Return-Path: Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S932548Ab1CRRqv (ORCPT ); Fri, 18 Mar 2011 13:46:51 -0400 Received: from mail6.webfaction.com ([74.55.86.74]:60654 "EHLO smtp.webfaction.com" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S932510Ab1CRRq3 (ORCPT ); Fri, 18 Mar 2011 13:46:29 -0400 From: Tony Ibbs To: lkml Cc: Linux-embedded , Tibs at Kynesim , Richard Watts , Grant Likely , Tony Ibbs Subject: [PATCH 02/11] KBUS external header file. Date: Fri, 18 Mar 2011 17:21:11 +0000 Message-Id: <979f23cd5f8a9ac727f17ad359ee487cbccbf7f6.1300450604.git.tibs@tonyibbs.co.uk> X-Mailer: git-send-email 1.7.4.1 In-Reply-To: <273ee9658cbcbe19adfa0d7b30082d8966e70afc.1300450604.git.tibs@tonyibbs.co.uk> References: <273ee9658cbcbe19adfa0d7b30082d8966e70afc.1300450604.git.tibs@tonyibbs.co.uk> In-Reply-To: References: Sender: linux-kernel-owner@vger.kernel.org List-ID: X-Mailing-List: linux-kernel@vger.kernel.org Content-Length: 23331 Lines: 635 This defines the message datastructures, the IOCTLs, etc. Signed-off-by: Tony Ibbs --- include/linux/kbus_defns.h | 613 ++++++++++++++++++++++++++++++++++++++++++++ 1 files changed, 613 insertions(+), 0 deletions(-) create mode 100644 include/linux/kbus_defns.h diff --git a/include/linux/kbus_defns.h b/include/linux/kbus_defns.h new file mode 100644 index 0000000..d43c498 --- /dev/null +++ b/include/linux/kbus_defns.h @@ -0,0 +1,613 @@ +/* Kbus kernel module external headers + * + * This file provides the definitions (datastructures and ioctls) needed to + * communicate with the KBUS character device driver. + */ + +/* + * ***** BEGIN LICENSE BLOCK ***** + * Version: MPL 1.1 + * + * The contents of this file are subject to the Mozilla Public License Version + * 1.1 (the "License"); you may not use this file except in compliance with + * the License. You may obtain a copy of the License at + * http://www.mozilla.org/MPL/ + * + * Software distributed under the License is distributed on an "AS IS" basis, + * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License + * for the specific language governing rights and limitations under the + * License. + * + * The Original Code is the KBUS Lightweight Linux-kernel mediated + * message system + * + * The Initial Developer of the Original Code is Kynesim, Cambridge UK. + * Portions created by the Initial Developer are Copyright (C) 2009 + * the Initial Developer. All Rights Reserved. + * + * Contributor(s): + * Kynesim, Cambridge UK + * Tony Ibbs + * + * Alternatively, the contents of this file may be used under the terms of the + * GNU Public License version 2 (the "GPL"), in which case the provisions of + * the GPL are applicable instead of the above. If you wish to allow the use + * of your version of this file only under the terms of the GPL and not to + * allow others to use your version of this file under the MPL, indicate your + * decision by deleting the provisions above and replace them with the notice + * and other provisions required by the GPL. If you do not delete the + * provisions above, a recipient may use your version of this file under either + * the MPL or the GPL. + * + * ***** END LICENSE BLOCK ***** + */ + +#ifndef _kbus_defns +#define _kbus_defns + +#if !__KERNEL__ && defined(__cplusplus) +extern "C" { +#endif + +#if __KERNEL__ +#include +#include +#else +#include +#include +#endif + +/* + * A message id is made up of two fields. + * + * If the network id is 0, then it is up to us (KBUS) to assign the + * serial number. In other words, this is a local message. + * + * If the network id is non-zero, then this message is presumed to + * have originated from another "network", and we preserve both the + * network id and the serial number. + * + * The message id {0,0} is special and reserved (for use by KBUS). + */ +struct kbus_msg_id { + __u32 network_id; + __u32 serial_num; +}; + +/* + * kbus_orig_from is used for the "originally from" and "finally to" ids + * in the message header. These in turn are used when messages are + * being sent between KBUS systems (via KBUS "Limpets"). KBUS the kernel + * module transmits them, unaltered, but does not use them (although + * debug messages may report them). + * + * An "originally from" or "finally to" id is made up of two fields, the + * network id (which indicates the Limpet, if any, that originally gated the + * message), and a local id, which is the Ksock id of the original sender + * of the message, on its local KBUS. + * + * If the network id is 0, then the "originally from" id is not being used. + * + * Limpets and these fields are discussed in more detail in the userspace + * KBUS documentation - see http://kbus-messaging.org/ for pointers to + * more information. + */ +struct kbus_orig_from { + __u32 network_id; + __u32 local_id; +}; + +/* When the user asks to bind a message name to an interface, they use: */ +struct kbus_bind_request { + __u32 is_replier; /* are we a replier? */ + __u32 name_len; + char *name; +}; + +/* When the user requests the id of the replier to a message, they use: */ +struct kbus_bind_query { + __u32 return_id; + __u32 name_len; + char *name; +}; + +/* When the user writes/reads a message, they use: */ +struct kbus_message_header { + /* + * The guards + * ---------- + * + * * 'start_guard' is notionally "Kbus", and 'end_guard' (the 32 bit + * word after the rest of the message datastructure) is notionally + * "subK". Obviously that depends on how one looks at the 32-bit + * word. Every message datastructure shall start with a start guard + * and end with an end guard. + * + * These provide some help in checking that a message is well formed, + * and in particular the end guard helps to check for broken length + * fields. + * + * - 'id' identifies this particular message. + * + * When a user writes a new message, they should set this to {0,0}. + * KBUS will then set a new message id for the message. + * + * When a user reads a message, this will have been set by KBUS. + * + * When a user replies to a message, they should copy this value + * into the 'in_reply_to' field, so that the recipient will know + * what message this was a reply to. + * + * - 'in_reply_to' identifies the message this is a reply to. + * + * This shall be set to {0,0} unless this message *is* a reply to a + * previous message. In other words, if this value is non-0, then + * the message *is* a reply. + * + * - 'to' is who the message is to be sent to. + * + * When a user writes a new message, this should normally be set + * to {0,0}, meaning "anyone listening" (but see below if "state" + * is being maintained). + * + * When replying to a message, it shall be set to the 'from' value + * of the orginal message. + * + * When constructing a request message (a message wanting a reply), + * the user can set it to a specific replier id, to produce a stateful + * request. This is normally done by copying the 'from' of a previous + * Reply from the appropriate replier. When such a message is sent, + * if the replier bound (at that time) does not have that specific + * id, then the send will fail. + * + * Note that if 'to' is set, then 'orig_from' should also be set. + * + * - 'from' indicates who sent the message. + * + * When a user is writing a new message, they should set this + * to {0,0}. + * + * When a user is reading a message, this will have been set + * by KBUS. + * + * When a user replies to a message, the reply should have its + * 'to' set to the original messages 'from', and its 'from' set + * to {0,0} (see the "hmm" caveat under 'to' above, though). + * + * - 'orig_from' and 'final_to' are used when Limpets are mediating + * KBUS messages between KBUS devices (possibly on different + * machines). See the description by the datastructure definition + * above. The KBUS kernel preserves and propagates their values, + * but does not alter or use them. + * + * - 'extra' is currently unused, and KBUS will set it to zero. + * Future versions of KBUS may treat it differently. + * + * - 'flags' indicates the type of message. + * + * When a user writes a message, this can be used to indicate + * that: + * + * * the message is URGENT + * * a reply is wanted + * + * When a user reads a message, this indicates if: + * + * * the message is URGENT + * * a reply is wanted + * + * When a user writes a reply, this field should be set to 0. + * + * The top half of the 'flags' is not touched by KBUS, and may + * be used for any purpose the user wishes. + * + * - 'name_len' is the length of the message name in bytes. + * + * This must be non-zero. + * + * - 'data_len' is the length of the message data in bytes. It may be + * zero if there is no data. + * + * - 'name' is a pointer to the message name. This should be null + * terminated, as is the normal case for C strings. + * + * NB: If this is zero, then the name will be present, but after + * the end of this datastructure, and padded out to a multiple of + * four bytes (see kbus_entire_message). When doing this padding, + * remember to allow for the terminating null byte. If this field is + * zero, then 'data' shall also be zero. + * + * - 'data' is a pointer to the data. If there is no data (if + * 'data_len' is zero), then this shall also be zero. The data is + * not touched by KBUS, and may include any values. + * + * NB: If this is zero, then the data will occur immediately + * after the message name, padded out to a multiple of four bytes. + * See the note for 'name' above. + * + */ + __u32 start_guard; + struct kbus_msg_id id; /* Unique to this message */ + struct kbus_msg_id in_reply_to; /* Which message this is a reply to */ + __u32 to; /* 0 (empty) or a replier id */ + __u32 from; /* 0 (KBUS) or the sender's id */ + struct kbus_orig_from orig_from;/* Cross-network linkage */ + struct kbus_orig_from final_to; /* Cross-network linkage */ + __u32 extra; /* ignored field - future proofing */ + __u32 flags; /* Message type/flags */ + __u32 name_len; /* Message name's length, in bytes */ + __u32 data_len; /* Message length, also in bytes */ + char *name; + void *data; + __u32 end_guard; +}; + +#define KBUS_MSG_START_GUARD 0x7375624B +#define KBUS_MSG_END_GUARD 0x4B627573 + +/* + * When a message is returned by 'read', it is actually returned using the + * following datastructure, in which: + * + * - 'header.name' will point to 'rest[0]' + * - 'header.data' will point to 'rest[(header.name_len+3)/4]' + * + * followed by the name (padded to 4 bytes, remembering to allow for the + * terminating null byte), followed by the data (padded to 4 bytes) followed by + * (another) end_guard. + */ +struct kbus_entire_message { + struct kbus_message_header header; + __u32 rest[]; +}; + +/* + * We limit a message name to at most 1000 characters (some limit seems + * sensible, after all) + */ +#define KBUS_MAX_NAME_LEN 1000 + +/* + * The length (in bytes) of the name after padding, allowing for a terminating + * null byte. + */ +#define KBUS_PADDED_NAME_LEN(name_len) (4 * ((name_len + 1 + 3) / 4)) + +/* + * The length (in bytes) of the data after padding + */ +#define KBUS_PADDED_DATA_LEN(data_len) (4 * ((data_len + 3) / 4)) + +/* + * Given name_len (in bytes) and data_len (in bytes), return the + * length of the appropriate kbus_entire_message_struct, in bytes + * + * Note that we're allowing for a zero byte after the end of the message name. + * + * Remember that "sizeof" doesn't count the 'rest' field in our message + * structure. + */ +#define KBUS_ENTIRE_MSG_LEN(name_len, data_len) \ + (sizeof(struct kbus_entire_message) + \ + KBUS_PADDED_NAME_LEN(name_len) + \ + KBUS_PADDED_DATA_LEN(data_len) + 4) + +/* + * The message name starts at entire->rest[0]. + * The message data starts after the message name - given the message + * name's length (in bytes), that is at index: + */ +#define KBUS_ENTIRE_MSG_DATA_INDEX(name_len) ((name_len+1+3)/4) +/* + * Given the message name length (in bytes) and the message data length (also + * in bytes), the index of the entire message end guard is thus: + */ +#define KBUS_ENTIRE_MSG_END_GUARD_INDEX(name_len, data_len) \ + ((name_len+1+3)/4 + (data_len+3)/4) + +/* + * Find a pointer to the message's name. + * + * It's either the given name pointer, or just after the header (if the pointer + * is NULL) + */ +static inline char *kbus_msg_name_ptr(const struct kbus_message_header + *hdr) +{ + if (hdr->name) { + return hdr->name; + } else { + struct kbus_entire_message *entire; + entire = (struct kbus_entire_message *)hdr; + return (char *)&entire->rest[0]; + } +} + +/* + * Find a pointer to the message's data. + * + * It's either the given data pointer, or just after the name (if the pointer + * is NULL) + */ +static inline void *kbus_msg_data_ptr(const struct kbus_message_header + *hdr) +{ + if (hdr->data) { + return hdr->data; + } else { + struct kbus_entire_message *entire; + __u32 data_idx; + + entire = (struct kbus_entire_message *)hdr; + data_idx = KBUS_ENTIRE_MSG_DATA_INDEX(hdr->name_len); + return (void *)&entire->rest[data_idx]; + } +} + +/* + * Find a pointer to the message's (second/final) end guard. + */ +static inline __u32 *kbus_msg_end_ptr(struct kbus_entire_message + *entire) +{ + __u32 end_guard_idx = + KBUS_ENTIRE_MSG_END_GUARD_INDEX(entire->header.name_len, + entire->header.data_len); + return (__u32 *) &entire->rest[end_guard_idx]; +} + +/* + * Things KBUS changes in a message + * -------------------------------- + * In general, KBUS leaves the content of a message alone. However, it does + * change: + * + * - the message id (if id.network_id is unset - it assigns a new serial + * number unique to this message) + * - the from id (if from.network_id is unset - it sets the local_id to + * indicate the Ksock this message was sent from) + * - the KBUS_BIT_WANT_YOU_TO_REPLY bit in the flags (set or cleared + * as appropriate) + * - the SYNTHETIC bit, which KBUS will always unset in a user message + */ + +/* + * Flags for the message 'flags' word + * ---------------------------------- + * The KBUS_BIT_WANT_A_REPLY bit is set by the sender to indicate that a + * reply is wanted. This makes the message into a request. + * + * Note that setting the WANT_A_REPLY bit (i.e., a request) and + * setting 'in_reply_to' (i.e., a reply) is bound to lead to + * confusion, and the results are undefined (i.e., don't do it). + * + * The KBUS_BIT_WANT_YOU_TO_REPLY bit is set by KBUS on a particular message + * to indicate that the particular recipient is responsible for replying + * to (this instance of the) message. Otherwise, KBUS clears it. + * + * The KBUS_BIT_SYNTHETIC bit is set by KBUS when it generates a synthetic + * message (an exception, if you will), for instance when a replier has + * gone away and therefore a reply will never be generated for a request + * that has already been queued. + * + * Note that KBUS does not check that a sender has not set this + * on a message, but doing so may lead to confusion. + * + * The KBUS_BIT_URGENT bit is set by the sender if this message is to be + * treated as urgent - i.e., it should be added to the *front* of the + * recipient's message queue, not the back. + * + * Send flags + * ========== + * There are two "send" flags, KBUS_BIT_ALL_OR_WAIT and KBUS_BIT_ALL_OR_FAIL. + * Either one may be set, or both may be unset. + * + * If both bits are set, the message will be rejected as invalid. + * + * Both flags are ignored in reply messages (i.e., messages with the + * 'in_reply_to' field set). + * + * If both are unset, then a send will behave in the default manner. That is, + * the message will be added to a listener's queue if there is room but + * otherwise the listener will (silently) not receive the message. + * + * (Obviously, if the listener is a replier, and the message is a request, + * then a KBUS message will be synthesised in the normal manner when a + * request is lost.) + * + * If the KBUS_BIT_ALL_OR_WAIT bit is set, then a send should block until + * all recipients can be sent the message. Specifically, before the message is + * sent, all recipients must have room on their message queues for this + * message, and if they do not, the send will block until there is room for the + * message on all the queues. + * + * If the KBUS_BIT_ALL_OR_FAIL bit is set, then a send should fail if all + * recipients cannot be sent the message. Specifically, before the message is + * sent, all recipients must have room on their message queues for this + * message, and if they do not, the send will fail. + */ + +/* + * When a $.KBUS.ReplierBindEvent message is constructed, we use the + * following to encapsulate its data. + * + * This indicates whether it is a bind or unbind event, who is doing the + * bind or unbind, and for what message name. The message name is padded + * out to a multiple of four bytes, allowing for a terminating null byte, + * but the name length is the length without said padding (so, in C terms, + * strlen(name)). + * + * As for the message header data structure, the actual data "goes off the end" + * of the datastructure. + */ +struct kbus_replier_bind_event_data { + __u32 is_bind; /* 1=bind, 0=unbind */ + __u32 binder; /* Ksock id of binder */ + __u32 name_len; /* Length of name */ + __u32 rest[]; /* Message name */ +}; + +#if !__KERNEL__ +#define BIT(num) (((unsigned)1) << (num)) +#endif + +#define KBUS_BIT_WANT_A_REPLY BIT(0) +#define KBUS_BIT_WANT_YOU_TO_REPLY BIT(1) +#define KBUS_BIT_SYNTHETIC BIT(2) +#define KBUS_BIT_URGENT BIT(3) + +#define KBUS_BIT_ALL_OR_WAIT BIT(8) +#define KBUS_BIT_ALL_OR_FAIL BIT(9) + +/* + * Standard message names + * ====================== + * KBUS itself has some predefined message names. + * + * Synthetic Replies with no data + * ------------------------------ + * These are sent to the original Sender of a Request when KBUS knows that the + * Replier is not going to Reply. In all cases, you can identify which message + * they concern by looking at the "in_reply_to" field: + * + * * Replier.GoneAway - the Replier has gone away before reading the Request. + * * Replier.Ignored - the Replier has gone away after reading a Request, but + * before replying to it. + * * Replier.Unbound - the Replier has unbound (as Replier) from the message + * name, and is thus not going to reply to this Request in its unread message + * queue. + * * Replier.Disappeared - the Replier has disappeared when an attempt is made + * to send a Request whilst polling (i.e., after EAGAIN was returned from an + * earlier attempt to send a message). This typically means that the Ksock + * bound as Replier closed. + * * ErrorSending - an unexpected error occurred when trying to send a Request + * to its Replier whilst polling. + */ +#define KBUS_MSG_NAME_REPLIER_GONEAWAY "$.KBUS.Replier.GoneAway" +#define KBUS_MSG_NAME_REPLIER_IGNORED "$.KBUS.Replier.Ignored" +#define KBUS_MSG_NAME_REPLIER_UNBOUND "$.KBUS.Replier.Unbound" +#define KBUS_MSG_NAME_REPLIER_DISAPPEARED "$.KBUS.Replier.Disappeared" +#define KBUS_MSG_NAME_ERROR_SENDING "$.KBUS.ErrorSending" + +#define KBUS_IOC_MAGIC 'k' /* 0x6b - which seems fair enough for now */ +/* + * RESET: reserved for future use + */ +#define KBUS_IOC_RESET _IO(KBUS_IOC_MAGIC, 1) +/* + * BIND - bind a Ksock to a message name + * arg: struct kbus_bind_request, indicating what to bind to + * retval: 0 for success, negative for failure + */ +#define KBUS_IOC_BIND _IOW(KBUS_IOC_MAGIC, 2, char *) +/* + * UNBIND - unbind a Ksock from a message id + * arg: struct kbus_bind_request, indicating what to unbind from + * retval: 0 for success, negative for failure + */ +#define KBUS_IOC_UNBIND _IOW(KBUS_IOC_MAGIC, 3, char *) +/* + * KSOCKID - determine a Ksock's Ksock id + * + * The network_id for the current Ksock is, by definition, 0, so we don't need + * to return it. + * + * arg (out): __u32, indicating this Ksock's local_id + * retval: 0 for success, negative for failure + */ +#define KBUS_IOC_KSOCKID _IOR(KBUS_IOC_MAGIC, 4, char *) +/* + * REPLIER - determine the Ksock id of the replier for a message name + * arg: struct kbus_bind_query + * + * - on input, specify the message name to ask about. + * - on output, KBUS fills in the relevant Ksock id in the return_value, + * or 0 if there is no bound replier + * + * retval: 0 for success, negative for failure + */ +#define KBUS_IOC_REPLIER _IOWR(KBUS_IOC_MAGIC, 5, char *) +/* + * NEXTMSG - pop the next message from the read queue + * arg (out): __u32, number of bytes in the next message, 0 if there is no + * next message + * retval: 0 for success, negative for failure + */ +#define KBUS_IOC_NEXTMSG _IOR(KBUS_IOC_MAGIC, 6, char *) +/* + * LENLEFT - determine how many bytes are left to read of the current message + * arg (out): __u32, number of bytes left, 0 if there is no current read + * message + * retval: 1 if there was a message, 0 if there wasn't, negative for failure + */ +#define KBUS_IOC_LENLEFT _IOR(KBUS_IOC_MAGIC, 7, char *) +/* + * SEND - send the current message + * arg (out): struct kbus_msg_id, the message id of the sent message + * retval: 0 for success, negative for failure + */ +#define KBUS_IOC_SEND _IOR(KBUS_IOC_MAGIC, 8, char *) +/* + * DISCARD - discard the message currently being written (if any) + * arg: none + * retval: 0 for success, negative for failure + */ +#define KBUS_IOC_DISCARD _IO(KBUS_IOC_MAGIC, 9) +/* + * LASTSENT - determine the message id of the last message SENT + * arg (out): struct kbus_msg_id, {0,0} if there was no last message + * retval: 0 for success, negative for failure + */ +#define KBUS_IOC_LASTSENT _IOR(KBUS_IOC_MAGIC, 10, char *) +/* + * MAXMSGS - set the maximum number of messages on a Ksock read queue + * arg (in): __u32, the requested length of the read queue, or 0 to just + * request how many there are + * arg (out): __u32, the length of the read queue after this call has + * succeeded + * retval: 0 for success, negative for failure + */ +#define KBUS_IOC_MAXMSGS _IOWR(KBUS_IOC_MAGIC, 11, char *) +/* + * NUMMSGS - determine how many messages are in the read queue for this Ksock + * arg (out): __u32, the number of messages in the read queue. + * retval: 0 for success, negative for failure + */ +#define KBUS_IOC_NUMMSGS _IOR(KBUS_IOC_MAGIC, 12, char *) +/* + * UNREPLIEDTO - determine the number of requests (marked "WANT_YOU_TO_REPLY") + * which we still need to reply to. + * arg(out): __u32, said number + * retval: 0 for success, negative for failure + */ +#define KBUS_IOC_UNREPLIEDTO _IOR(KBUS_IOC_MAGIC, 13, char *) + +/* + * IOCTL 14 is not used, because it is introduced in the next revision, + * (obviously, in real history this was done in a different order) and + * I don't want to alter the number for VERBOSE. + */ + +/* + * VERBOSE - should KBUS output verbose "printk" messages (for this device)? + * + * This IOCTL tells a Ksock whether it should output debugging messages. It is + * only effective if the kernel module has been built with the VERBOSE_DEBUGGING + * flag set. + * + * arg(in): __u32, 1 to change to "verbose", 0 to change to "quiet", + * 0xFFFFFFFF to just return the current/previous state. + * arg(out): __u32, the previous state. + * retval: 0 for success, negative for failure (-EINVAL if arg in was not one + * of the specified values) + */ +#define KBUS_IOC_VERBOSE _IOWR(KBUS_IOC_MAGIC, 15, char *) + +/* If adding another IOCTL, remember to increment the next number! */ +#define KBUS_IOC_MAXNR 15 + +#if !__KERNEL__ && defined(__cplusplus) +} +#endif + +#endif /* _kbus_defns */ -- 1.7.4.1 -- To unsubscribe from this list: send the line "unsubscribe linux-kernel" in the body of a message to majordomo@vger.kernel.org More majordomo info at http://vger.kernel.org/majordomo-info.html Please read the FAQ at http://www.tux.org/lkml/