - return seq_open(file, &strip_seq_ops); -} - -static const struct file_operations strip_seq_fops = { - .owner = THIS_MODULE, - .open = strip_seq_open, - .read = seq_read, - .llseek = seq_lseek, - .release = seq_release, -}; -#endif - - - -/************************************************************************/ -/* Sending routines */ - -static void ResetRadio(struct strip *strip_info) -{ - struct tty_struct *tty = strip_info->tty; - static const char init[] = "ate0q1dt**starmode\r**"; - StringDescriptor s = { init, sizeof(init) - 1 }; - - /* - * If the radio isn't working anymore, - * we should clear the old status information. - */ - if (strip_info->working) { - printk(KERN_INFO "%s: No response: Resetting radio.\n", - strip_info->dev->name); - strip_info->firmware_version.c[0] = '\0'; - strip_info->serial_number.c[0] = '\0'; - strip_info->battery_voltage.c[0] = '\0'; - strip_info->portables.num_nodes = 0; - do_gettimeofday(&strip_info->portables.timestamp); - strip_info->poletops.num_nodes = 0; - do_gettimeofday(&strip_info->poletops.timestamp); - } - - strip_info->pps_timer = jiffies; - strip_info->rx_pps_count = 0; - strip_info->tx_pps_count = 0; - strip_info->sx_pps_count = 0; - strip_info->rx_average_pps = 0; - strip_info->tx_average_pps = 0; - strip_info->sx_average_pps = 0; - - /* Mark radio address as unknown */ - *(MetricomAddress *) & strip_info->true_dev_addr = zero_address; - if (!strip_info->manual_dev_addr) - *(MetricomAddress *) strip_info->dev->dev_addr = - zero_address; - strip_info->working = FALSE; - strip_info->firmware_level = NoStructure; - strip_info->next_command = CompatibilityCommand; - strip_info->watchdog_doprobe = jiffies + 10 * HZ; - strip_info->watchdog_doreset = jiffies + 1 * HZ; - - /* If the user has selected a baud rate above 38.4 see what magic we have to do */ - if (strip_info->user_baud > 38400) { - /* - * Subtle stuff: Pay attention :-) - * If the serial port is currently at the user's selected (>38.4) rate, - * then we temporarily switch to 19.2 and issue the ATS304 command - * to tell the radio to switch to the user's selected rate. - * If the serial port is not currently at that rate, that means we just - * issued the ATS304 command last time through, so this time we restore - * the user's selected rate and issue the normal starmode reset string. - */ - if (strip_info->user_baud == tty_get_baud_rate(tty)) { - static const char b0[] = "ate0q1s304=57600\r"; - static const char b1[] = "ate0q1s304=115200\r"; - static const StringDescriptor baudstring[2] = - { {b0, sizeof(b0) - 1} - , {b1, sizeof(b1) - 1} - }; - set_baud(tty, 19200); - if (strip_info->user_baud == 57600) - s = baudstring[0]; - else if (strip_info->user_baud == 115200) - s = baudstring[1]; - else - s = baudstring[1]; /* For now */ - } else - set_baud(tty, strip_info->user_baud); - } - - tty->ops->write(tty, s.string, s.length); -#ifdef EXT_COUNTERS - strip_info->tx_ebytes += s.length; -#endif -} - -/* - * Called by the driver when there's room for more data. If we have - * more packets to send, we send them here. - */ - -static void strip_write_some_more(struct tty_struct *tty) -{ - struct strip *strip_info = tty->disc_data; - - /* First make sure we're connected. */ - if (!strip_info || strip_info->magic != STRIP_MAGIC || - !netif_running(strip_info->dev)) - return; - - if (strip_info->tx_left > 0) { - int num_written = - tty->ops->write(tty, strip_info->tx_head, - strip_info->tx_left); - strip_info->tx_left -= num_written; - strip_info->tx_head += num_written; -#ifdef EXT_COUNTERS - strip_info->tx_sbytes += num_written; -#endif - } else { /* Else start transmission of another packet */ - - clear_bit(TTY_DO_WRITE_WAKEUP, &tty->flags); - strip_unlock(strip_info); - } -} - -static __u8 *add_checksum(__u8 * buffer, __u8 * end) -{ - __u16 sum = 0; - __u8 *p = buffer; - while (p < end) - sum += *p++; - end[3] = hextable[sum & 0xF]; - sum >>= 4; - end[2] = hextable[sum & 0xF]; - sum >>= 4; - end[1] = hextable[sum & 0xF]; - sum >>= 4; - end[0] = hextable[sum & 0xF]; - return (end + 4); -} - -static unsigned char *strip_make_packet(unsigned char *buffer, - struct strip *strip_info, - struct sk_buff *skb) -{ - __u8 *ptr = buffer; - __u8 *stuffstate = NULL; - STRIP_Header *header = (STRIP_Header *) skb->data; - MetricomAddress haddr = header->dst_addr; - int len = skb->len - sizeof(STRIP_Header); - MetricomKey key; - - /*HexDump("strip_make_packet", strip_info, skb->data, skb->data + skb->len); */ - - if (header->protocol == htons(ETH_P_IP)) - key = SIP0Key; - else if (header->protocol == htons(ETH_P_ARP)) - key = ARP0Key; - else { - printk(KERN_ERR - "%s: strip_make_packet: Unknown packet type 0x%04X\n", - strip_info->dev->name, ntohs(header->protocol)); - return (NULL); - } - - if (len > strip_info->mtu) { - printk(KERN_ERR - "%s: Dropping oversized transmit packet: %d bytes\n", - strip_info->dev->name, len); - return (NULL); - } - - /* - * If we're sending to ourselves, discard the packet. - * (Metricom radios choke if they try to send a packet to their own address.) - */ - if (!memcmp(haddr.c, strip_info->true_dev_addr.c, sizeof(haddr))) { - printk(KERN_ERR "%s: Dropping packet addressed to self\n", - strip_info->dev->name); - return (NULL); - } - - /* - * If this is a broadcast packet, send it to our designated Metricom - * 'broadcast hub' radio (First byte of address being 0xFF means broadcast) - */ - if (haddr.c[0] == 0xFF) { - __be32 brd = 0; - struct in_device *in_dev; - - rcu_read_lock(); - in_dev = __in_dev_get_rcu(strip_info->dev); - if (in_dev == NULL) { - rcu_read_unlock(); - return NULL; - } - if (in_dev->ifa_list) - brd = in_dev->ifa_list->ifa_broadcast; - rcu_read_unlock(); - - /* arp_query returns 1 if it succeeds in looking up the address, 0 if it fails */ - if (!arp_query(haddr.c, brd, strip_info->dev)) { - printk(KERN_ERR - "%s: Unable to send packet (no broadcast hub configured)\n", - strip_info->dev->name); - return (NULL); - } - /* - * If we are the broadcast hub, don't bother sending to ourselves. - * (Metricom radios choke if they try to send a packet to their own address.) - */ - if (!memcmp - (haddr.c, strip_info->true_dev_addr.c, sizeof(haddr))) - return (NULL); - } - - *ptr++ = 0x0D; - *ptr++ = '*'; - *ptr++ = hextable[haddr.c[2] >> 4]; - *ptr++ = hextable[haddr.c[2] & 0xF]; - *ptr++ = hextable[haddr.c[3] >> 4]; - *ptr++ = hextable[haddr.c[3] & 0xF]; - *ptr++ = '-'; - *ptr++ = hextable[haddr.c[4] >> 4]; - *ptr++ = hextable[haddr.c[4] & 0xF]; - *ptr++ = hextable[haddr.c[5] >> 4]; - *ptr++ = hextable[haddr.c[5] & 0xF]; - *ptr++ = '*'; - *ptr++ = key.c[0]; - *ptr++ = key.c[1]; - *ptr++ = key.c[2]; - *ptr++ = key.c[3]; - - ptr = - StuffData(skb->data + sizeof(STRIP_Header), len, ptr, - &stuffstate); - - if (strip_info->firmware_level >= ChecksummedMessages) - ptr = add_checksum(buffer + 1, ptr); - - *ptr++ = 0x0D; - return (ptr); -} - -static void strip_send(struct strip *strip_info, struct sk_buff *skb) -{ - MetricomAddress haddr; - unsigned char *ptr = strip_info->tx_buff; - int doreset = (long) jiffies - strip_info->watchdog_doreset >= 0; - int doprobe = (long) jiffies - strip_info->watchdog_doprobe >= 0 - && !doreset; - __be32 addr, brd; - - /* - * 1. If we have a packet, encapsulate it and put it in the buffer - */ - if (skb) { - char *newptr = strip_make_packet(ptr, strip_info, skb); - strip_info->tx_pps_count++; - if (!newptr) - strip_info->tx_dropped++; - else { - ptr = newptr; - strip_info->sx_pps_count++; - strip_info->tx_packets++; /* Count another successful packet */ -#ifdef EXT_COUNTERS - strip_info->tx_bytes += skb->len; - strip_info->tx_rbytes += ptr - strip_info->tx_buff; -#endif - /*DumpData("Sending:", strip_info, strip_info->tx_buff, ptr); */ - /*HexDump("Sending", strip_info, strip_info->tx_buff, ptr); */ - } - } - - /* - * 2. If it is time for another tickle, tack it on, after the packet - */ - if (doprobe) { - StringDescriptor ts = CommandString[strip_info->next_command]; -#if TICKLE_TIMERS - { - struct timeval tv; - do_gettimeofday(&tv); - printk(KERN_INFO "**** Sending tickle string %d at %02d.%06d\n", - strip_info->next_command, tv.tv_sec % 100, - tv.tv_usec); - } -#endif - if (ptr == strip_info->tx_buff) - *ptr++ = 0x0D; - - *ptr++ = '*'; /* First send "**" to provoke an error message */ - *ptr++ = '*'; - - /* Then add the command */ - memcpy(ptr, ts.string, ts.length); - - /* Add a checksum ? */ - if (strip_info->firmware_level < ChecksummedMessages) - ptr += ts.length; - else - ptr = add_checksum(ptr, ptr + ts.length); - - *ptr++ = 0x0D; /* Terminate the command with a <CR> */ - - /* Cycle to next periodic command? */ - if (strip_info->firmware_level >= StructuredMessages) - if (++strip_info->next_command >= - ARRAY_SIZE(CommandString)) - strip_info->next_command = 0; -#ifdef EXT_COUNTERS - strip_info->tx_ebytes += ts.length; -#endif - strip_info->watchdog_doprobe = jiffies + 10 * HZ; - strip_info->watchdog_doreset = jiffies + 1 * HZ; - /*printk(KERN_INFO "%s: Routine radio test.\n", strip_info->dev->name); */ - } - - /* - * 3. Set up the strip_info ready to send the data (if any). - */ - strip_info->tx_head = strip_info->tx_buff; - strip_info->tx_left = ptr - strip_info->tx_buff; - set_bit(TTY_DO_WRITE_WAKEUP, &strip_info->tty->flags); - /* - * 4. Debugging check to make sure we're not overflowing the buffer. - */ - if (strip_info->tx_size - strip_info->tx_left < 20) - printk(KERN_ERR "%s: Sending%5d bytes;%5d bytes free.\n", - strip_info->dev->name, strip_info->tx_left, - strip_info->tx_size - strip_info->tx_left); - - /* - * 5. If watchdog has expired, reset the radio. Note: if there's data waiting in - * the buffer, strip_write_some_more will send it after the reset has finished - */ - if (doreset) { - ResetRadio(strip_info); - return; - } - - if (1) { - struct in_device *in_dev; - - brd = addr = 0; - rcu_read_lock(); - in_dev = __in_dev_get_rcu(strip_info->dev); - if (in_dev) { - if (in_dev->ifa_list) { - brd = in_dev->ifa_list->ifa_broadcast; - addr = in_dev->ifa_list->ifa_local; - } - } - rcu_read_unlock(); - } - - - /* - * 6. If it is time for a periodic ARP, queue one up to be sent. - * We only do this if: - * 1. The radio is working - * 2. It's time to send another periodic ARP - * 3. We really know what our address is (and it is not manually set to zero) - * 4. We have a designated broadcast address configured - * If we queue up an ARP packet when we don't have a designated broadcast - * address configured, then the packet will just have to be discarded in - * strip_make_packet. This is not fatal, but it causes misleading information - * to be displayed in tcpdump. tcpdump will report that periodic APRs are - * being sent, when in fact they are not, because they are all being dropped - * in the strip_make_packet routine. - */ - if (strip_info->working - && (long) jiffies - strip_info->gratuitous_arp >= 0 - && memcmp(strip_info->dev->dev_addr, zero_address.c, - sizeof(zero_address)) - && arp_query(haddr.c, brd, strip_info->dev)) { - /*printk(KERN_INFO "%s: Sending gratuitous ARP with interval %ld\n", - strip_info->dev->name, strip_info->arp_interval / HZ); */ - strip_info->gratuitous_arp = - jiffies + strip_info->arp_interval; - strip_info->arp_interval *= 2; - if (strip_info->arp_interval > MaxARPInterval) - strip_info->arp_interval = MaxARPInterval; - if (addr) - arp_send(ARPOP_REPLY, ETH_P_ARP, addr, /* Target address of ARP packet is our address */ - strip_info->dev, /* Device to send packet on */ - addr, /* Source IP address this ARP packet comes from */ - NULL, /* Destination HW address is NULL (broadcast it) */ - strip_info->dev->dev_addr, /* Source HW address is our HW address */ - strip_info->dev->dev_addr); /* Target HW address is our HW address (redundant) */ - } - - /* - * 7. All ready. Start the transmission - */ - strip_write_some_more(strip_info->tty); -} - -/* Encapsulate a datagram and kick it into a TTY queue. */ -static netdev_tx_t strip_xmit(struct sk_buff *skb, struct net_device *dev) -{ - struct strip *strip_info = netdev_priv(dev); - - if (!netif_running(dev)) { - printk(KERN_ERR "%s: xmit call when iface is down\n", - dev->name); - return NETDEV_TX_BUSY; - } - - netif_stop_queue(dev); - - del_timer(&strip_info->idle_timer); - - - if (time_after(jiffies, strip_info->pps_timer + HZ)) { - unsigned long t = jiffies - strip_info->pps_timer; - unsigned long rx_pps_count = - DIV_ROUND_CLOSEST(strip_info->rx_pps_count*HZ*8, t); - unsigned long tx_pps_count = - DIV_ROUND_CLOSEST(strip_info->tx_pps_count*HZ*8, t); - unsigned long sx_pps_count = - DIV_ROUND_CLOSEST(strip_info->sx_pps_count*HZ*8, t); - - strip_info->pps_timer = jiffies; - strip_info->rx_pps_count = 0; - strip_info->tx_pps_count = 0; - strip_info->sx_pps_count = 0; - - strip_info->rx_average_pps = (strip_info->rx_average_pps + rx_pps_count + 1) / 2; - strip_info->tx_average_pps = (strip_info->tx_average_pps + tx_pps_count + 1) / 2; - strip_info->sx_average_pps = (strip_info->sx_average_pps + sx_pps_count + 1) / 2; - - if (rx_pps_count / 8 >= 10) - printk(KERN_INFO "%s: WARNING: Receiving %ld packets per second.\n", - strip_info->dev->name, rx_pps_count / 8); - if (tx_pps_count / 8 >= 10) - printk(KERN_INFO "%s: WARNING: Tx %ld packets per second.\n", - strip_info->dev->name, tx_pps_count / 8); - if (sx_pps_count / 8 >= 10) - printk(KERN_INFO "%s: WARNING: Sending %ld packets per second.\n", - strip_info->dev->name, sx_pps_count / 8); - } - - spin_lock_bh(&strip_lock); - - strip_send(strip_info, skb); - - spin_unlock_bh(&strip_lock); - - if (skb) - dev_kfree_skb(skb); - return NETDEV_TX_OK; -} - -/* - * IdleTask periodically calls strip_xmit, so even when we have no IP packets - * to send for an extended period of time, the watchdog processing still gets - * done to ensure that the radio stays in Starmode - */ - -static void strip_IdleTask(unsigned long parameter) -{ - strip_xmit(NULL, (struct net_device *) parameter); -} - -/* - * Create the MAC header for an arbitrary protocol layer - * - * saddr!=NULL means use this specific address (n/a for Metricom) - * saddr==NULL means use default device source address - * daddr!=NULL means use this destination address - * daddr==NULL means leave destination address alone - * (e.g. unresolved arp -- kernel will call - * rebuild_header later to fill in the address) - */ - -static int strip_header(struct sk_buff *skb, struct net_device *dev, - unsigned short type, const void *daddr, - const void *saddr, unsigned len) -{ - struct strip *strip_info = netdev_priv(dev); - STRIP_Header *header = (STRIP_Header *) skb_push(skb, sizeof(STRIP_Header)); - - /*printk(KERN_INFO "%s: strip_header 0x%04X %s\n", dev->name, type, - type == ETH_P_IP ? "IP" : type == ETH_P_ARP ? "ARP" : ""); */ - - header->src_addr = strip_info->true_dev_addr; - header->protocol = htons(type); - - /*HexDump("strip_header", netdev_priv(dev), skb->data, skb->data + skb->len); */ - - if (!daddr) - return (-dev->hard_header_len); - - header->dst_addr = *(MetricomAddress *) daddr; - return (dev->hard_header_len); -} - -/* - * Rebuild the MAC header. This is called after an ARP - * (or in future other address resolution) has completed on this - * sk_buff. We now let ARP fill in the other fields. - * I think this should return zero if packet is ready to send, - * or non-zero if it needs more time to do an address lookup - */ - -static int strip_rebuild_header(struct sk_buff *skb) -{ -#ifdef CONFIG_INET - STRIP_Header *header = (STRIP_Header *) skb->data; - - /* Arp find returns zero if if knows the address, */ - /* or if it doesn't know the address it sends an ARP packet and returns non-zero */ - return arp_find(header->dst_addr.c, skb) ? 1 : 0; -#else - return 0; -#endif -} - - -/************************************************************************/ -/* Receiving routines */ - -/* - * This function parses the response to the ATS300? command, - * extracting the radio version and serial number. - */ -static void get_radio_version(struct strip *strip_info, __u8 * ptr, __u8 * end) -{ - __u8 *p, *value_begin, *value_end; - int len; - - /* Determine the beginning of the second line of the payload */ - p = ptr; - while (p < end && *p != 10) - p++; - if (p >= end) - return; - p++; - value_begin = p; - - /* Determine the end of line */ - while (p < end && *p != 10) - p++; - if (p >= end) - return; - value_end = p; - p++; - - len = value_end - value_begin; - len = min_t(int, len, sizeof(FirmwareVersion) - 1); - if (strip_info->firmware_version.c[0] == 0) - printk(KERN_INFO "%s: Radio Firmware: %.*s\n", - strip_info->dev->name, len, value_begin); - sprintf(strip_info->firmware_version.c, "%.*s", len, value_begin); - - /* Look for the first colon */ - while (p < end && *p != ':') - p++; - if (p >= end) - return; - /* Skip over the space */ - p += 2; - len = sizeof(SerialNumber) - 1; - if (p + len <= end) { - sprintf(strip_info->serial_number.c, "%.*s", len, p); - } else { - printk(KERN_DEBUG - "STRIP: radio serial number shorter (%zd) than expected (%d)\n", - end - p, len); - } -} - -/* - * This function parses the response to the ATS325? command, - * extracting the radio battery voltage. - */ -static void get_radio_voltage(struct strip *strip_info, __u8 * ptr, __u8 * end) -{ - int len; - - len = sizeof(BatteryVoltage) - 1; - if (ptr + len <= end) { - sprintf(strip_info->battery_voltage.c, "%.*s", len, ptr); - } else { - printk(KERN_DEBUG - "STRIP: radio voltage string shorter (%zd) than expected (%d)\n", - end - ptr, len); - } -} - -/* - * This function parses the responses to the AT~LA and ATS311 commands, - * which list the radio's neighbours. - */ -static void get_radio_neighbours(MetricomNodeTable * table, __u8 * ptr, __u8 * end) -{ - table->num_nodes = 0; - while (ptr < end && table->num_nodes < NODE_TABLE_SIZE) { - MetricomNode *node = &table->node[table->num_nodes++]; - char *dst = node->c, *limit = dst + sizeof(*node) - 1; - while (ptr < end && *ptr <= 32) - ptr++; - while (ptr < end && dst < limit && *ptr != 10) - *dst++ = *ptr++; - *dst++ = 0; - while (ptr < end && ptr[-1] != 10) - ptr++; - } - do_gettimeofday(&table->timestamp); -} - -static int get_radio_address(struct strip *strip_info, __u8 * p) -{ - MetricomAddress addr; - - if (string_to_radio_address(&addr, p)) - return (1); - - /* See if our radio address has changed */ - if (memcmp(strip_info->true_dev_addr.c, addr.c, sizeof(addr))) { - MetricomAddressString addr_string; - radio_address_to_string(&addr, &addr_string); - printk(KERN_INFO "%s: Radio address = %s\n", - strip_info->dev->name, addr_string.c); - strip_info->true_dev_addr = addr; - if (!strip_info->manual_dev_addr) - *(MetricomAddress *) strip_info->dev->dev_addr = - addr; - /* Give the radio a few seconds to get its head straight, then send an arp */ - strip_info->gratuitous_arp = jiffies + 15 * HZ; - strip_info->arp_interval = 1 * HZ; - } - return (0); -} - -static int verify_checksum(struct strip *strip_info) -{ - __u8 *p = strip_info->sx_buff; - __u8 *end = strip_info->sx_buff + strip_info->sx_count - 4; - u_short sum = - (READHEX16(end[0]) << 12) | (READHEX16(end[1]) << 8) | - (READHEX16(end[2]) << 4) | (READHEX16(end[3])); - while (p < end) - sum -= *p++; - if (sum == 0 && strip_info->firmware_level == StructuredMessages) { - strip_info->firmware_level = ChecksummedMessages; - printk(KERN_INFO "%s: Radio provides message checksums\n", - strip_info->dev->name); - } - return (sum == 0); -} - -static void RecvErr(char *msg, struct strip *strip_info) -{ - __u8 *ptr = strip_info->sx_buff; - __u8 *end = strip_info->sx_buff + strip_info->sx_count; - DumpData(msg, strip_info, ptr, end); - strip_info->rx_errors++; -} - -static void RecvErr_Message(struct strip *strip_info, __u8 * sendername, - const __u8 * msg, u_long len) -{ - if (has_prefix(msg, len, "001")) { /* Not in StarMode! */ - RecvErr("Error Msg:", strip_info); - printk(KERN_INFO "%s: Radio %s is not in StarMode\n", - strip_info->dev->name, sendername); - } - - else if (has_prefix(msg, len, "002")) { /* Remap handle */ - /* We ignore "Remap handle" messages for now */ - } - - else if (has_prefix(msg, len, "003")) { /* Can't resolve name */ - RecvErr("Error Msg:", strip_info); - printk(KERN_INFO "%s: Destination radio name is unknown\n", - strip_info->dev->name); - } - - else if (has_prefix(msg, len, "004")) { /* Name too small or missing */ - strip_info->watchdog_doreset = jiffies + LongTime; -#if TICKLE_TIMERS - { - struct timeval tv; - do_gettimeofday(&tv); - printk(KERN_INFO - "**** Got ERR_004 response at %02d.%06d\n", - tv.tv_sec % 100, tv.tv_usec); - } -#endif - if (!strip_info->working) { - strip_info->working = TRUE; - printk(KERN_INFO "%s: Radio now in starmode\n", - strip_info->dev->name); - /* - * If the radio has just entered a working state, we should do our first - * probe ASAP, so that we find out our radio address etc. without delay. - */ - strip_info->watchdog_doprobe = jiffies; - } - if (strip_info->firmware_level == NoStructure && sendername) { - strip_info->firmware_level = StructuredMessages; - strip_info->next_command = 0; /* Try to enable checksums ASAP */ - printk(KERN_INFO - "%s: Radio provides structured messages\n", - strip_info->dev->name); - } - if (strip_info->firmware_level >= StructuredMessages) { - /* - * If this message has a valid checksum on the end, then the call to verify_checksum - * will elevate the firmware_level to ChecksummedMessages for us. (The actual return - * code from verify_checksum is ignored here.) - */ - verify_checksum(strip_info); - /* - * If the radio has structured messages but we don't yet have all our information about it, - * we should do probes without delay, until we have gathered all the information - */ - if (!GOT_ALL_RADIO_INFO(strip_info)) - strip_info->watchdog_doprobe = jiffies; - } - } - - else if (has_prefix(msg, len, "005")) /* Bad count specification */ - RecvErr("Error Msg:", strip_info); - - else if (has_prefix(msg, len, "006")) /* Header too big */ - RecvErr("Error Msg:", strip_info); - - else if (has_prefix(msg, len, "007")) { /* Body too big */ - RecvErr("Error Msg:", strip_info); - printk(KERN_ERR - "%s: Error! Packet size too big for radio.\n", - strip_info->dev->name); - } - - else if (has_prefix(msg, len, "008")) { /* Bad character in name */ - RecvErr("Error Msg:", strip_info); - printk(KERN_ERR - "%s: Radio name contains illegal character\n", - strip_info->dev->name); - } - - else if (has_prefix(msg, len, "009")) /* No count or line terminator */ - RecvErr("Error Msg:", strip_info); - - else if (has_prefix(msg, len, "010")) /* Invalid checksum */ - RecvErr("Error Msg:", strip_info); - - else if (has_prefix(msg, len, "011")) /* Checksum didn't match */ - RecvErr("Error Msg:", strip_info); - - else if (has_prefix(msg, len, "012")) /* Failed to transmit packet */ - RecvErr("Error Msg:", strip_info); - - else - RecvErr("Error Msg:", strip_info); -} - -static void process_AT_response(struct strip *strip_info, __u8 * ptr, - __u8 * end) -{ - u_long len; - __u8 *p = ptr; - while (p < end && p[-1] != 10) - p++; /* Skip past first newline character */ - /* Now ptr points to the AT command, and p points to the text of the response. */ - len = p - ptr; - -#if TICKLE_TIMERS - { - struct timeval tv; - do_gettimeofday(&tv); - printk(KERN_INFO "**** Got AT response %.7s at %02d.%06d\n", - ptr, tv.tv_sec % 100, tv.tv_usec); - } -#endif - - if (has_prefix(ptr, len, "ATS300?")) - get_radio_version(strip_info, p, end); - else if (has_prefix(ptr, len, "ATS305?")) - get_radio_address(strip_info, p); - else if (has_prefix(ptr, len, "ATS311?")) - get_radio_neighbours(&strip_info->poletops, p, end); - else if (has_prefix(ptr, len, "ATS319=7")) - verify_checksum(strip_info); - else if (has_prefix(ptr, len, "ATS325?")) - get_radio_voltage(strip_info, p, end); - else if (has_prefix(ptr, len, "AT~LA")) - get_radio_neighbours(&strip_info->portables, p, end); - else - RecvErr("Unknown AT Response:", strip_info); -} - -static void process_ACK(struct strip *strip_info, __u8 * ptr, __u8 * end) -{ - /* Currently we don't do anything with ACKs from the radio */ -} - -static void process_Info(struct strip *strip_info, __u8 * ptr, __u8 * end) -{ - if (ptr + 16 > end) - RecvErr("Bad Info Msg:", strip_info); -} - -static struct net_device *get_strip_dev(struct strip *strip_info) -{ - /* If our hardware address is *manually set* to zero, and we know our */ - /* real radio hardware address, try to find another strip device that has been */ - /* manually set to that address that we can 'transfer ownership' of this packet to */ - if (strip_info->manual_dev_addr && - !memcmp(strip_info->dev->dev_addr, zero_address.c, - sizeof(zero_address)) - && memcmp(&strip_info->true_dev_addr, zero_address.c, - sizeof(zero_address))) { - struct net_device *dev; - read_lock_bh(&dev_base_lock); - for_each_netdev(&init_net, dev) { - if (dev->type == strip_info->dev->type && - !memcmp(dev->dev_addr, - &strip_info->true_dev_addr, - sizeof(MetricomAddress))) { - printk(KERN_INFO - "%s: Transferred packet ownership to %s.\n", - strip_info->dev->name, dev->name); - read_unlock_bh(&dev_base_lock); - return (dev); - } - } - read_unlock_bh(&dev_base_lock); - } - return (strip_info->dev); -} - -/* - * Send one completely decapsulated datagram to the next layer. - */ - -static void deliver_packet(struct strip *strip_info, STRIP_Header * header, - __u16 packetlen) -{ - struct sk_buff *skb = dev_alloc_skb(sizeof(STRIP_Header) + packetlen); - if (!skb) { - printk(KERN_ERR "%s: memory squeeze, dropping packet.\n", - strip_info->dev->name); - strip_info->rx_dropped++; - } else { - memcpy(skb_put(skb, sizeof(STRIP_Header)), header, - sizeof(STRIP_Header)); - memcpy(skb_put(skb, packetlen), strip_info->rx_buff, - packetlen); - skb->dev = get_strip_dev(strip_info); - skb->protocol = header->protocol; - skb_reset_mac_header(skb); - - /* Having put a fake header on the front of the sk_buff for the */ - /* benefit of tools like tcpdump, skb_pull now 'consumes' that */ - /* fake header before we hand the packet up to the next layer. */ - skb_pull(skb, sizeof(STRIP_Header)); - - /* Finally, hand the packet up to the next layer (e.g. IP or ARP, etc.) */ - strip_info->rx_packets++; - strip_info->rx_pps_count++; -#ifdef EXT_COUNTERS - strip_info->rx_bytes += packetlen; -#endif - netif_rx(skb); - } -} - -static void process_IP_packet(struct strip *strip_info, - STRIP_Header * header, __u8 * ptr, - __u8 * end) -{ - __u16 packetlen; - - /* Decode start of the IP packet header */ - ptr = UnStuffData(ptr, end, strip_info->rx_buff, 4); - if (!ptr) { - RecvErr("IP Packet too short", strip_info); - return; - } - - packetlen = ((__u16) strip_info->rx_buff[2] << 8) | strip_info->rx_buff[3]; - - if (packetlen > MAX_RECV_MTU) { - printk(KERN_INFO "%s: Dropping oversized received IP packet: %d bytes\n", - strip_info->dev->name, packetlen); - strip_info->rx_dropped++; - return; - } - - /*printk(KERN_INFO "%s: Got %d byte IP packet\n", strip_info->dev->name, packetlen); */ - - /* Decode remainder of the IP packet */ - ptr = - UnStuffData(ptr, end, strip_info->rx_buff + 4, packetlen - 4); - if (!ptr) { - RecvErr("IP Packet too short", strip_info); - return; - } - - if (ptr < end) { - RecvErr("IP Packet too long", strip_info); - return; - } - - header->protocol = htons(ETH_P_IP); - - deliver_packet(strip_info, header, packetlen); -} - -static void process_ARP_packet(struct strip *strip_info, - STRIP_Header * header, __u8 * ptr, - __u8 * end) -{ - __u16 packetlen; - struct arphdr *arphdr = (struct arphdr *) strip_info->rx_buff; - - /* Decode start of the ARP packet */ - ptr = UnStuffData(ptr, end, strip_info->rx_buff, 8); - if (!ptr) { - RecvErr("ARP Packet too short", strip_info); - return; - } - - packetlen = 8 + (arphdr->ar_hln + arphdr->ar_pln) * 2; - - if (packetlen > MAX_RECV_MTU) { - printk(KERN_INFO - "%s: Dropping oversized received ARP packet: %d bytes\n", - strip_info->dev->name, packetlen); - strip_info->rx_dropped++; - return; - } - - /*printk(KERN_INFO "%s: Got %d byte ARP %s\n", - strip_info->dev->name, packetlen, - ntohs(arphdr->ar_op) == ARPOP_REQUEST ? "request" : "reply"); */ - - /* Decode remainder of the ARP packet */ - ptr = - UnStuffData(ptr, end, strip_info->rx_buff + 8, packetlen - 8); - if (!ptr) { - RecvErr("ARP Packet too short", strip_info); - return; - } - - if (ptr < end) { - RecvErr("ARP Packet too long", strip_info); - return; - } - - header->protocol = htons(ETH_P_ARP); - - deliver_packet(strip_info, header, packetlen); -} - -/* - * process_text_message processes a <CR>-terminated block of data received - * from the radio that doesn't begin with a '*' character. All normal - * Starmode communication messages with the radio begin with a '*', - * so any text that does not indicates a serial port error, a radio that - * is in Hayes command mode instead of Starmode, or a radio with really - * old firmware that doesn't frame its Starmode responses properly. - */ -static void process_text_message(struct strip *strip_info) -{ - __u8 *msg = strip_info->sx_buff; - int len = strip_info->sx_count; - - /* Check for anything that looks like it might be our radio name */ - /* (This is here for backwards compatibility with old firmware) */ - if (len == 9 && get_radio_address(strip_info, msg) == 0) - return; - - if (text_equal(msg, len, "OK")) - return; /* Ignore 'OK' responses from prior commands */ - if (text_equal(msg, len, "ERROR")) - return; /* Ignore 'ERROR' messages */ - if (has_prefix(msg, len, "ate0q1")) - return; /* Ignore character echo back from the radio */ - - /* Catch other error messages */ - /* (This is here for backwards compatibility with old firmware) */ - if (has_prefix(msg, len, "ERR_")) { - RecvErr_Message(strip_info, NULL, &msg[4], len - 4); - return; - } - - RecvErr("No initial *", strip_info); -} - -/* - * process_message processes a <CR>-terminated block of data received - * from the radio. If the radio is not in Starmode or has old firmware, - * it may be a line of text in response to an AT command. Ideally, with - * a current radio that's properly in Starmode, all data received should - * be properly framed and checksummed radio message blocks, containing - * either a starmode packet, or a other communication from the radio - * firmware, like "INF_" Info messages and &COMMAND responses. - */ -static void process_message(struct strip *strip_info) -{ - STRIP_Header header = { zero_address, zero_address, 0 }; - __u8 *ptr = strip_info->sx_buff; - __u8 *end = strip_info->sx_buff + strip_info->sx_count; - __u8 sendername[32], *sptr = sendername; - MetricomKey key; - - /*HexDump("Receiving", strip_info, ptr, end); */ - - /* Check for start of address marker, and then skip over it */ - if (*ptr == '*') - ptr++; - else { - process_text_message(strip_info); - return; - } - - /* Copy out the return address */ - while (ptr < end && *ptr != '*' - && sptr < ARRAY_END(sendername) - 1) - *sptr++ = *ptr++; - *sptr = 0; /* Null terminate the sender name */ - - /* Check for end of address marker, and skip over it */ - if (ptr >= end || *ptr != '*') { - RecvErr("No second *", strip_info); - return; - } - ptr++; /* Skip the second '*' */ - - /* If the sender name is "&COMMAND", ignore this 'packet' */ - /* (This is here for backwards compatibility with old firmware) */ - if (!strcmp(sendername, "&COMMAND")) { - strip_info->firmware_level = NoStructure; - strip_info->next_command = CompatibilityCommand; - return; - } - - if (ptr + 4 > end) { - RecvErr("No proto key", strip_info); - return; - } - - /* Get the protocol key out of the buffer */ - key.c[0] = *ptr++; - key.c[1] = *ptr++; - key.c[2] = *ptr++; - key.c[3] = *ptr++; - - /* If we're using checksums, verify the checksum at the end of the packet */ - if (strip_info->firmware_level >= ChecksummedMessages) { - end -= 4; /* Chop the last four bytes off the packet (they're the checksum) */ - if (ptr > end) { - RecvErr("Missing Checksum", strip_info); - return; - } - if (!verify_checksum(strip_info)) { - RecvErr("Bad Checksum", strip_info); - return; - } - } - - /*printk(KERN_INFO "%s: Got packet from \"%s\".\n", strip_info->dev->name, sendername); */ - - /* - * Fill in (pseudo) source and destination addresses in the packet. - * We assume that the destination address was our address (the radio does not - * tell us this). If the radio supplies a source address, then we use it. - */ - header.dst_addr = strip_info->true_dev_addr; - string_to_radio_address(&header.src_addr, sendername); - -#ifdef EXT_COUNTERS - if (key.l == SIP0Key.l) { - strip_info->rx_rbytes += (end - ptr); - process_IP_packet(strip_info, &header, ptr, end); - } else if (key.l == ARP0Key.l) { - strip_info->rx_rbytes += (end - ptr); - process_ARP_packet(strip_info, &header, ptr, end); - } else if (key.l == ATR_Key.l) { - strip_info->rx_ebytes += (end - ptr); - process_AT_response(strip_info, ptr, end); - } else if (key.l == ACK_Key.l) { - strip_info->rx_ebytes += (end - ptr); - process_ACK(strip_info, ptr, end); - } else if (key.l == INF_Key.l) { - strip_info->rx_ebytes += (end - ptr); - process_Info(strip_info, ptr, end); - } else if (key.l == ERR_Key.l) { - strip_info->rx_ebytes += (end - ptr); - RecvErr_Message(strip_info, sendername, ptr, end - ptr); - } else - RecvErr("Unrecognized protocol key", strip_info); -#else - if (key.l == SIP0Key.l) - process_IP_packet(strip_info, &header, ptr, end); - else if (key.l == ARP0Key.l) - process_ARP_packet(strip_info, &header, ptr, end); - else if (key.l == ATR_Key.l) - process_AT_response(strip_info, ptr, end); - else if (key.l == ACK_Key.l) - process_ACK(strip_info, ptr, end); - else if (key.l == INF_Key.l) - process_Info(strip_info, ptr, end); - else if (key.l == ERR_Key.l) - RecvErr_Message(strip_info, sendername, ptr, end - ptr); - else - RecvErr("Unrecognized protocol key", strip_info); -#endif -} - -#define TTYERROR(X) ((X) == TTY_BREAK ? "Break" : \ - (X) == TTY_FRAME ? "Framing Error" : \ - (X) == TTY_PARITY ? "Parity Error" : \ - (X) == TTY_OVERRUN ? "Hardware Overrun" : "Unknown Error") - -/* - * Handle the 'receiver data ready' interrupt. - * This function is called by the 'tty_io' module in the kernel when - * a block of STRIP data has been received, which can now be decapsulated - * and sent on to some IP layer for further processing. - */ - -static void strip_receive_buf(struct tty_struct *tty, const unsigned char *cp, - char *fp, int count) -{ - struct strip *strip_info = tty->disc_data; - const unsigned char *end = cp + count; - - if (!strip_info || strip_info->magic != STRIP_MAGIC - || !netif_running(strip_info->dev)) - return; - - spin_lock_bh(&strip_lock); -#if 0 - { - struct timeval tv; - do_gettimeofday(&tv); - printk(KERN_INFO - "**** strip_receive_buf: %3d bytes at %02d.%06d\n", - count, tv.tv_sec % 100, tv.tv_usec); - } -#endif - -#ifdef EXT_COUNTERS - strip_info->rx_sbytes += count; -#endif - - /* Read the characters out of the buffer */ - while (cp < end) { - if (fp && *fp) - printk(KERN_INFO "%s: %s on serial port\n", - strip_info->dev->name, TTYERROR(*fp)); - if (fp && *fp++ && !strip_info->discard) { /* If there's a serial error, record it */ - /* If we have some characters in the buffer, discard them */ - strip_info->discard = strip_info->sx_count; - strip_info->rx_errors++; - } - - /* Leading control characters (CR, NL, Tab, etc.) are ignored */ - if (strip_info->sx_count > 0 || *cp >= ' ') { - if (*cp == 0x0D) { /* If end of packet, decide what to do with it */ - if (strip_info->sx_count > 3000) - printk(KERN_INFO - "%s: Cut a %d byte packet (%zd bytes remaining)%s\n", - strip_info->dev->name, - strip_info->sx_count, - end - cp - 1, - strip_info-> - discard ? " (discarded)" : - ""); - if (strip_info->sx_count > - strip_info->sx_size) { - strip_info->rx_over_errors++; - printk(KERN_INFO - "%s: sx_buff overflow (%d bytes total)\n", - strip_info->dev->name, - strip_info->sx_count); - } else if (strip_info->discard) - printk(KERN_INFO - "%s: Discarding bad packet (%d/%d)\n", - strip_info->dev->name, - strip_info->discard, - strip_info->sx_count); - else - process_message(strip_info); - strip_info->discard = 0; - strip_info->sx_count = 0; - } else { - /* Make sure we have space in the buffer */ - if (strip_info->sx_count < - strip_info->sx_size) - strip_info->sx_buff[strip_info-> - sx_count] = - *cp; - strip_info->sx_count++; - } - } - cp++; - } - spin_unlock_bh(&strip_lock); -} - - -/************************************************************************/ -/* General control routines */ - -static int set_mac_address(struct strip *strip_info, - MetricomAddress * addr) -{ - /* - * We're using a manually specified address if the address is set - * to anything other than all ones. Setting the address to all ones - * disables manual mode and goes back to automatic address determination - * (tracking the true address that the radio has). - */ - strip_info->manual_dev_addr = - memcmp(addr->c, broadcast_address.c, - sizeof(broadcast_address)); - if (strip_info->manual_dev_addr) - *(MetricomAddress *) strip_info->dev->dev_addr = *addr; - else - *(MetricomAddress *) strip_info->dev->dev_addr = - strip_info->true_dev_addr; - return 0; -} - -static int strip_set_mac_address(struct net_device *dev, void *addr) -{ - struct strip *strip_info = netdev_priv(dev); - struct sockaddr *sa = addr; - printk(KERN_INFO "%s: strip_set_dev_mac_address called\n", dev->name); - set_mac_address(strip_info, (MetricomAddress *) sa->sa_data); - return 0; -} - -static struct net_device_stats *strip_get_stats(struct net_device *dev) -{ - struct strip *strip_info = netdev_priv(dev); - static struct net_device_stats stats; - - memset(&stats, 0, sizeof(struct net_device_stats)); - - stats.rx_packets = strip_info->rx_packets; - stats.tx_packets = strip_info->tx_packets; - stats.rx_dropped = strip_info->rx_dropped; - stats.tx_dropped = strip_info->tx_dropped; - stats.tx_errors = strip_info->tx_errors; - stats.rx_errors = strip_info->rx_errors; - stats.rx_over_errors = strip_info->rx_over_errors; - return (&stats); -} - - -/************************************************************************/ -/* Opening and closing */ - -/* - * Here's the order things happen: - * When the user runs "slattach -p strip ..." - * 1. The TTY module calls strip_open;; - * 2. strip_open calls strip_alloc - * 3. strip_alloc calls register_netdev - * 4. register_netdev calls strip_dev_init - * 5. then strip_open finishes setting up the strip_info - * - * When the user runs "ifconfig st<x> up address netmask ..." - * 6. strip_open_low gets called - * - * When the user runs "ifconfig st<x> down" - * 7. strip_close_low gets called - * - * When the user kills the slattach process - * 8. strip_close gets called - * 9. strip_close calls dev_close - * 10. if the device is still up, then dev_close calls strip_close_low - * 11. strip_close calls strip_free - */ - -/* Open the low-level part of the STRIP channel. Easy! */ - -static int strip_open_low(struct net_device *dev) -{ - struct strip *strip_info = netdev_priv(dev); - - if (strip_info->tty == NULL) - return (-ENODEV); - - if (!allocate_buffers(strip_info, dev->mtu)) - return (-ENOMEM); - - strip_info->sx_count = 0; - strip_info->tx_left = 0; - - strip_info->discard = 0; - strip_info->working = FALSE; - strip_info->firmware_level = NoStructure; - strip_info->next_command = CompatibilityCommand; - strip_info->user_baud = tty_get_baud_rate(strip_info->tty); - - printk(KERN_INFO "%s: Initializing Radio.\n", - strip_info->dev->name); - ResetRadio(strip_info); - strip_info->idle_timer.expires = jiffies + 1 * HZ; - add_timer(&strip_info->idle_timer); - netif_wake_queue(dev); - return (0); -} - - -/* - * Close the low-level part of the STRIP channel. Easy! - */ - -static int strip_close_low(struct net_device *dev) -{ - struct strip *strip_info = netdev_priv(dev); - - if (strip_info->tty == NULL) - return -EBUSY; - clear_bit(TTY_DO_WRITE_WAKEUP, &strip_info->tty->flags); - netif_stop_queue(dev); - - /* - * Free all STRIP frame buffers. - */ - kfree(strip_info->rx_buff); - strip_info->rx_buff = NULL; - kfree(strip_info->sx_buff); - strip_info->sx_buff = NULL; - kfree(strip_info->tx_buff); - strip_info->tx_buff = NULL; - - del_timer(&strip_info->idle_timer); - return 0; -} - -static const struct header_ops strip_header_ops = { - .create = strip_header, - .rebuild = strip_rebuild_header, -}; - - -static const struct net_device_ops strip_netdev_ops = { - .ndo_open = strip_open_low, - .ndo_stop = strip_close_low, - .ndo_start_xmit = strip_xmit, - .ndo_set_mac_address = strip_set_mac_address, - .ndo_get_stats = strip_get_stats, - .ndo_change_mtu = strip_change_mtu, -}; - -/* - * This routine is called by DDI when the - * (dynamically assigned) device is registered - */ - -static void strip_dev_setup(struct net_device *dev) -{ - /* - * Finish setting up the DEVICE info. - */ - - dev->trans_start = 0; - dev->tx_queue_len = 30; /* Drop after 30 frames queued */ - - dev->flags = 0; - dev->mtu = DEFAULT_STRIP_MTU; - dev->type = ARPHRD_METRICOM; /* dtang */ - dev->hard_header_len = sizeof(STRIP_Header); - /* - * netdev_priv(dev) Already holds a pointer to our struct strip - */ - - *(MetricomAddress *)dev->broadcast = broadcast_address; - dev->dev_addr[0] = 0; - dev->addr_len = sizeof(MetricomAddress); - - dev->header_ops = &strip_header_ops, - dev->netdev_ops = &strip_netdev_ops; -} - -/* - * Free a STRIP channel. - */ - -static void strip_free(struct strip *strip_info) -{ - spin_lock_bh(&strip_lock); - list_del_rcu(&strip_info->list); - spin_unlock_bh(&strip_lock); - - strip_info->magic = 0; - - free_netdev(strip_info->dev); -} - - -/* - * Allocate a new free STRIP channel - */ -static struct strip *strip_alloc(void) -{ - struct list_head *n; - struct net_device *dev; - struct strip *strip_info; - - dev = alloc_netdev(sizeof(struct strip), "st%d", - strip_dev_setup); - - if (!dev) - return NULL; /* If no more memory, return */ - - - strip_info = netdev_priv(dev); - strip_info->dev = dev; - - strip_info->magic = STRIP_MAGIC; - strip_info->tty = NULL; - - strip_info->gratuitous_arp = jiffies + LongTime; - strip_info->arp_interval = 0; - init_timer(&strip_info->idle_timer); - strip_info->idle_timer.data = (long) dev; - strip_info->idle_timer.function = strip_IdleTask; - - - spin_lock_bh(&strip_lock); - rescan: - /* - * Search the list to find where to put our new entry - * (and in the process decide what channel number it is - * going to be) - */ - list_for_each(n, &strip_list) { - struct strip *s = hlist_entry(n, struct strip, list); - - if (s->dev->base_addr == dev->base_addr) { - ++dev->base_addr; - goto rescan; - } - } - - sprintf(dev->name, "st%ld", dev->base_addr); - - list_add_tail_rcu(&strip_info->list, &strip_list); - spin_unlock_bh(&strip_lock); - - return strip_info; -} - -/* - * Open the high-level part of the STRIP channel. - * This function is called by the TTY module when the - * STRIP line discipline is called for. Because we are - * sure the tty line exists, we only have to link it to - * a free STRIP channel... - */ - -static int strip_open(struct tty_struct *tty) -{ - struct strip *strip_info = tty->disc_data; - - /* - * First make sure we're not already connected. - */ - - if (strip_info && strip_info->magic == STRIP_MAGIC) - return -EEXIST; - - /* - * We need a write method. - */ - - if (tty->ops->write == NULL || tty->ops->set_termios == NULL) - return -EOPNOTSUPP; - - /* - * OK. Find a free STRIP channel to use. - */ - if ((strip_info = strip_alloc()) == NULL) - return -ENFILE; - - /* - * Register our newly created device so it can be ifconfig'd - * strip_dev_init() will be called as a side-effect - */ - - if (register_netdev(strip_info->dev) != 0) { - printk(KERN_ERR "strip: register_netdev() failed.\n"); - strip_free(strip_info); - return -ENFILE; - } - - strip_info->tty = tty; - tty->disc_data = strip_info; - tty->receive_room = 65536; - - tty_driver_flush_buffer(tty); - - /* - * Restore default settings - */ - - strip_info->dev->type = ARPHRD_METRICOM; /* dtang */ - - /* - * Set tty options - */ - - tty->termios->c_iflag |= IGNBRK | IGNPAR; /* Ignore breaks and parity errors. */ - tty->termios->c_cflag |= CLOCAL; /* Ignore modem control signals. */ - tty->termios->c_cflag &= ~HUPCL; /* Don't close on hup */ - - printk(KERN_INFO "STRIP: device \"%s\" activated\n", - strip_info->dev->name); - - /* - * Done. We have linked the TTY line to a channel. - */ - return (strip_info->dev->base_addr); -} - -/* - * Close down a STRIP channel. - * This means flushing out any pending queues, and then restoring the - * TTY line discipline to what it was before it got hooked to STRIP - * (which usually is TTY again). - */ - -static void strip_close(struct tty_struct *tty) -{ - struct strip *strip_info = tty->disc_data; - - /* - * First make sure we're connected. - */ - - if (!strip_info || strip_info->magic != STRIP_MAGIC) - return; - - unregister_netdev(strip_info->dev); - - tty->disc_data = NULL; - strip_info->tty = NULL; - printk(KERN_INFO "STRIP: device \"%s\" closed down\n", - strip_info->dev->name); - strip_free(strip_info); - tty->disc_data = NULL; -} - - -/************************************************************************/ -/* Perform I/O control calls on an active STRIP channel. */ - -static int strip_ioctl(struct tty_struct *tty, struct file *file, - unsigned int cmd, unsigned long arg) -{ - struct strip *strip_info = tty->disc_data; - - /* - * First make sure we're connected. - */ - - if (!strip_info || strip_info->magic != STRIP_MAGIC) - return -EINVAL; - - switch (cmd) { - case SIOCGIFNAME: - if(copy_to_user((void __user *) arg, strip_info->dev->name, strlen(strip_info->dev->name) + 1)) - return -EFAULT; - break; - case SIOCSIFHWADDR: - { - MetricomAddress addr; - //printk(KERN_INFO "%s: SIOCSIFHWADDR\n", strip_info->dev->name); - if(copy_from_user(&addr, (void __user *) arg, sizeof(MetricomAddress))) - return -EFAULT; - return set_mac_address(strip_info, &addr); - } - default: - return tty_mode_ioctl(tty, file, cmd, arg); - break; - } - return 0; -} - - -/************************************************************************/ -/* Initialization */ - -static struct tty_ldisc_ops strip_ldisc = { - .magic = TTY_LDISC_MAGIC, - .name = "strip", - .owner = THIS_MODULE, - .open = strip_open, - .close = strip_close, - .ioctl = strip_ioctl, - .receive_buf = strip_receive_buf, - .write_wakeup = strip_write_some_more, -}; - -/* - * Initialize the STRIP driver. - * This routine is called at boot time, to bootstrap the multi-channel - * STRIP driver - */ - -static char signon[] __initdata = - KERN_INFO "STRIP: Version %s (unlimited channels)\n"; - -static int __init strip_init_driver(void) -{ - int status; - - printk(signon, StripVersion); - - - /* - * Fill in our line protocol discipline, and register it - */ - if ((status = tty_register_ldisc(N_STRIP, &strip_ldisc))) - printk(KERN_ERR "STRIP: can't register line discipline (err = %d)\n", - status); - - /* - * Register the status file with /proc - */ - proc_net_fops_create(&init_net, "strip", S_IFREG | S_IRUGO, &strip_seq_fops); - - return status; -} - -module_init(strip_init_driver); - -static const char signoff[] __exitdata = - KERN_INFO "STRIP: Module Unloaded\n"; - -static void __exit strip_exit_driver(void) -{ - int i; - struct list_head *p,*n; - - /* module ref count rules assure that all entries are unregistered */ - list_for_each_safe(p, n, &strip_list) { - struct strip *s = list_entry(p, struct strip, list); - strip_free(s); - } - - /* Unregister with the /proc/net file here. */ - proc_net_remove(&init_net, "strip"); - - if ((i = tty_unregister_ldisc(N_STRIP))) - printk(KERN_ERR "STRIP: can't unregister line discipline (err = %d)\n", i); - - printk(signoff); -} - -module_exit(strip_exit_driver); - -MODULE_AUTHOR("Stuart Cheshire <cheshire@cs.stanford.edu>"); -MODULE_DESCRIPTION("Starmode Radio IP (STRIP) Device Driver"); -MODULE_LICENSE("Dual BSD/GPL"); - -MODULE_SUPPORTED_DEVICE("Starmode Radio IP (STRIP) modem"); |