Split channels into digital and analog tables.

This commit is contained in:
Serge Vakulenko 2018-08-23 22:02:51 -07:00
parent f127060e77
commit cc9ed17331

323
uv380.c
View File

@ -307,6 +307,8 @@ typedef struct {
static const char *POWER_NAME[] = { "Low", "???", "Mid", "High" }; static const char *POWER_NAME[] = { "Low", "???", "Mid", "High" };
static const char *BANDWIDTH[] = { "12.5", "20", "25" }; static const char *BANDWIDTH[] = { "12.5", "20", "25" };
static const char *CONTACT_TYPE[] = { "-", "Group", "Private", "All" }; static const char *CONTACT_TYPE[] = { "-", "Group", "Private", "All" };
static const char *ADMIT_NAME[] = { "Always", "Free", "Tone" };
static const char *INCALL_NAME[] = { "Always", "Admit", "TXInt" };
// //
// Print a generic information about the device. // Print a generic information about the device.
@ -451,59 +453,6 @@ static int uv380_is_compatible()
return strncmp("AH017$", (char*)&radio_mem[0], 6) == 0; return strncmp("AH017$", (char*)&radio_mem[0], 6) == 0;
} }
#if 0
//
// Is this zone non-empty?
//
static int have_zone(int b)
{
unsigned char *data = &radio_mem[OFFSET_ZONES + b * 0x80];
int c;
for (c=0; c<NCHAN/8; c++) {
if (data[c] != 0)
return 1;
}
return 0;
}
//
// Print one line of Zones table.
//
static void print_zone(FILE *out, int i)
{
uint8_t *data = &radio_mem[OFFSET_ZONES + i * 0x80];
int last = -1;
int range = 0;
int n;
fprintf(out, "%4d ", i + 1);
for (n=0; n<NCHAN; n++) {
int cnum = n + 1;
int chan_in_zone = data[n/8] & (1 << (n & 7));
if (!chan_in_zone)
continue;
if (cnum == last+1) {
range = 1;
} else {
if (range) {
fprintf(out, "-%d", last);
range = 0;
}
if (last >= 0)
fprintf(out, ",");
fprintf(out, "%d", cnum);
}
last = cnum;
}
if (range)
fprintf(out, "-%d", last);
fprintf(out, "\n");
}
#endif
// //
// Set the bitmask of zones for a given channel. // Set the bitmask of zones for a given channel.
// Return 0 on failure. // Return 0 on failure.
@ -515,26 +464,6 @@ static void setup_zone(int zone_index, int chan_index)
*data |= 1 << (chan_index & 7); *data |= 1 << (chan_index & 7);
} }
#if 0
static unsigned decode_tones(const unsigned char *source, unsigned offset)
{
unsigned char ch[2];
unsigned hi, lo;
ch[0] = source[offset];
ch[1] = source[offset + 1];
hi = (ch[1] & 0xc0) << 10;
ch[1] &= ~0xc0;
lo = decode_bcd(ch, 0, 16/8);
if (lo == 0)
return 0;
return hi | lo;
}
#endif
// //
// Print utf16 text as utf8. // Print utf16 text as utf8.
// //
@ -716,6 +645,216 @@ static void print_id(FILE *out)
data[7], data[8], data[9], data[10]); data[7], data[8], data[9], data[10]);
} }
//
// Do we have any channels of given mode?
//
static int have_channels(int mode)
{
int i;
for (i=0; i<NCHAN; i++) {
channel_t *ch = (channel_t*) &radio_mem[OFFSET_CHANNELS + i*64];
if (ch->name[0] != 0 && ch->channel_mode == mode)
return 1;
}
return 0;
}
//
// Print CTSS or DCS tone.
//
static void print_tone(FILE *out, uint16_t data)
{
unsigned tag = data >> 14;
unsigned a = (data >> 12) & 3;
unsigned b = (data >> 8) & 15;
unsigned c = (data >> 4) & 15;
unsigned d = data & 15;
switch (tag) {
default:
// CTCSS
if (a == 0)
fprintf(out, "%d%d.%d ", b, c, d);
else
fprintf(out, "%d%d%d.%d", a, b, c, d);
break;
case 2:
// DCS-N
fprintf(out, "D%d%d%dN", b, c, d);
break;
case 3:
// DCS-I
fprintf(out, "D%d%d%dI", b, c, d);
break;
}
}
//
// Print base parameters of the channel:
// Name
// RX Frequency
// TX Frequency
// Power
// Scan List
// Squelch
// Admit Criteria
//
static void print_chan_base(FILE *out, channel_t *ch, int cnum)
{
fprintf(out, "%5d ", cnum);
print_unicode(out, ch->name, 16, 1);
fprintf(out, " ");
print_freq(out, ch->rx_frequency);
fprintf(out, " ");
print_offset(out, ch->rx_frequency, ch->tx_frequency);
fprintf(out, " %-4s ", POWER_NAME[ch->power]);
if (ch->scan_list_index == 0)
fprintf(out, "- ");
else
fprintf(out, "%-4d ", ch->scan_list_index);
fprintf(out, "%1d %-6s ", ch->squelch, ADMIT_NAME[ch->admit_criteria]);
}
//
// Print extended parameters of the channel:
// TOT
// TOT Rekey Delay
// RX Ref Frequency
// RX Ref Frequency
// Autoscan
// RX Only
// Lone Worker
// VOX
//
static void print_chan_ext(FILE *out, channel_t *ch)
{
#if 0
tot; // TOT x 15sec: 0-Infinite, 1=15s... 37=255s
tot_rekey_delay; // TOT Rekey Delay: 0s...255s
rx_ref_frequency : 2, // RX Ref Frequency: Low, Medium or High
tx_ref_frequency : 2, // RX Ref Frequency: Low, Medium or High
autoscan : 1, // Autoscan Enable
rx_only : 1, // RX Only Enable
lone_worker : 1; // Lone Worker
vox : 1, // VOX Enable
#endif
}
static void print_digital_channels(FILE *out, int verbose)
{
int i;
if (verbose) {
fprintf(out, "# Table of digital channels.\n");
fprintf(out, "# 1) Channel number: 1-%d\n", NCHAN);
fprintf(out, "# 2) Name: up to 16 characters, no spaces\n");
fprintf(out, "# 3) Receive frequency in MHz\n");
fprintf(out, "# 4) Transmit frequency or +/- offset in MHz\n");
fprintf(out, "# 5) Transmit power: High, Mid, Low\n");
fprintf(out, "# 6) Scan list: - or index\n");
fprintf(out, "#\n");
}
fprintf(out, "Digital Name Receive Transmit Power Scan Sq Admit Cl Sl Group InCall\n");
for (i=0; i<NCHAN; i++) {
channel_t *ch = (channel_t*) &radio_mem[OFFSET_CHANNELS + i*64];
if (ch->name[0] == 0 || ch->channel_mode != MODE_DIGITAL) {
// Select digital channels
continue;
}
print_chan_base(out, ch, i+1);
// Print digital parameters of the channel:
// Color Code
// Repeater Slot
// Group List
// In Call Criteria
fprintf(out, "%-2d %1d ", ch->colorcode, ch->repeater_slot);
if (ch->group_list_index == 0)
fprintf(out, "- ");
else
fprintf(out, "%-5d ", ch->group_list_index);
fprintf(out, "%-6s ", INCALL_NAME[ch->in_call_criteria]);
print_chan_ext(out, ch);
#if 0
// Extended digital parameters of the channel:
// Emergency System
// Contact Name
// Privacy
// Privacy No. (+1)
// Private Call Confirmed
// Emergency Alarm Ack
// Data Call Confirmed
// DCDM switch (inverted)
// Leader/MS
emergency_system_index;
contact_name_index;
privacy : 2,
privacy_no : 4,
private_call_conf : 1,
emergency_alarm_ack : 1,
data_call_conf : 1;
dcdm_switch_dis : 1,
leader_ms : 1,
#endif
fprintf(out, "\n");
}
}
static void print_analog_channels(FILE *out, int verbose)
{
int i;
if (verbose) {
fprintf(out, "# Table of analog channels.\n");
fprintf(out, "# 1) Channel number: 1-%d\n", NCHAN);
fprintf(out, "# 2) Name: up to 16 characters, no spaces\n");
fprintf(out, "# 3) Receive frequency in MHz\n");
fprintf(out, "# 4) Transmit frequency or +/- offset in MHz\n");
fprintf(out, "# 5) Transmit power: High, Mid, Low\n");
fprintf(out, "# 6) Bandwidth in kHz: 12.5, 20, 25\n");
fprintf(out, "# 7) Scan list: - or index\n");
fprintf(out, "#\n");
}
fprintf(out, "Analog Name Receive Transmit Power Scan Sq Admit RxTone TxTone Width\n");
for (i=0; i<NCHAN; i++) {
channel_t *ch = (channel_t*) &radio_mem[OFFSET_CHANNELS + i*64];
if (ch->name[0] == 0 || ch->channel_mode != MODE_ANALOG) {
// Select analog channels
continue;
}
print_chan_base(out, ch, i+1);
// Print analog parameters of the channel:
// CTCSS/DCS Dec
// CTCSS/DCS Enc
// Bandwidth
print_tone(out, ch->ctcss_dcs_decode);
fprintf(out, " ");
print_tone(out, ch->ctcss_dcs_encode);
fprintf(out, " %-6s ", BANDWIDTH[ch->bandwidth]);
#if 0
// Extended analog parameters of the channel:
// Rx Signaling System
// Tx Signaling System
// Display PTT ID (inverted)
// Non-QT/DQT Turn-off Freq.
rx_signaling_syst; // Rx Signaling System: Off, DTMF-1...4
tx_signaling_syst; // Tx Signaling System: Off, DTMF-1...4
display_pttid_dis : 1; // Display PTT ID (inverted)
turn_off_freq : 2; // Non-QT/DQT Turn-off Freq.: None, 259.2Hz or 55.2Hz
#endif
fprintf(out, "\n");
}
}
// //
// Print full information about the device configuration. // Print full information about the device configuration.
// //
@ -728,41 +867,13 @@ static void uv380_print_config(FILE *out, int verbose)
// //
// Channels. // Channels.
// //
if (have_channels(MODE_DIGITAL)) {
fprintf(out, "\n"); fprintf(out, "\n");
if (verbose) { print_digital_channels(out, verbose);
fprintf(out, "# Table of preprogrammed channels.\n");
fprintf(out, "# 1) Channel number: 1-%d\n", NCHAN);
fprintf(out, "# 2) Name: up to 16 characters, no spaces\n");
fprintf(out, "# 3) Receive frequency in MHz\n");
fprintf(out, "# 4) Transmit frequency or +/- offset in MHz\n");
fprintf(out, "# 5) Transmit power: High, Mid, Low\n");
fprintf(out, "# 6) Bandwidth in kHz: 12.5, 20, 25\n");
fprintf(out, "# 7) Scan list: - or index\n");
fprintf(out, "#\n");
} }
fprintf(out, "Channel Name Receive Transmit Power Width Scan\n"); if (have_channels(MODE_ANALOG)) {
for (i=0; i<NCHAN; i++) { fprintf(out, "\n");
channel_t *ch = (channel_t*) &radio_mem[OFFSET_CHANNELS + i*64]; print_analog_channels(out, verbose);
if (ch->name[0] == 0) {
// Channel is disabled
continue;
}
fprintf(out, "%5d ", i+1);
print_unicode(out, ch->name, 16, 1);
fprintf(out, " ");
print_freq(out, ch->rx_frequency);
fprintf(out, " ");
print_offset(out, ch->rx_frequency, ch->tx_frequency);
fprintf(out, " %-4s %-6s ",
POWER_NAME[ch->power], BANDWIDTH[ch->bandwidth]);
if (ch->scan_list_index == 0)
fprintf(out, "-\n");
else
fprintf(out, "%d\n", ch->scan_list_index);
} }
// //