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agwpesocket.c
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agwpesocket.c
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/* **************************************************************** *
* *
* APRX -- 2nd generation APRS iGate and digi with *
* minimal requirement of esoteric facilities or *
* libraries of any kind beyond UNIX system libc. *
* *
* (c) Matti Aarnio - OH2MQK, 2007-2014 *
* *
* **************************************************************** */
#include "aprx.h"
#ifdef ENABLE_AGWPE
/*** AGWPE interface description from Xastir + AGWPE documents.
*** As those documents are unclear, I am using Xastir to supply
*** clue as to what really needs to be done.
// How to Start your application and register with AGW Packet Engine
// First of all create a stream socket and connect with
// AGW Packet Engine ip address at port 8000.
// If your application is running at the same machine with
// AGWPE then as ip address use localhost (127.0.0.1).
//
// After connecting you need to register your application's
// callsign if your application need to establish AX.25 connections.
// If your application just do monitoring and sends Unproto frames,
// no need for callsign registration.
// You can register as many as 100 different callsigns.
// If you register a callsign then AGW Packet Engine accepts AX.25
// connections for this call.
// You then ask AGWPE to send you the radioport information.
// How many radioports are with their description.
// After that you can create your windows or anything else.
//
// Now you are ready.
// If you wish to do monitoring then you must enable monitoring.
// Transmit a special frame in Raw AX25 format
//
// The frame must be in RAW AX25 format as should be txed by
// the modem (no need for bit stuffing etc)
// You can use this function to tx for instance an unproto
// frame with a special PID or any other frame different from normal AX25 Format.
//
// Port field is the port where we want the data to tx
// DataKind field = MAKELONG('K',0); The ASCII value of letter K
// CallFrom empty (NULL)
// CallTo empty (NULL)
// DataLen is the length of the data that follow
// USER is Undefined
//
// the whole frame with the header is
//
// [ HEADER ]
// [port][DataKind][CallFrom][CallTo ][DataLen][USER][Data ]
// 4bytes 4bytes 10bytes 10bytes 4bytes 4bytes DataLen Bytes
//
// ASK RadioPorts Number and descriptions
//
// Port field must be 0
// DataKind field =MAKELONG('G',0); The ASCII value of letter G
// CallFrom is empty (NULL)
// CallTo is empty(NULL)
// DataLen must be 0
// USER is undefined
// No data field must exists
// [ HEADER ]
// [port][DataKind][CallFrom][CallTo ][DataLen][USER]
// 4bytes 4bytes 10bytes 10bytes 4bytes 4bytes
//
// ASK To start receiving AX25 RAW Frames
//
// Sending again thos command will disable this service.
// You can start and stop this service any times you needed
//
// Port field no needed set it to 0
// DataKind field =MAKELONG('k',0); The ASCII value of lower case letter k
// CallFrom is empty no needed
// CallTo is empty no needed
// DataLen must be 0
// USER is undefined
// No data field must be present
//
// the whole frame with the header is
//
// [ HEADER ]
// [port][DataKind][CallFrom][CallTo ][DataLen][USER]
// 4bytes 4bytes 10bytes 10bytes 4bytes 4bytes
// Raw AX25 Frames
//
// You can receive RAW AX25 frames if you enable this service.
// Those frames are all the packet valid frames received from
// any radioport. The frame is exactly the same as the pure
// AX25 frame with the follow additions.
//
// The first byte always contains the radioport number 0 for 1st radioport.
// There is no FCS field at the end of the frame.
// There is no bit stuffing.
// The LOWORD Port field is the port which heard the frame
// The LOWORD DataKind field ='K'; The ASCII value of letter K
// CallFrom the callsign of the station who TX the frame(Source station)
// CallTo The callsign of the destination station
// DataLen is the length of the DATA field(the length of the frame
// USER is undefined.
// the whole frame with the header is
// [port][DataKind][CallFrom][CallTo ][DataLen][USER][DATA ]
// 4bytes 4bytes 10bytes 10bytes 4bytes 4bytes DataLen Bytes
// 1.UNPROTO monitor frame
//
// The LOWORD Port field is the port which heard the frame
// The LOWORD DataKind field ='U'; The ASCII value of letter U
// CallFrom= is the call from the station we heard the Packet
// CallTo =is the destination call (CQ,BEACON etc)
// DataLen= is the length of the data that follow
// the whole frame with the header is
// [port][DataKind][CallFrom][CallTo ][DataLen][USER][Data ]
// 4bytes 4bytes 10bytes 10bytes 4bytes 4bytes DataLen Bytes
// 4.RadioPort information
//
// The LOWORD Port field is always 0
// The LOWORD DataKind field ='G'; The ASCII value of letter G
// CallFrom empty(NULL)
// CallTo empty(NULL)
// DataLen is the length of the data that follow
// USER is undefined
// the whole frame with the header is
// [port][DataKind][CallFrom][CallTo ][DataLen][USER][Data ]
// 4bytes 4bytes 10bytes 10bytes 4bytes 4bytes DataLen Bytes
// the data field format is as follow in plain text
// howmany ports ;1st radioport description;2nd radioport;....;last radioport describtion
// like
// 2;TNC2 on serialport 1;OE5DXL on serialport2;
// We have here 2 radioports. The separator is the ';'
// 10. Reply to a 'G' command. This frame returns the radioport number
// and description
//
// Port field is always 0
// LOWORD DataKind field ='G'. The ASCII value of letter G
// CallFrom is empty (NULL)
// CallTo is empty(NULL)
// DataLen =The number of bytes of DATA field
// USER is undefined
// DATA field conatins the radioport description
// [ HEADER ]
// [port][DataKind][CallFrom][CallTo ][DataLen][USER] [DATA]
// 4bytes 4bytes 10bytes 10bytes 4bytes 4bytes Datalen bytes.
//
// The DATA field is organised as follow and is in plain ASCII.
//
// Number of Radioports;First radioport description(Friendlyname);Second radioport description(Friendly name)...........
//
// Number of radioports=a Decimal Value. A value of 3 means 3 radioports
// Radioport description= A string that describes the radioport.
// The separator between fields is the letter ';'.
// Just parse the whole DATA field and use as separator the ';'
//
// Xastir parses integer data like this: That is, it is LITTLE ENDIAN
//
// Fetch the length of the data portion of the packet
// data_length = (unsigned char)(input_string[31]);
// data_length = (data_length << 8) + (unsigned char)(input_string[30]);
// data_length = (data_length << 8) + (unsigned char)(input_string[29]);
// data_length = (data_length << 8) + (unsigned char)(input_string[28]);
//
***/
// Socket communication packet header
struct agwpeheader {
uint32_t radioPort; // 0..3
uint32_t dataKind; // 4..7
uint8_t fromCall[10]; // 8..17
uint8_t toCall[10]; // 18..27
uint32_t dataLength; // 28..31
uint32_t userField; // 32..35
};
struct agwpesocket; // forward declarator
// One agwpecom per connection to AGWPE
struct agwpecom {
int fd;
struct timeval wait_until;
const struct netresolver *netaddr;
int socketscount;
const struct agwpesocket **sockets;
int wrlen;
int wrcursor;
int rdneed; // this much in rdbuf before decision
int rdlen;
int rdcursor;
uint8_t wrbuf[4196];
uint8_t rdbuf[4196];
};
// One agwpesocket per interface
struct agwpesocket {
int portnum;
const struct aprx_interface *iface;
struct agwpecom *com;
};
static struct agwpecom **pecom;
static int pecomcount;
static uint32_t get_le32(uint8_t *u) {
return (u[3] << 24 |
u[2] << 16 |
u[1] << 8 |
u[0]);
}
static void set_le32(uint8_t *u, uint32_t value) {
u[0] = (uint8_t)value;
value >>= 8;
u[1] = (uint8_t)value;
value >>= 8;
u[2] = (uint8_t)value;
value >>= 8;
u[3] = (uint8_t)value;
}
static struct agwpecom *agwpe_find_or_add_com(const char *hostname, const char *hostport)
{
struct agwpecom *com;
int i;
for (i = 0; i < pecomcount; ++i) {
com = pecom[i];
if (strcasecmp(hostname,com->netaddr->hostname) == 0 &&
strcasecmp(hostport,com->netaddr->port) == 0) {
return com; // Found it!
}
}
// Did not find it, create it..
com = calloc(1, sizeof(*com));
com->fd = -1;
com->netaddr = netresolv_add(hostname, hostport);
com->rdneed = sizeof(struct agwpeheader);
tv_timeradd_millis(&com->wait_until, &tick, 30000); // redo in 30 seconds or so
++pecomcount;
pecom = realloc(pecom, sizeof(void*)*pecomcount);
pecom[pecomcount-1] = com;
return com;
}
void *agwpe_addport(const char *hostname, const char *hostport, const char *agwpeport, const struct aprx_interface *interface)
{
int agwpeportnum = atoi(agwpeport);
struct agwpesocket *S;
struct agwpecom *com;
if (agwpeportnum < 1 || agwpeportnum > 999) {
if (debug)
printf("ERROR: Bad AGWPE port number value, accepted range: 1 to 999\n");
return NULL;
}
S = calloc(1, sizeof(*S));
com = agwpe_find_or_add_com(hostname, hostport);
com->socketscount++;
com->sockets = realloc(com->sockets, sizeof(void*)*com->socketscount);
com->sockets[com->socketscount-1] = S;
S->iface = interface;
S->com = com;
S->portnum = agwpeportnum-1;
return S;
}
// close the AGWPE communication socket, retry its call at some point latter
static void agwpe_reset(struct agwpecom *com, const char *why)
{
com->wrlen = com->wrcursor = 0;
tv_timeradd_millis(&com->wait_until, &tick, 30000); // redo in 30 seconds or so
if (debug>1)
printf("Resetting AGWPE socket; %s\n", why);
if (com->fd < 0) {
// Should not happen..
return;
}
close(com->fd);
com->fd = -1;
}
/*
* agwpe_flush() -- write out buffered data - at least partially
*/
static void agwpe_flush(struct agwpecom *com)
{
int i, len;
if (com->fd < 0) return; // nothing to do!
if ((com->wrlen == 0) || (com->wrlen > 0 && com->wrcursor >= com->wrlen)) {
com->wrlen = com->wrcursor = 0; /* already all written */
return;
}
/* Now there is some data in between wrcursor and wrlen */
#ifndef MSG_NOSIGNAL
# define MSG_NOSIGNAL 0 /* This exists only on Linux */
#endif
len = com->wrlen - com->wrcursor;
if (len > 0) {
i = send(com->fd, com->wrbuf + com->wrcursor, len, MSG_NOSIGNAL);
/* No SIGPIPE if the
receiver is out,
or pipe is full
because it is doing
slow reconnection. */
} else
i = 0;
if (i < 0 && (errno == EPIPE ||
errno == ECONNRESET ||
errno == ECONNREFUSED ||
errno == ENOTCONN)) {
/* Sending failed, reset it.. */
agwpe_reset(com,"write to remote closed socket");
return;
}
if (i > 0) { /* wrote something */
com->wrcursor += i;
len = com->wrlen - com->wrcursor;
if (len == 0) {
com->wrcursor = com->wrlen = 0; /* wrote all ! */
} else {
/* compact the buffer a bit */
memcpy(com->wrbuf, com->wrbuf + com->wrcursor, len);
com->wrcursor = 0;
com->wrlen = len;
}
}
}
void agwpe_sendto(const void *_ap, const uint8_t *axaddr, const int axaddrlen, const char *axdata, const int axdatalen) {
struct agwpesocket *agwpe = (struct agwpesocket*)_ap;
struct agwpecom *com = agwpe->com;
int space = sizeof(com->wrbuf) - com->wrlen;
struct agwpeheader hdr;
if (debug) {
// printf("agwpe_sendto(->%s, axlen=%d)", S->ttycallsign[tncid], ax25rawlen);
}
if (com->fd < 0) {
if (debug)
printf("NOTE: Write to non-open AGWPE socket discarded.");
return;
}
agwpe_flush(com); // write out buffered data, if any
if (space < (sizeof(struct agwpeheader) + axaddrlen + axdatalen)) {
// Uh, no space at all!
if (debug)
printf("ERROR: No buffer space to send data to AGWPE socket");
return;
}
memset(&hdr, 0, sizeof(hdr));
set_le32((uint8_t*)(&hdr.radioPort), agwpe->portnum);
set_le32((uint8_t*)(&hdr.dataKind), 'K');
set_le32((uint8_t*)(&hdr.dataLength), axaddrlen + axdatalen);
memcpy(com->wrbuf + com->wrlen, &hdr, sizeof(hdr));
com->wrlen += sizeof(hdr);
memcpy(com->wrbuf + com->wrlen, axaddr, axaddrlen);
com->wrlen += axaddrlen;
memcpy(com->wrbuf + com->wrlen, axdata, axdatalen);
com->wrlen += axdatalen;
agwpe_flush(com); // write out buffered data
// Account transmission
erlang_add(agwpe->iface->callsign, ERLANG_TX, axaddrlen+axdatalen + 10, 1); // agwpe_sendto()
}
static int agwpe_controlwrite(struct agwpecom *com, const uint32_t oper) {
int space = sizeof(com->wrbuf) - com->wrlen;
struct agwpeheader hdr;
if (debug) {
printf("agwpe_controlwrite(oper=%x (%c))\n", oper, oper);
}
if (com->fd < 0) {
if (debug)
printf("NOTE: Write to non-open AGWPE socket discarded.\n");
return -1;
}
agwpe_flush(com); // write out buffered data, if any
if (space < sizeof(hdr)) {
// No room :-(
return -1;
}
memset(&hdr, 0, sizeof(hdr));
set_le32((uint8_t*)(&hdr.dataKind), oper);
if (debug)
hexdumpfp(stdout, (const uint8_t *)&hdr, sizeof(hdr), 0);
memcpy(com->wrbuf + com->wrlen, &hdr, sizeof(hdr));
com->wrlen += sizeof(hdr);
agwpe_flush(com); // write out buffered data
return 0;
}
static void agwpe_parse_raw_ax25(struct agwpecom *com,
struct agwpeheader *hdr, const uint8_t *rxbuf)
{
#warning "WRITEME: AGWPE Raw AX.25 reception"
}
static void agwpe_parsereceived(struct agwpecom *com,
struct agwpeheader *hdr, const uint8_t *rxbuf)
{
uint8_t frameType = hdr->dataKind;
if (debug) {
int i;
int rcvlen = hdr->dataLength;
printf("AGWPE hdr radioPort=%d dataKind=0x%x fromcall='%s' tocall='%s'"
" datalen=%d userfield=%x\n",
hdr->radioPort, hdr->dataKind, hdr->fromCall, hdr->toCall,
rcvlen, hdr->userField);
if (rcvlen > 512) rcvlen=512;
printf("AGWPE Data: ");
for (i = 0; i < rcvlen; ++i)
printf(" %02x", rxbuf[i]);
printf("\n");
printf("AGWPE Text: ");
for (i = 0; i < rcvlen; ++i) {
uint8_t c = rxbuf[i];
if (32 <= c && c <= 126)
printf(" %c", c);
else
printf(" %02x", c);
}
printf("\n");
printf("AGWPE AX25: ");
for (i = 0; i < rcvlen; ++i) {
uint8_t c = rxbuf[i] >> 1;
if (32 <= c && c <= 126)
printf(" %c", c);
else
printf(" %02x", c);
}
printf("\n");
}
switch (frameType) {
case 'K': // Raw AX.25 frame received
agwpe_parse_raw_ax25(com, hdr, rxbuf);
break;
default: // Everything else: discard
break;
}
}
static void agwpe_read(struct agwpecom *com) {
int rcvspace = sizeof(com->rdbuf) - com->rdlen;
int rcvlen;
struct agwpeheader hdr;
if (com->fd < 0) {
// Should not happen..
return;
}
if (com->rdlen > com->rdcursor) {
memcpy(com->rdbuf, com->rdbuf + com->rdcursor,
com->rdlen - com->rdcursor);
com->rdlen -= com->rdcursor;
}
com->rdcursor = 0;
rcvlen = read(com->fd, com->rdbuf + com->rdlen, rcvspace);
if (rcvlen > 0)
com->rdlen += rcvlen;
if (com->rdlen < com->rdneed) {
// insufficient amount received, continue with it latter
return;
}
while (com->rdlen >= com->rdneed) {
hdr.radioPort = get_le32(com->rdbuf + 0);
hdr.dataKind = get_le32(com->rdbuf + 4);
memcpy(hdr.fromCall, com->rdbuf + 8, 10);
memcpy(hdr.toCall, com->rdbuf + 18, 10);
hdr.dataLength = get_le32(com->rdbuf + 28);
hdr.userField = get_le32(com->rdbuf + 32);
if (com->rdneed < (sizeof(hdr) + hdr.dataLength)) {
// recalculate needed data size
com->rdneed = sizeof(hdr) + hdr.dataLength;
}
if (com->rdneed > sizeof(com->rdbuf)) {
// line noise or something...
agwpe_reset(com,"received junk data");
return;
}
if (com->rdlen < com->rdneed) {
// insufficient amount received..
break;
}
// Process received frame
agwpe_parsereceived(com, &hdr, com->rdbuf + sizeof(hdr));
com->rdcursor += sizeof(hdr) + hdr.dataLength;
if (com->rdlen > com->rdcursor) {
memcpy(com->rdbuf, com->rdbuf + com->rdcursor,
com->rdlen - com->rdcursor);
com->rdlen -= com->rdcursor;
}
com->rdcursor = 0;
com->rdneed = sizeof(hdr);
}
}
static void agwpe_connect(struct agwpecom *com) {
int i;
// Initial protocol reading parameters
com->rdcursor = 0;
com->rdneed = sizeof(struct agwpeheader);
// Create socket
if (debug>1) {
printf("AGWPE socket(%d %d %d)\n",
com->netaddr->ai.ai_family, com->netaddr->ai.ai_socktype,
com->netaddr->ai.ai_protocol);
}
com->fd = socket(com->netaddr->ai.ai_family, com->netaddr->ai.ai_socktype,
com->netaddr->ai.ai_protocol);
if (com->fd < 0) {
if (debug)
printf("ERROR at AGWPE socket creation: errno=%d %s\n",errno,strerror(errno));
agwpe_reset(com,"error at socket() creation");
return;
}
// Put it on non-blocking mode
fd_nonblockingmode(com->fd);
// Connect
i = connect(com->fd, com->netaddr->ai.ai_addr, com->netaddr->ai.ai_addrlen);
// Should result "EINPROGRESS"
if (i < 0 && (errno != EINPROGRESS && errno != EINTR)) {
// Unexpected fault!
if (debug)
printf("ERROR on non-blocking connect(): errno=%d (%s)\n", errno, strerror(errno));
agwpe_reset(com,"connect failure");
return;
}
// Aprx will snoop everything that happens on radio ports,
// and receive frames in raw AX.25.
// Queue necessary configuration parameters on newly constructed socket
agwpe_controlwrite(com, 'k'); // Ask for raw AX.25 frames
agwpe_controlwrite(com, 'm'); // Ask for full monitoring of all interfaces
}
/*
* agwpe_init()
*/
void agwpe_init(void)
{
/* nothing.. */
}
/*
* agwpe_start()
*/
void agwpe_start(void)
{
/* nothing.. */
}
/*
* agwpe_prepoll() -- prepare system for next round of polling
*/
int agwpe_prepoll(struct aprxpolls *app)
{
int idx = 0; /* returns number of *fds filled.. */
int i;
struct agwpecom *S;
struct pollfd *pfd;
for (i = 0; i < pecomcount; ++i) {
S = pecom[i];
if (S->fd < 0) {
/* Not an open TTY, but perhaps waiting ? */
if ((S->wait_until.tv_sec != 0) && tv_timercmp(&S->wait_until, &tick) > 0) {
if (tv_timerdelta_millis(&S->wait_until, &tick) > 60000) {
// Verify that wait is not too long -- system time jumped backwards? (but not 68 years..)
S->wait_until = tick;
}
/* .. waiting for future! */
if (tv_timercmp(&app->next_timeout, &S->wait_until) > 0)
app->next_timeout = S->wait_until;
/* .. but only until our timeout,
if it is sooner than global one. */
continue; /* Waiting on this one.. */
}
/* Waiting or not, FD is not open, and deadline is past.
Lets try to open! */
agwpe_connect(S);
}
/* .. No open FD */
/* Still no open FD ? */
if (S->fd < 0)
continue;
// FD is open, lets mark it for poll read..
pfd = aprxpolls_new(app);
pfd->fd = S->fd;
pfd->events = POLLIN | POLLPRI;
pfd->revents = 0;
// .. and if needed, poll write.
if (S->wrlen > S->wrcursor)
pfd->events |= POLLOUT;
++idx;
}
return idx;
}
/*
* agwpe_postpoll() -- Done polling, what happened ?
*/
int agwpe_postpoll(struct aprxpolls *app)
{
int idx, i;
struct agwpecom *S;
struct pollfd *P;
for (idx = 0, P = app->polls; idx < app->pollcount; ++idx, ++P) {
if (!(P->revents & (POLLIN | POLLPRI | POLLERR | POLLHUP)))
continue; /* No read event we are interested in... */
for (i = 0; i < pecomcount; ++i) {
S = pecom[i];
if (S->fd != P->fd)
continue; /* Not this one ? */
/* It is this one! */
if (P->revents & POLLOUT)
agwpe_flush(S);
agwpe_read(S);
}
}
return 0;
}
#endif