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msg.h
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msg.h
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/**
* @file msg.h
* @brief Implements the various PTP message types.
* @note Copyright (C) 2011 Richard Cochran <[email protected]>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#ifndef HAVE_MSG_H
#define HAVE_MSG_H
#include <stdio.h>
#include <sys/queue.h>
#include <time.h>
#include <asm/byteorder.h>
#include "address.h"
#include "ddt.h"
#include "tlv.h"
#include "tmv.h"
/* Version definition for IEEE 1588-2019 */
#define PTP_MAJOR_VERSION 2
#define PTP_MINOR_VERSION 1
#define PTP_VERSION (PTP_MINOR_VERSION << 4 | PTP_MAJOR_VERSION)
#define MAJOR_VERSION_MASK 0x0f
/* Values for the transportSpecific field */
#define TS_IEEE_8021AS (1<<4)
#define TS_CMLDS (2<<4)
/* Values for the messageType field */
#define SYNC 0x0
#define DELAY_REQ 0x1
#define PDELAY_REQ 0x2
#define PDELAY_RESP 0x3
#define FOLLOW_UP 0x8
#define DELAY_RESP 0x9
#define PDELAY_RESP_FOLLOW_UP 0xA
#define ANNOUNCE 0xB
#define SIGNALING 0xC
#define MANAGEMENT 0xD
/* Bits for flagField[0] */
#define ALT_MASTER (1<<0)
#define TWO_STEP (1<<1)
#define UNICAST (1<<2)
/* Bits for flagField[1] */
#define LEAP_61 (1<<0)
#define LEAP_59 (1<<1)
#define UTC_OFF_VALID (1<<2)
#define PTP_TIMESCALE (1<<3)
#define TIME_TRACEABLE (1<<4)
#define FREQ_TRACEABLE (1<<5)
#define SYNC_UNCERTAIN (1<<6)
/*
* Signaling interval special values. For more info look at 802.1AS table 10-11
*/
#define SIGNAL_NO_CHANGE -128
#define SIGNAL_SET_INITIAL 126
enum timestamp_type {
TS_SOFTWARE,
TS_HARDWARE,
TS_LEGACY_HW,
TS_ONESTEP,
TS_P2P1STEP,
};
struct hw_timestamp {
enum timestamp_type type;
tmv_t ts;
tmv_t sw;
};
struct ptp_header {
uint8_t tsmt; /* transportSpecific | messageType */
uint8_t ver; /* minorVersionPTP | versionPTP */
UInteger16 messageLength;
UInteger8 domainNumber;
Octet reserved1;
Octet flagField[2];
Integer64 correction;
UInteger32 reserved2;
struct PortIdentity sourcePortIdentity;
UInteger16 sequenceId;
UInteger8 control;
Integer8 logMessageInterval;
} PACKED;
struct announce_msg {
struct ptp_header hdr;
struct Timestamp originTimestamp;
Integer16 currentUtcOffset;
Octet reserved;
UInteger8 grandmasterPriority1;
struct ClockQuality grandmasterClockQuality;
UInteger8 grandmasterPriority2;
struct ClockIdentity grandmasterIdentity;
UInteger16 stepsRemoved;
Enumeration8 timeSource;
uint8_t suffix[0];
} PACKED;
struct sync_msg {
struct ptp_header hdr;
struct Timestamp originTimestamp;
uint8_t suffix[0];
} PACKED;
struct delay_req_msg {
struct ptp_header hdr;
struct Timestamp originTimestamp;
uint8_t suffix[0];
} PACKED;
struct follow_up_msg {
struct ptp_header hdr;
struct Timestamp preciseOriginTimestamp;
uint8_t suffix[0];
} PACKED;
struct delay_resp_msg {
struct ptp_header hdr;
struct Timestamp receiveTimestamp;
struct PortIdentity requestingPortIdentity;
uint8_t suffix[0];
} PACKED;
struct pdelay_req_msg {
struct ptp_header hdr;
struct Timestamp originTimestamp;
struct PortIdentity reserved;
uint8_t suffix[0];
} PACKED;
struct pdelay_resp_msg {
struct ptp_header hdr;
struct Timestamp requestReceiptTimestamp;
struct PortIdentity requestingPortIdentity;
uint8_t suffix[0];
} PACKED;
struct pdelay_resp_fup_msg {
struct ptp_header hdr;
struct Timestamp responseOriginTimestamp;
struct PortIdentity requestingPortIdentity;
uint8_t suffix[0];
} PACKED;
struct signaling_msg {
struct ptp_header hdr;
struct PortIdentity targetPortIdentity;
uint8_t suffix[0];
} PACKED;
struct management_msg {
struct ptp_header hdr;
struct PortIdentity targetPortIdentity;
UInteger8 startingBoundaryHops;
UInteger8 boundaryHops;
uint8_t flags; /* reserved | actionField */
uint8_t reserved;
uint8_t suffix[0];
} PACKED;
struct message_data {
uint8_t buffer[1500];
} PACKED;
struct ptp_message {
union {
struct ptp_header header;
struct announce_msg announce;
struct sync_msg sync;
struct delay_req_msg delay_req;
struct follow_up_msg follow_up;
struct delay_resp_msg delay_resp;
struct pdelay_req_msg pdelay_req;
struct pdelay_resp_msg pdelay_resp;
struct pdelay_resp_fup_msg pdelay_resp_fup;
struct signaling_msg signaling;
struct management_msg management;
struct message_data data;
} PACKED;
/**/
int tail_room;
int refcnt;
TAILQ_ENTRY(ptp_message) list;
struct {
/**
* Contains the time stamp from the packet data in a
* native binary format for the host machine. The
* exact source of the time stamp's value depends on
* the message type:
*
* - announce originTimestamp
* - follow_up preciseOriginTimestamp
* - sync originTimestamp
* - delay_req originTimestamp
* - pdelay_resp requestReceiptTimestamp
* - pdelay_resp_fup responseOriginTimestamp
*/
struct timestamp pdu;
/**
* Approximate ingress time stamp using the relative
* CLOCK_MONOTONIC. Used to determine when announce
* messages have expired.
*/
struct timespec host;
} ts;
/**
* Contains the ingress time stamp obtained by the
* SO_TIMESTAMPING socket option.
*/
struct hw_timestamp hwts;
/**
* Contains the address this message was received from or should be
* sent to.
*/
struct address address;
/**
* List of TLV descriptors. Each item in the list contains
* pointers to the appended TLVs.
*/
TAILQ_HEAD(tlv_list, tlv_extra) tlv_list;
};
/**
* Obtain the action field from a management message.
* @param m A management message.
* @return The value of the action field.
*/
static inline uint8_t management_action(struct ptp_message *m)
{
return m->management.flags & 0x0f;
}
/**
* Obtain the data field from the TLV in a management message.
* @param m A management message.
* @return A pointer to the TLV data field.
*/
static inline void *management_tlv_data(struct ptp_message *msg)
{
struct management_tlv *mgt;
mgt = (struct management_tlv *) msg->management.suffix;
return mgt->data;
}
/**
* Obtain the managementId field from the TLV in a management message.
* @param m A management message.
* @return The value of the ID field.
*/
static inline int management_tlv_id(struct ptp_message *m)
{
struct management_tlv *mgt;
mgt = (struct management_tlv *) m->management.suffix;
return mgt->id;
}
/**
* Test a given bit in a message's flag field.
* @param m Message to test.
* @param index Index into flag field, either 0 or 1.
* @param bit Bit mask of one bit to test.
* @return One if bit is set, zero otherwise.
*/
static inline Boolean field_is_set(struct ptp_message *m, int index, Octet bit)
{
return m->header.flagField[index] & bit ? TRUE : FALSE;
}
/**
* Append a new TLV onto a message for transmission.
*
* This is a high level API designed for the transmit path. The
* function allocates a new descriptor, initializes its .tlv field,
* and ensures that the TLV will fit into the message buffer. This
* function increments the message length field by 'length' before
* returning.
*
* @param msg A message obtained using msg_allocate(). At a mininum,
* the message type and length fields must set by the caller.
* @param length The length of the TLV to append.
* @return A pointer to a TLV descriptor on success or NULL otherwise.
*/
struct tlv_extra *msg_tlv_append(struct ptp_message *msg, int length);
/**
* Place a TLV descriptor into a message's list of TLVs.
*
* @param msg A message obtained using msg_allocate().
* @param extra The TLV to be added to the list.
*/
void msg_tlv_attach(struct ptp_message *msg, struct tlv_extra *extra);
/**
* Copy list of TLVs from message that has gone through @ref msg_post_recv()
* to a network byte order duplicate message. This is useful for TC applications
* where any auth tlvs must be updated on the raw forwarded messages.
* @param msg A message obtained using @ref msg_allocate().
* The passed message must have been passed to @ref msg_post_recv()
* in order to have tlv pointers attached.
* @param dup A duplicate of msg that is still in network byte order.
* @return -1 if the messages do not match, otherwise 0
*/
int msg_tlv_copy(struct ptp_message *msg, struct ptp_message *dup);
/*
* Return the number of TLVs attached to a message.
* @param msg A message obtained using @ref msg_allocate().
* @return The number of attached TLVs.
*/
int msg_tlv_count(struct ptp_message *msg);
/**
* Obtain the transportSpecific field from a message.
* @param m Message to test.
* @return The value of the transportSpecific field. Note that the
* value is returned unshifted, in the upper nibble.
*/
static inline UInteger8 msg_transport_specific(struct ptp_message *m)
{
return m->header.tsmt & 0xf0;
}
/**
* Obtain the message type.
* @param m Message to test.
* @return The value of the messageType field.
*/
static inline int msg_type(const struct ptp_message *m)
{
return m->header.tsmt & 0x0f;
}
/**
* Allocate a new message instance.
*
* Messages are reference counted, and newly allocated messages have a
* reference count of one. Allocated messages are freed using the
* function @ref msg_put().
*
* @return Pointer to a message on success, NULL otherwise.
*/
struct ptp_message *msg_allocate(void);
/**
* Release all of the memory in the message cache.
*/
void msg_cleanup(void);
/**
* Duplicate a message instance.
*
* This function accepts a message in network byte order and returns a
* duplicate in host byte.
*
* Messages are reference counted, and newly allocated messages have a
* reference count of one. Allocated messages are freed using the
* function @ref msg_put().
*
* @param msg A message obtained using @ref msg_allocate().
* The passed message must be in network byte order, not
* having been passed to @ref msg_post_recv().
* @param cnt The size of 'msg' in bytes. set to zero when
* @ref msg_post_recv() is not required (icv calculation)
* @return Pointer to a message on success, NULL otherwise.
* The returned message will be in host byte order, having
* been passed to @ref msg_post_recv().
*/
struct ptp_message *msg_duplicate(struct ptp_message *msg, int cnt);
/**
* Obtain a reference to a message, increasing its reference count by one.
* @param m A message obtained using @ref msg_allocate().
*/
void msg_get(struct ptp_message *m);
/**
* Process messages after reception.
* @param m A message obtained using @ref msg_allocate().
* @param cnt The size of 'm' in bytes.
* @return Zero on success, non-zero if the message is invalid.
*/
int msg_post_recv(struct ptp_message *m, int cnt);
/**
* Prepare messages for transmission.
* @param m A message obtained using @ref msg_allocate().
* @return Zero on success, non-zero if the message is invalid.
*/
int msg_pre_send(struct ptp_message *m);
/**
* Print messages for debugging purposes.
* @param type Value of the messageType field as returned by @ref msg_type().
* @return String describing the message type.
*/
const char *msg_type_string(int type);
/**
* Print messages for debugging purposes.
* @param m A message obtained using @ref msg_allocate().
* @param fp An open file pointer.
*/
void msg_print(struct ptp_message *m, FILE *fp);
/**
* Release a reference to a message, decreasing its reference count by one.
* @param m A message obtained using @ref msg_allocate().
*/
void msg_put(struct ptp_message *m);
/**
* Test whether an event message received a valid SO_TIMESTAMPING time stamp.
* @param m Message to test.
* @return One if the message is an event without a time stamp, zero otherwise.
*/
int msg_sots_missing(struct ptp_message *m);
/**
* Test whether a message has a valid SO_TIMESTAMPING time stamp.
* @param m Message to test.
* @return One if the message has a valid time stamp, zero otherwise.
*/
static inline int msg_sots_valid(struct ptp_message *m)
{
return !tmv_is_zero(m->hwts.ts);
}
/**
* Test whether a message is a unicast message.
* @param m Message to test.
* @return One if the message is unicast, zero otherwise.
*/
static inline Boolean msg_unicast(struct ptp_message *m)
{
return field_is_set(m, 0, UNICAST);
}
/**
* Work around HW assuming PTP message version 2.0
*/
extern uint8_t ptp_hdr_ver;
/**
* Work around buggy 802.1AS switches.
*/
extern int assume_two_step;
/**
* Test whether a message is one-step message.
* @param m Message to test.
* @return One if the message is a one-step, zero otherwise.
*/
static inline Boolean one_step(struct ptp_message *m)
{
if (assume_two_step)
return 0;
return !field_is_set(m, 0, TWO_STEP);
}
/**
* Convert a 64 bit word into network byte order.
*/
static inline int64_t host2net64(int64_t val)
{
return __cpu_to_be64(val);
}
/**
* Convert a 64 bit word into host byte order.
*/
static inline int64_t net2host64(int64_t val)
{
return __be64_to_cpu(val);
}
#endif