FreeCalypso > hg > freecalypso-tools
view rvinterf/lowlevel/rviftmode.c @ 970:3efb8d20794e
CHANGES: document fcup-smsend[mult] -e addition
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Fri, 01 Sep 2023 18:45:22 +0000 |
parents | ec5f51d33fdc |
children |
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/* * This module is for rvinterf only. Whenever we send or receive Test Mode * packets, we should be a little more intelligent about how we display and * log them. By default we only print a one-line summary, and in verbose mode * we also emit a full hex dump. */ #include <sys/types.h> #include <stdio.h> #include <string.h> #include <strings.h> #include "../include/etm.h" #include "../include/tm3.h" #include "../include/tmffs2.h" extern u_char rxpkt[]; extern size_t rxpkt_len; extern int verbose; extern void output_cont_logpref(); static int verify_cksum(pkt, pktlen) u_char *pkt; unsigned pktlen; { int i, c; c = 0; for (i = 1; i < pktlen; i++) c ^= pkt[i]; if (c == 0) return(0); else return(-1); } static void etm_core_classify(pkt, pktlen, outbuf) u_char *pkt; unsigned pktlen; char *outbuf; { if (pktlen < 4) { runt: strcpy(outbuf, "ETM_CORE runt"); return; } switch (pkt[2]) { case TMCORE_OPC_MEM: if (pktlen < 5) goto runt; switch (pkt[3]) { case 0x01: strcpy(outbuf, "r8"); return; case 0x02: strcpy(outbuf, "r16"); return; case 0x04: strcpy(outbuf, "r32"); return; case 0x11: strcpy(outbuf, "w8"); return; case 0x12: strcpy(outbuf, "w16"); return; case 0x14: strcpy(outbuf, "w32"); return; default: sprintf(outbuf, "ETM_CORE mem opcode 0x%02X", pkt[3]); } return; case TMCORE_OPC_ECHO: strcpy(outbuf, "ping"); return; case TMCORE_OPC_RESET: strcpy(outbuf, "tgtreset"); return; case TMCORE_OPC_DEBUG: strcpy(outbuf, "ETM_CORE debug opc"); return; case TMCORE_OPC_VERSION: strcpy(outbuf, "version"); return; case TMCORE_OPC_CODEC_RD: strcpy(outbuf, "abbr"); return; case TMCORE_OPC_CODEC_WR: strcpy(outbuf, "abbw"); return; case TMCORE_OPC_DIEID: strcpy(outbuf, "dieid"); return; default: sprintf(outbuf, "ETM_CORE opcode 0x%02X", pkt[2]); } } static void tmffs2_cmd_classify(pkt, pktlen, outbuf) u_char *pkt; unsigned pktlen; char *outbuf; { if (pktlen < 4) { strcpy(outbuf, "ETM_FFS2 runt"); return; } switch (pkt[2]) { case TMFFS_FORMAT: strcpy(outbuf, "FFS2 format"); return; case TMFFS_PREFORMAT: strcpy(outbuf, "FFS2 preformat"); return; case TMFFS_MKDIR: strcpy(outbuf, "FFS2 mkdir"); return; case TMFFS_OPENDIR: strcpy(outbuf, "FFS2 opendir"); return; case TMFFS_READDIR: strcpy(outbuf, "FFS2 readdir"); return; case TMFFS_REMOVE: strcpy(outbuf, "FFS2 remove"); return; case TMFFS_RENAME: strcpy(outbuf, "FFS2 rename"); return; case TMFFS_XLSTAT: strcpy(outbuf, "FFS2 xlstat"); return; case TMFFS_SYMLINK: strcpy(outbuf, "FFS2 symlink"); return; case TMFFS_READLINK: strcpy(outbuf, "FFS2 readlink"); return; case TMFFS_OPEN: strcpy(outbuf, "FFS2 open"); return; case TMFFS_CLOSE: strcpy(outbuf, "FFS2 close"); return; case TMFFS_READ: strcpy(outbuf, "FFS2 read"); return; case TMFFS_WRITE: strcpy(outbuf, "FFS2 write"); return; case TMFFS_SEEK: strcpy(outbuf, "FFS2 seek"); return; case TMFFS_FTRUNCATE: strcpy(outbuf, "FFS2 ftruncate"); return; case TMFFS_TRUNCATE: strcpy(outbuf, "FFS2 truncate"); return; case TMFFS_FILE_READ: strcpy(outbuf, "FFS2 fread"); return; case TMFFS_FILE_WRITE: strcpy(outbuf, "FFS2 fwrite"); return; case TMFFS_FSTAT: strcpy(outbuf, "FFS2 fstat"); return; case TMFFS_LSTAT: strcpy(outbuf, "FFS2 lstat"); return; case TMFFS_STAT: strcpy(outbuf, "FFS2 stat"); return; case TMFFS_FCONTROL: strcpy(outbuf, "FFS2 fcontrol"); return; case TMFFS_QUERY: strcpy(outbuf, "FFS2 query"); return; case TMFFS_INIT: strcpy(outbuf, "FFS2 init"); return; case TMFFS_EXIT: strcpy(outbuf, "FFS2 exit"); return; case TMFFS_DIRXLSTAT: strcpy(outbuf, "FFS2 dirxlstat"); return; case TMFFS_VERSION: strcpy(outbuf, "FFS2 version"); return; case TMFFS_TFFS: strcpy(outbuf, "FFS2 tffs"); return; default: sprintf(outbuf, "ETM_FFS2 opcode 0x%02X", pkt[2]); } } static void audio_cmd_classify(pkt, pktlen, outbuf) u_char *pkt; unsigned pktlen; char *outbuf; { if (pktlen < 4) { strcpy(outbuf, "ETM_AUDIO runt"); return; } switch (pkt[2]) { case 'L': strcpy(outbuf, "aul"); return; case 'S': strcpy(outbuf, "aus"); return; case 'R': strcpy(outbuf, "aur"); return; case 'W': strcpy(outbuf, "auw"); return; default: sprintf(outbuf, "ETM_AUDIO opcode 0x%02X", pkt[2]); } } static void tm_classify(pkt, pktlen, is_cmd, outbuf) u_char *pkt; unsigned pktlen; char *outbuf; { if (pktlen < 3) { strcpy(outbuf, "RUNT"); return; } if (verify_cksum(pkt, pktlen) < 0) { strcpy(outbuf, "BAD CKSUM"); return; } switch (pkt[1]) { case ETM_CORE: if (is_cmd) etm_core_classify(pkt, pktlen, outbuf); else strcpy(outbuf, "ETM_CORE"); return; case ETM_FFS1: strcpy(outbuf, "FFS1"); return; case ETM_FFS2: if (is_cmd) tmffs2_cmd_classify(pkt, pktlen, outbuf); else strcpy(outbuf, "FFS2"); return; case ETM_AUDIO: if (is_cmd) audio_cmd_classify(pkt, pktlen, outbuf); else strcpy(outbuf, "ETM_AUDIO"); return; case ETM_BSIM: strcpy(outbuf, "BSIM"); return; /* TM3 */ case MEM_READ: strcpy(outbuf, "omr"); return; case MEM_WRITE: strcpy(outbuf, "omw"); return; case CODEC_READ: strcpy(outbuf, "oabbr"); return; case CODEC_WRITE: strcpy(outbuf, "oabbw"); return; /* L1TM */ case TM_INIT: strcpy(outbuf, "tminit"); return; case TM_MODE_SET: strcpy(outbuf, "tms"); return; case VERSION_GET: strcpy(outbuf, "tm3ver"); return; case RF_ENABLE: strcpy(outbuf, "rfe"); return; case STATS_READ: strcpy(outbuf, "sr"); return; case STATS_CONFIG_WRITE: strcpy(outbuf, "scw"); return; case STATS_CONFIG_READ: strcpy(outbuf, "scr"); return; case RF_PARAM_WRITE: strcpy(outbuf, "rfpw"); return; case RF_PARAM_READ: strcpy(outbuf, "rfpr"); return; case RF_TABLE_WRITE: strcpy(outbuf, "rftw"); return; case RF_TABLE_READ: strcpy(outbuf, "rftr"); return; case RX_PARAM_WRITE: strcpy(outbuf, "rxpw"); return; case RX_PARAM_READ: strcpy(outbuf, "rxpr"); return; case TX_PARAM_WRITE: strcpy(outbuf, "txpw"); return; case TX_PARAM_READ: strcpy(outbuf, "txpr"); return; case TX_TEMPLATE_WRITE: strcpy(outbuf, "ttw"); return; case TX_TEMPLATE_READ: strcpy(outbuf, "ttr"); return; case MISC_PARAM_WRITE: strcpy(outbuf, "mpw"); return; case MISC_PARAM_READ: strcpy(outbuf, "mpr"); return; case MISC_ENABLE: strcpy(outbuf, "me"); return; default: sprintf(outbuf, "mid 0x%02X", pkt[1]); } } void log_sent_tm(pkt, pktlen) u_char *pkt; { char summary[32], headline[80]; tm_classify(pkt, pktlen, 1, summary); sprintf(headline, "Sent Test Mode cmd (%s)", summary); output_line(headline); if (verbose >= 1) packet_hex_dump(pkt, pktlen, output_cont_logpref); } void print_tm_output_new() { char summary[32], headline[80]; tm_classify(rxpkt, (unsigned) rxpkt_len, 0, summary); sprintf(headline, "Rx Test Mode resp (%s)", summary); output_line(headline); if (verbose >= 1) packet_hex_dump(rxpkt, (unsigned) rxpkt_len, output_cont_logpref); }