// // This file is part of Dire Wolf, an amateur radio packet TNC. // // Copyright (C) 2014 John Langner, WB2OSZ // // 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, see . /*------------------------------------------------------------------ * * Module: xid.c * * Purpose: Encode and decode the info field of XID frames. * * Description: If we originate the connection, and the other end is * capable of AX.25 version 2.2, * * - We send an XID command frame with our capabilities. * - the other sends back an XID response, possibly * reducing some values to be acceptable there. * - Both ends use the values in that response. * * If the other end originates the connection, * * - It sends XID command frame with its capabilities. * - We might decrease some of them to be acceptable. * - Send XID response. * - Both ends use values in my response. * * References: AX.25 Protocol Spec, sections 4.3.3.7 & 6.3.2. * *---------------------------------------------------------------*/ #include #include #include #include "direwolf.h" #include "textcolor.h" //#include "xid.h" struct ax25_param_s { int full_duplex; // Order is important because negotiation keeps the lower. enum rej_e {implicit_reject=1, selective_reject=2, selective_reject_reject=3 } rej; enum modulo_e {modulo_8 = 8, modulo_128 = 128} modulo; int i_field_length_rx; /* In bytes. XID has it in bits. */ int window_size_rx; int ack_timer; /* "T1" in mSec. */ int retries; /* "N1" */ }; #define FI_Format_Indicator 0x82 #define GI_Group_Identifier 0x80 #define PI_Classes_of_Procedures 2 #define PI_HDLC_Optional_Functions 3 #define PI_I_Field_Length_Rx 6 #define PI_Window_Size_Rx 8 #define PI_Ack_Timer 9 #define PI_Retries 10 #define PV_Classes_Procedures_Balanced_ABM 0x0100 #define PV_Classes_Procedures_Half_Duplex 0x2000 #define PV_Classes_Procedures_Full_Duplex 0x4000 #define PV_HDLC_Optional_Functions_REJ_cmd_resp 0x020000 #define PV_HDLC_Optional_Functions_SREJ_cmd_resp 0x040000 #define PV_HDLC_Optional_Functions_Extended_Address 0x800000 #define PV_HDLC_Optional_Functions_Modulo_8 0x000400 #define PV_HDLC_Optional_Functions_Modulo_128 0x000800 #define PV_HDLC_Optional_Functions_TEST_cmd_resp 0x002000 #define PV_HDLC_Optional_Functions_16_bit_FCS 0x008000 #define PV_HDLC_Optional_Functions_Synchronous_Tx 0x000002 /*------------------------------------------------------------------- * * Name: ... * * Purpose: ... * * Inputs: ... * * Outputs: ... * * Returns: 1 for mostly successful (with possible error messages), 0 for failure. * * Description: 6.3.2 "The receipt of an XID response from the other station * establishes that both stations are using AX.25 version * 2.2 or higher and enables the use of the segmenter/reassembler * and selective reject." * *--------------------------------------------------------------------*/ int xid_parse (unsigned char *info, int info_len, struct ax25_param_s *result) { unsigned char *p; int group_len; char stemp[64]; char debug_msg[256]; result->full_duplex = 0; // Default is implicit reject for pre version 2.2 but we wouldn't be here in that case. result->rej = selective_reject; result->modulo = modulo_8; result->i_field_length_rx = 256; // bytes here but converted to bits during encoding. // Default is 4 for pre version 2.2 but we wouldn't be here in that case. result->window_size_rx = result->modulo == modulo_128 ? 32 : 7; result->ack_timer = 3000; result->retries = 10; p = info; if (*p != FI_Format_Indicator) { text_color_set (DW_COLOR_ERROR); dw_printf ("XID error: First byte of info field should be Format Indicator, %d.\n", FI_Format_Indicator); return 0; } p++; if (*p != GI_Group_Identifier) { text_color_set (DW_COLOR_ERROR); dw_printf ("XID error: Second byte of info field should be Group Indicator, %d.\n", GI_Group_Identifier); return 0; } p++; group_len = *p++; group_len = (group_len << 8) + *p++; while (p < info + 4 + group_len) { int pind, plen, pval, j; pind = *p++; plen = *p++; // should have sanity checking if (plen < 1 || plen > 4) { text_color_set (DW_COLOR_ERROR); dw_printf ("XID error: Length ????? TODO ???? %d.\n", plen); return (1); // got this far. } pval = 0; for (j=0; jfull_duplex = 0; } else if (pval & PV_Classes_Procedures_Full_Duplex && ! (pval & PV_Classes_Procedures_Half_Duplex)) { result->full_duplex = 1; } else { text_color_set (DW_COLOR_ERROR); dw_printf ("XID error: Expected one of Half or Full Duplex be set.\n"); } break; case PI_HDLC_Optional_Functions: if (pval & PV_HDLC_Optional_Functions_REJ_cmd_resp && pval & PV_HDLC_Optional_Functions_SREJ_cmd_resp) { result->rej = selective_reject_reject; /* Both bits set */ } else if (pval & PV_HDLC_Optional_Functions_REJ_cmd_resp && ! (pval & PV_HDLC_Optional_Functions_SREJ_cmd_resp)) { result->rej = implicit_reject; /* Only REJ is set */ } else if ( ! (pval & PV_HDLC_Optional_Functions_REJ_cmd_resp) && pval & PV_HDLC_Optional_Functions_SREJ_cmd_resp) { result->rej = selective_reject; /* Only SREJ is set */ } else { text_color_set (DW_COLOR_ERROR); dw_printf ("XID error: Expected one or both of REJ, SREJ to be set.\n"); } if (pval & PV_HDLC_Optional_Functions_Modulo_8 && ! (pval & PV_HDLC_Optional_Functions_Modulo_128)) { result->modulo = modulo_8; } else if (pval & PV_HDLC_Optional_Functions_Modulo_128 && ! (pval & PV_HDLC_Optional_Functions_Modulo_8)) { result->modulo = modulo_128; } else { text_color_set (DW_COLOR_ERROR); dw_printf ("XID error: Expected one of Modulo 8 or 128 be set.\n"); } if ( ! (pval & PV_HDLC_Optional_Functions_Extended_Address)) { text_color_set (DW_COLOR_ERROR); dw_printf ("XID error: Expected Extended Address to be set.\n"); } if ( ! (pval & PV_HDLC_Optional_Functions_TEST_cmd_resp)) { text_color_set (DW_COLOR_ERROR); dw_printf ("XID error: Expected TEST cmd/resp to be set.\n"); } if ( ! (pval & PV_HDLC_Optional_Functions_16_bit_FCS)) { text_color_set (DW_COLOR_ERROR); dw_printf ("XID error: Expected 16 bit FCS to be set.\n"); } if ( ! (pval & PV_HDLC_Optional_Functions_Synchronous_Tx)) { text_color_set (DW_COLOR_ERROR); dw_printf ("XID error: Expected Synchronous Tx to be set.\n"); } break; case PI_I_Field_Length_Rx: result->i_field_length_rx = pval / 8; if (pval & 0x7) { text_color_set (DW_COLOR_ERROR); dw_printf ("XID error: I Field Length Rx, %d, is not a whole number of bytes.\n", pval); } break; case PI_Window_Size_Rx: result->window_size_rx = pval; if (pval < 1 || pval >= result->modulo) { text_color_set (DW_COLOR_ERROR); dw_printf ("XID error: Window Size Rx, %d, is not in range of 1 thru %d.\n", pval, result->modulo-1); result->window_size_rx = result->modulo == modulo_128 ? 32 : 7; } //continue here. break; case PI_Ack_Timer: result->ack_timer = pval; break; case PI_Retries: result->retries = pval; break; default: break; // Ignore anything we don't recognize. } } if (p != info + info_len) { text_color_set (DW_COLOR_ERROR); dw_printf ("XID error: Frame / Group Length mismatch.\n"); } return (1); } /* end xid_parse */ /*------------------------------------------------------------------- * * Name: xid_encode * * Purpose: Encode the information part of an XID frame. * * Inputs: param-> * full_duplex - As command, am I capable of full duplex operation? * When a response, are we both? * 0 = half duplex. * 1 = full duplex. * * rej - One of: implicit_reject, selective_reject, selective_reject_reject. * As command, what am I capable of processing? * As response, take minimum of * * * modulo - 8 or 128. * * i_field_length_rx - Maximum number of bytes I can handle in info part. * Default is 256. * Up to 8191 will fit into the field. * Use G_UNKNOWN to omit this. * * window_size_rx - Maximum window size ("k") that I can handle. * Defaults are are 4 for modulo 8 and 32 for modulo 128. * * ack_timer - Acknowledge timer in milliseconds. * *** describe meaning. *** * Default is 3000. * Use G_UNKNOWN to omit this. * * retries - Allows negotiation of retries. * Default is 10. * Use G_UNKNOWN to omit this. * * Outputs: info - Information part of XID frame. * Does not include the control byte. * Supply 32 bytes to be safe. * * Returns: Number of bytes in the info part. Should be at most 27. * * Description: 6.3.2 "Parameter negotiation occurs at any time. It is accomplished by sending * the XID command frame and receiving the XID response frame. Implementations of * AX.25 prior to version 2.2 respond to an XID command frame with a FRMR response * frame. The TNC receiving the FRMR uses a default set of parameters compatible * with previous versions of AX.25." * * "This version of AX.25 implements the negotiation or notification of six AX.25 * parameters. Notification simply tells the distant TNC some limit that cannot be exceeded. * The distant TNC can choose to use the limit or some other value that is within the * limits. Notification is used with the Window Size Receive (k) and Information * Field Length Receive (N1) parameters. Negotiation involves both TNCs choosing a * value that is mutually acceptable. The XID command frame contains a set of values * acceptable to the originating TNC. The distant TNC chooses to accept the values * offered, or other acceptable values, and places these values in the XID response. * Both TNCs set themselves up based on the values used in the XID response. Negotiation * is used by Classes of Procedures, HDLC Optional Functions, Acknowledge Timer and Retries." * *--------------------------------------------------------------------*/ int xid_encode (struct ax25_param_s *param, unsigned char *info) { unsigned char *p; int len; int x; p = info; *p++ = FI_Format_Indicator; *p++ = GI_Group_Identifier; *p++ = 0; *p++ = 0x17; *p++ = PI_Classes_of_Procedures; *p++ = 2; x = PV_Classes_Procedures_Balanced_ABM; if (param->full_duplex) x |= PV_Classes_Procedures_Full_Duplex; else x |= PV_Classes_Procedures_Half_Duplex; *p++ = (x >> 8) & 0xff; *p++ = x & 0xff; *p++ = PI_HDLC_Optional_Functions; *p++ = 3; x = PV_HDLC_Optional_Functions_Extended_Address | PV_HDLC_Optional_Functions_TEST_cmd_resp | PV_HDLC_Optional_Functions_16_bit_FCS | PV_HDLC_Optional_Functions_Synchronous_Tx; if (param->rej == implicit_reject || param->rej == selective_reject_reject) x |= PV_HDLC_Optional_Functions_REJ_cmd_resp; if (param->rej == selective_reject || param->rej == selective_reject_reject) x |= PV_HDLC_Optional_Functions_SREJ_cmd_resp; if (param->modulo == modulo_128) x |= PV_HDLC_Optional_Functions_Modulo_128; else x |= PV_HDLC_Optional_Functions_Modulo_8; *p++ = (x >> 16) & 0xff; *p++ = (x >> 8) & 0xff; *p++ = x & 0xff; if (param->i_field_length_rx != G_UNKNOWN) { *p++ = PI_I_Field_Length_Rx; *p++ = 2; x = param->i_field_length_rx * 8; *p++ = (x >> 8) & 0xff; *p++ = x & 0xff; } if (param->window_size_rx != G_UNKNOWN) { *p++ = PI_Window_Size_Rx; *p++ = 1; *p++ = param->window_size_rx; } if (param->ack_timer != G_UNKNOWN) { *p++ = PI_Ack_Timer; *p++ = 2; *p++ = (param->ack_timer >> 8) & 0xff; *p++ = param->ack_timer & 0xff; } if (param->retries != G_UNKNOWN) { *p++ = PI_Retries; *p++ = 1; *p++ = param->retries; } len = p - info; assert (len <= 27); return (len); } /* end xid_encode */ /*------------------------------------------------------------------- * * Name: main * * Purpose: Unit test for other functions here. * * Description: Run with: * * gcc -DXIDTEST -g xid.c textcolor.o && ./a * * Result should be: * * XID test: Success. * * with no error messages. * *--------------------------------------------------------------------*/ #if XIDTEST /* From Figure 4.6. Typical XID frame, from AX.25 protocol spec, v. 2.2 */ /* This is the info part after a control byte of 0xAF. */ static unsigned char example[27] = { /* FI */ 0x82, /* Format indicator */ /* GI */ 0x80, /* Group Identifier - parameter negotiation */ /* GL */ 0x00, /* Group length - all of the PI/PL/PV fields */ /* GL */ 0x17, /* (2 bytes) */ /* PI */ 0x02, /* Parameter Indicator - classes of procedures */ /* PL */ 0x02, /* Parameter Length */ #if 0 // Example in the protocol spec looks wrong. /* PV */ 0x00, /* Parameter Variable - Half Duplex, Async, Balanced Mode */ /* PV */ 0x20, /* */ #else // I think it should be like this instead. /* PV */ 0x21, /* Parameter Variable - Half Duplex, Async, Balanced Mode */ /* PV */ 0x00, /* Reserved */ #endif /* PI */ 0x03, /* Parameter Indicator - optional functions */ /* PL */ 0x03, /* Parameter Length */ /* PV */ 0x86, /* Parameter Variable - SREJ/REJ, extended addr */ /* PV */ 0xA8, /* 16-bit FCS, TEST cmd/resp, Modulo 128 */ /* PV */ 0x02, /* synchronous transmit */ /* PI */ 0x06, /* Parameter Indicator - Rx I field length (bits) */ /* PL */ 0x02, /* Parameter Length */ /* PV */ 0x04, /* Parameter Variable - 1024 bits (128 octets) */ /* PV */ 0x00, /* */ /* PI */ 0x08, /* Parameter Indicator - Rx window size */ /* PL */ 0x01, /* Parameter length */ /* PV */ 0x02, /* Parameter Variable - 2 frames */ /* PI */ 0x09, /* Parameter Indicator - Timer T1 */ /* PL */ 0x02, /* Parameter Length */ /* PV */ 0x10, /* Parameter Variable - 4096 MSec */ /* PV */ 0x00, /* */ /* PI */ 0x0A, /* Parameter Indicator - Retries (N1) */ /* PL */ 0x01, /* Parameter Length */ /* PV */ 0x03 /* Parameter Variable - 3 retries */ }; int main (int argc, char *argv[]) { struct ax25_param_s param; struct ax25_param_s param2; int n; unsigned char info[40]; /* parse example. */ n = xid_parse (example, sizeof(example), ¶m); text_color_set (DW_COLOR_ERROR); assert (n==1); assert (param.full_duplex == 0); assert (param.rej == selective_reject_reject); assert (param.modulo == modulo_128); assert (param.i_field_length_rx == 128); assert (param.window_size_rx == 2); assert (param.ack_timer == 4096); assert (param.retries == 3); /* encode and verify it comes out the same. */ n = xid_encode (¶m, info); assert (n == sizeof(example)); n = memcmp(info, example, 27); //for (n=0; n<27; n++) { // dw_printf ("%2d %02x %02x\n", n, example[n], info[n]); //} assert (n == 0); /* try a couple different values. */ param.full_duplex = 1; param.rej = implicit_reject; param.modulo = modulo_8; param.i_field_length_rx = 2048; param.window_size_rx = 3; param.ack_timer = 3000; param.retries = 10; n = xid_encode (¶m, info); n = xid_parse (info, n, ¶m2); assert (param2.full_duplex == 1); assert (param2.rej == implicit_reject); assert (param2.modulo == modulo_8); assert (param2.i_field_length_rx == 2048); assert (param2.window_size_rx == 3); assert (param2.ack_timer == 3000); assert (param2.retries == 10); /* Finally the third possbility for rej. */ param.full_duplex = 0; param.rej = selective_reject; param.modulo = modulo_8; param.i_field_length_rx = 256; param.window_size_rx = 4; param.ack_timer = 3000; param.retries = 10; n = xid_encode (¶m, info); n = xid_parse (info, n, ¶m2); assert (param2.full_duplex == 0); assert (param2.rej == selective_reject); assert (param2.modulo == modulo_8); assert (param2.i_field_length_rx == 256); assert (param2.window_size_rx == 4); assert (param2.ack_timer == 3000); assert (param2.retries == 10); text_color_set (DW_COLOR_REC); dw_printf ("XID test: Success.\n"); exit (0); } #endif /* end xid.c */