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deb-goldedplus/golded3/genode.cpp

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2000-02-25 11:04:07 +00:00
// ------------------------------------------------------------------
// GoldED+
// Copyright (C) 1990-1999 Odinn Sorensen
// Copyright (C) 1999-2000 Alexander S. Aganichev
// ------------------------------------------------------------------
// 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., 59 Temple Place, Suite 330, Boston,
// MA 02111-1307 USA
// ------------------------------------------------------------------
// $Id$
// ------------------------------------------------------------------
// Nodelist lookup and browser.
// ------------------------------------------------------------------
#include <golded.h>
#include <gftnnlfd.h>
#include <gftnnlfu.h>
#include <gftnnlge.h>
#include <gftnnlv7.h>
// ------------------------------------------------------------------
typedef char ListStr[160];
// ------------------------------------------------------------------
// Static data for the browser and associated functions
static ftn_nodelist_index_base* NLP = NULL;
static ftn_nodelist_entry entry;
// ------------------------------------------------------------------
class NodelistBrowser {
public:
int ypos; // Window Starting Row
int xpos; // Window Starting Column
int ylen; // Window Height
int xlen; // Window Width
int btype; // Window Border Type
int battr; // Window Border Color
int wattr; // Window Color
int tattr; // Window Title Color
int sattr; // Window Selection Bar Color
int hattr; // Window Highlight Color
int loattr; // Window LoAttr Color
int sbattr; // Window Scrollbar Color
char* title; // Window Title
int helpcat; // Window Help Category
int pos; // Display Pos (1 to maxpos)
int maxpos; // Display Pos
int aborted; // True if aborted
int listwrap; // True if wrap-around is supported
ftn_nodelist_entry* entries;
ListStr* liststr;
gwindow nodewin;
gwindow listwin;
char user_maybe[45];
char titlet[80];
int user_fuzidx;
int newmaybe;
int firstkey;
NodelistBrowser();
~NodelistBrowser();
void Open();
void Close();
void BeforeCursor();
void AfterCursor();
void InitDisplay();
void DisplayBar();
void DisplayLine(int line=-1);
void DisplayPage();
void Home();
void End();
void Up();
void Down();
void PageUp();
void PageDown();
void Center();
int Run();
void BuildListString(int line);
void ScrollUp();
void ScrollDown();
int DoKey(gkey& keycode);
};
// ------------------------------------------------------------------
NodelistBrowser::NodelistBrowser() {
// Not implemented yet
}
// ------------------------------------------------------------------
NodelistBrowser::~NodelistBrowser() {
throw_release(liststr);
throw_release(entries);
}
// ------------------------------------------------------------------
void NodelistBrowser::Open() {
maxpos = ylen - 4;
vcurhide();
nodewin.openxy(ypos, xpos, 2, xlen, 5, battr, wattr, sbattr);
listwin.openxy(ypos+2, xpos, ylen-2, xlen, btype, battr, wattr, sbattr);
entries = (ftn_nodelist_entry*)throw_calloc(maxpos, sizeof(ftn_nodelist_entry));
liststr = (ListStr*)throw_calloc(maxpos, sizeof(ListStr));
InitDisplay();
}
// ------------------------------------------------------------------
void NodelistBrowser::Close() {
listwin.close();
nodewin.close();
}
// ------------------------------------------------------------------
void NodelistBrowser::BeforeCursor() {
// Nothing to do
}
// ------------------------------------------------------------------
void NodelistBrowser::AfterCursor() {
char buf[200], line1[200], line2[200];
ftn_nodelist_entry* entryp = entries + (pos - 1);
sprintf(line1, " %s%s%s%s%s%s ",
entryp->name,
(*entryp->system ? ", " : ""), entryp->system,
(*entryp->status ? " <" : ""), entryp->status,
(*entryp->status ? ">" : "")
);
sprintf(buf, "%s %s", LNG->Phone, *entryp->phone ? entryp->phone : "-Unpublished-");
strrjust(strsetsz(buf, MAXCOL-strlen(line1)-1));
strcat(line1, buf);
strcat(line1, " ");
sprintf(line2, " %s%s%s",
entryp->location,
(*entryp->location ? ", " : ""), entryp->address
);
sprintf(buf, "%s%s%s%s",
entryp->baud,
(*entryp->baud ? " Bps" : ""),
((*entryp->baud and *entryp->flags) ? ", " : ""), entryp->flags
);
strrjust(strsetsz(buf, MAXCOL-strlen(line2)-1));
strcat(line2, buf);
strcat(line2, " ");
nodewin.prints(0,0, wattr, line1);
nodewin.prints(1,0, wattr, line2);
Path nlname;
*nlname = NUL;
if(NLP->index_name() and NLP->nodelist_name())
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sprintf(nlname, " %s / %s ", NLP->index_name(), CleanFilename(NLP->nodelist_name()));
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else if(NLP->index_name())
sprintf(nlname, " %s ", NLP->index_name());
if(*nlname)
listwin.title(nlname, tattr, TCENTER|TBOTTOM);
}
// ------------------------------------------------------------------
void NodelistBrowser::InitDisplay() {
sprintf(titlet, LNG->Lookup, user_maybe);
listwin.title(titlet, tattr, TCENTER);
Center();
}
// ------------------------------------------------------------------
void NodelistBrowser::DisplayBar() {
listwin.prints(pos-1, 0, sattr, liststr[pos-1]);
}
// ------------------------------------------------------------------
void NodelistBrowser::DisplayLine(int line) {
if(line == -1)
line = pos;
listwin.prints(line-1, 0, wattr, liststr[line-1]);
}
// ------------------------------------------------------------------
void NodelistBrowser::BuildListString(int line) {
int x1 = (MAXCOL-80)/3;
int x2 = x1;
int x3 = (MAXCOL-80) - (x1+x2);
ftn_nodelist_entry* entryp = entries + (line - 1);
*entryp = NLP->entry();
if(NLP->browsing_names())
sprintf(liststr[line-1], " %-*.*s %-*.*s %-*.*s ", 24+x1, 24+x1, entryp->name, 21+x2, 21+x2, entryp->address, 29+x3, 29+x3, entryp->system);
else
sprintf(liststr[line-1], " %-*.*s %-*.*s %-*.*s ", 21+x2, 21+x2, entryp->address, 24+x1, 24+x1, entryp->name, 29+x3, 29+x3, entryp->system);
}
// ------------------------------------------------------------------
void NodelistBrowser::DisplayPage() {
w_info(LNG->Wait);
int line = 0;
while(line < maxpos)
entries[line++].addr.net = 0;
NLP->push_state();
// Get entries above and including current entry
line = pos;
do {
BuildListString(line--);
} while(line and NLP->previous());
NLP->pop_state();
NLP->push_state();
// Get entries below current entry
line = pos + 1;
while((line <= maxpos) and NLP->next())
BuildListString(line++);
NLP->pop_state();
w_info(NULL);
line = 1;
char linebuf[200];
linebuf[MAXCOL-2] = NUL;
// Display blank lines if necessary
memset(linebuf, ' ', MAXCOL-2);
while(line <= maxpos) {
if(entries[line-1].addr.net)
break;
// Display separator line if necessary
if(entries[line].addr.net)
memset(linebuf, _box_table(btype, 1), MAXCOL-2);
listwin.prints(line-1, 0, wattr|ACSET, linebuf);
line++;
}
// Display entry lines
while((line <= maxpos) and entries[line-1].addr.net) {
if(line == pos)
DisplayBar();
else
DisplayLine(line);
line++;
}
// Display separator line if necessary
memset(linebuf, _box_table(btype, 1), MAXCOL-2);
if(line <= maxpos) {
listwin.prints(line-1, 0, wattr|ACSET, linebuf);
line++;
}
// Display blank lines if necessary
memset(linebuf, ' ', MAXCOL-2);
while(line <= maxpos) {
listwin.prints(line-1, 0, wattr, linebuf);
line++;
}
}
// ------------------------------------------------------------------
void NodelistBrowser::Home() {
pos = 1;
NLP->first();
DisplayPage();
}
// ------------------------------------------------------------------
void NodelistBrowser::End() {
pos = maxpos;
NLP->last();
DisplayPage();
}
// ------------------------------------------------------------------
void NodelistBrowser::ScrollUp() {
memmove(entries, entries+1, (maxpos-1)*sizeof(ftn_nodelist_entry));
memmove(liststr, liststr+1, (maxpos-1)*sizeof(ListStr));
BuildListString(maxpos);
listwin.scroll_up();
}
// ------------------------------------------------------------------
void NodelistBrowser::ScrollDown() {
memmove(entries+1, entries, (maxpos-1)*sizeof(ftn_nodelist_entry));
memmove(liststr+1, liststr, (maxpos-1)*sizeof(ListStr));
BuildListString(1);
listwin.scroll_down();
}
// ------------------------------------------------------------------
void NodelistBrowser::Up() {
if(NLP->previous()) {
if(pos > 1) {
DisplayLine();
pos--;
}
else {
DisplayLine();
ScrollDown();
}
}
else if(listwrap) {
End();
}
}
// ------------------------------------------------------------------
void NodelistBrowser::Down() {
if(NLP->next()) {
if(pos < maxpos) {
DisplayLine();
pos++;
}
else {
DisplayLine();
ScrollUp();
}
}
else if(listwrap) {
Home();
}
}
// ------------------------------------------------------------------
void NodelistBrowser::PageUp() {
if(pos > 1) {
DisplayLine();
do {
if(not NLP->previous())
break;
} while(--pos > 1);
}
else {
int count = 1;
while(count < maxpos) {
if(not NLP->previous())
break;
count++;
}
DisplayPage();
}
}
// ------------------------------------------------------------------
void NodelistBrowser::PageDown() {
if(pos < maxpos) {
DisplayLine();
do {
if(not NLP->next())
break;
} while(++pos < maxpos);
}
else {
int count = 1;
while(count < maxpos) {
if(not NLP->next())
break;
count++;
}
DisplayPage();
}
}
// ------------------------------------------------------------------
void NodelistBrowser::Center() {
switch(CFG->displistcursor) {
case LIST_TOP:
pos = 1;
break;
case LIST_NEARTOP:
pos = (maxpos / 4) + 1;
break;
case LIST_MIDDLE:
pos = (maxpos / 2) + 1;
break;
case LIST_NEARBOTTOM:
pos = (3 * (maxpos / 4)) + 1;
break;
case LIST_BOTTOM:
pos = maxpos;
break;
}
DisplayPage();
}
// ------------------------------------------------------------------
int NodelistBrowser::Run() {
int keyok;
gkey newkey;
gkey keycode;
#ifdef GOLD_MOUSE
gmou.HideCursor();
#endif
Open();
if(helpcat)
whelppcat(helpcat);
do {
listwin.move_cursor(pos-1, 0);
DisplayBar();
AfterCursor();
#ifdef GOLD_MOUSE
gmou.ShowCursor();
#endif
keyok = YES;
do {
newkey = keycode = getxchtick();
if(newkey == Key_Tick)
DoKey(keycode);
} while(newkey == Key_Tick);
do {
newkey = 0;
#ifdef GOLD_MOUSE
gmou.HideCursor();
#endif
switch(keycode) {
case Key_Up:
BeforeCursor();
Up();
break;
case Key_Dwn:
BeforeCursor();
Down();
break;
case Key_PgUp:
BeforeCursor();
PageUp();
break;
case Key_PgDn:
BeforeCursor();
PageDown();
break;
case Key_Home:
BeforeCursor();
Home();
break;
case Key_End:
BeforeCursor();
End();
break;
default:
keyok = DoKey(keycode);
newkey = keycode;
}
if(newkey)
keycode = newkey;
} while(newkey);
} while(keyok);
#ifdef GOLD_MOUSE
gmou.HideCursor();
#endif
if(helpcat)
whelpop();
Close();
#ifdef GOLD_MOUSE
gmou.ShowCursor();
#endif
return aborted;
}
// ------------------------------------------------------------------
int NodelistBrowser::DoKey(gkey& keycode) {
gkey key = keycode;
keycode = 0;
if(key < KK_Commands) {
gkey tmpkey = key_tolower(key);
gkey kk = SearchKey(tmpkey, NodeKey, NodeKeys);
if(kk)
key = kk;
}
switch(key) {
case KK_NodeAskExit:
{
GMenuQuit MenuQuit;
if(MenuQuit.Run())
keycode = KK_NodeQuitNow;
}
break;
case KK_NodeQuitNow:
gkbd.quitall = YES;
if(gkbd.kbuf == NULL)
kbput(Key_Esc);
// Drop through
case KK_NodeAbort:
newmaybe = NO;
aborted = YES;
// Drop Through
case KK_NodeSelect:
if(newmaybe) {
newmaybe = NO;
firstkey = YES;
Addr matchaddr;
matchaddr.set_all(0xFFFF);
matchaddr.set(user_maybe);
bool gotzone = false;
bool gotnet = false;
bool gotnode = false;
bool gotpoint = false;
if(matchaddr.zone != 0xFFFF)
gotzone = true;
else
matchaddr.zone = 0;
if(matchaddr.net != 0xFFFF)
gotnet = true;
else
matchaddr.net = 0;
if(matchaddr.node != 0xFFFF)
gotnode = true;
else
matchaddr.node = 0;
if(matchaddr.point != 0xFFFF)
gotpoint = true;
else
matchaddr.point = 0;
if(gotzone or gotnet or gotnode or gotpoint) {
if(not gotzone)
matchaddr.zone = AA->Aka().addr.zone;
if(not gotnet)
matchaddr.net = AA->Aka().addr.net;
if(gotpoint and not gotnode)
matchaddr.node = AA->Aka().addr.node;
if(matchaddr.point >= GFTN_FIRST)
matchaddr.point = 0;
if(matchaddr.node >= GFTN_FIRST)
matchaddr.node = 0;
if(matchaddr.net >= GFTN_FIRST)
matchaddr.net = 0;
if(matchaddr.zone >= GFTN_FIRST)
matchaddr.zone = 0;
}
if(matchaddr.net)
NLP->find(matchaddr);
else
NLP->find(user_maybe);
InitDisplay();
}
else {
BeforeCursor();
return NO;
}
break;
case Key_Tab:
if(NLP->browsing_names() and NLP->can_browse_address()) {
strcpy(user_maybe, NLP->address());
NLP->find(NLP->addrs());
}
else if(NLP->browsing_addresses() and NLP->can_browse_name()) {
strcpy(user_maybe, NLP->name());
NLP->find(NLP->name());
}
user_fuzidx = strlen(user_maybe);
InitDisplay();
break;
case KK_NodeGotoPrev:
keycode = Key_Up;
firstkey = YES;
break;
case KK_NodeGotoNext:
keycode = Key_Dwn;
firstkey = YES;
break;
case KK_NodeGotoFirst:
keycode = Key_Home;
firstkey = YES;
break;
case KK_NodeGotoLast:
keycode = Key_End;
firstkey = YES;
break;
case KK_NodeDosShell:
DosShell();
break;
case Key_Tick:
CheckTick(KK_NodeQuitNow);
break;
case KK_NodeUndefine:
break;
default:
if(not PlayMacro(key, KT_N)) {
int n = key & 0xFF;
if((user_fuzidx < 41) or (key == Key_BS)) {
if(firstkey) {
if((key != Key_BS) and not isspace(n)) {
*user_maybe = 0;
user_fuzidx = 0;
}
}
firstkey = NO;
if((n >= ' ') or (key == Key_BS)) {
newmaybe = YES;
if(key != Key_BS)
user_maybe[user_fuzidx++] = (char)n;
else if(user_fuzidx)
user_maybe[--user_fuzidx] = 0;
user_maybe[user_fuzidx] = 0;
sprintf(titlet, LNG->Lookup, user_maybe);
listwin.title(titlet, tattr, TCENTER);
}
}
}
}
return YES;
}
// ------------------------------------------------------------------
static int browse_nodelist(GMsg* msg, char* title, int topline) {
w_info(NULL);
NodelistBrowser* browser = new NodelistBrowser;
throw_new(browser);
browser->btype = W_BMENU;
browser->battr = C_MENUB;
browser->wattr = C_MENUW;
browser->sattr = C_MENUS;
browser->tattr = C_MENUT;
browser->hattr = C_MENUQ;
browser->sbattr = C_MENUPB;
browser->helpcat = H_NodelistBrowser;
browser->ypos = topline;
browser->xpos = 0;
browser->ylen = MAXROW-browser->ypos-1;
browser->xlen = MAXCOL;
browser->listwrap = CFG->switches.get(displistwrap);
browser->firstkey = YES;
browser->newmaybe = NO;
browser->aborted = NO;
strxcpy(browser->user_maybe, title, sizeof(browser->user_maybe));
browser->user_fuzidx = strlen(browser->user_maybe);
int aborted = browser->Run();
if(not aborted)
entry = browser->entries[browser->pos-1];
delete browser;
return (not aborted);
}
// ------------------------------------------------------------------
static bool NLP_open() {
if(*CFG->nodepathv7) {
NLP = new ftn_version7_nodelist_index;
throw_new(NLP);
NLP->set_path(CFG->nodepathv7);
}
else if(*CFG->nodepathfd) {
NLP = new ftn_frontdoor_nodelist_index;
throw_new(NLP);
NLP->set_path(CFG->nodepathfd);
}
else if(*CFG->fidouserlist) {
NLP = new ftn_fidouser_nodelist_index;
throw_new(NLP);
NLP->set_path(CFG->fidouserlist);
}
else {
CheckNodelists();
NLP = new ftn_golded_nodelist_index;
throw_new(NLP);
NLP->set_path(CFG->nodepath);
}
return NLP->open();
}
// ------------------------------------------------------------------
static void NLP_close() {
NLP->close();
throw_delete(NLP);
}
// ------------------------------------------------------------------
static Name nlname;
const char *lookup_nodelist(ftn_addr* addr) {
const char *r = NULL;
if(NLP_open()) {
NLP->find(*addr);
if(NLP->found()) {
strcpy(nlname, NLP->entry().name);
r = nlname;
}
}
NLP_close();
return r;
}
// ------------------------------------------------------------------
void Lookup(GMsg* msg, Addr* addr, char* name, int topline, char* status) {
char* ptr;
INam buf, buf1, tmpname;
bool found = false;
int robotchk;
bool dolookup = true;
bool namelookup = true;
Addr matchaddr;
bool exactmatch = true;
strtrim(name);
if(*name == NUL) {
matchaddr = AA->Aka().addr;
namelookup = false;
exactmatch = false;
}
strcpy(tmpname, name);
if(not CFG->addressmacro.empty()) {
std::vector<AddrMacro>::iterator n;
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ptr = name;
strcpy(buf, ptr);
for(n=CFG->addressmacro.begin(); n != CFG->addressmacro.end(); n++) {
if(strieql(ptr, n->macro)) {
strcpy(buf1, n->name);
ptr = buf1;
if(*buf1 == '@') {
// UUCP/INTERNET addressing
ptr = strchr(buf1, '/');
if(ptr) {
*ptr++ = NUL;
strcpy(msg->iaddr, ptr);
strcpy(msg->idest, ptr);
ptr = buf1+1;
}
else {
strcpy(msg->iaddr, buf1+1);
strcpy(msg->idest, buf1+1);
ptr = strcpy(buf1, *AA->Internetgate().name ? AA->Internetgate().name : "UUCP");
}
}
strcpy(name, ptr);
if(n->addr.net)
*addr = n->addr;
else
*addr = AA->Internetgate().addr;
strtrim(name);
if(topline >= 0)
return;
}
}
}
// Automatic internet gating
if(strchr(name, '@') and AA->Internetgate().addr.valid()) {
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strcpy(msg->idest, name);
if(*AA->Internetgate().name) {
strcpy(msg->iaddr, name);
strcpy(msg->to, AA->Internetgate().name);
strcpy(name, msg->to);
}
*addr = AA->Internetgate().addr;
namelookup = false;
if(topline >= 0)
return;
}
// Check if name is really an address
if(*tmpname) {
matchaddr.set_all(0xFFFF);
matchaddr.set(name);
bool gotzone = false;
bool gotnet = false;
bool gotnode = false;
bool gotpoint = false;
if(matchaddr.zone != 65535u)
gotzone = true;
else
matchaddr.zone = 0;
if(matchaddr.net != 65535u)
gotnet = true;
else
matchaddr.net = 0;
if(matchaddr.node != 65535u)
gotnode = true;
else
matchaddr.node = 0;
if(matchaddr.point != 65535u)
gotpoint = true;
else
matchaddr.point = 0;
if(gotzone or gotnet or gotnode or gotpoint) {
*addr = matchaddr;
if(not gotzone)
addr->zone = AA->Aka().addr.zone;
if(not gotnet)
addr->net = AA->Aka().addr.net;
if(gotpoint and not gotnode)
addr->node = AA->Aka().addr.node;
matchaddr = *addr;
namelookup = false;
if(matchaddr.point >= GFTN_FIRST) {
matchaddr.point = 0;
exactmatch = false;
}
if(matchaddr.node >= GFTN_FIRST) {
matchaddr.node = 0;
exactmatch = false;
}
if(matchaddr.net >= GFTN_FIRST) {
matchaddr.net = 0;
exactmatch = false;
}
if(matchaddr.zone >= GFTN_FIRST) {
matchaddr.zone = 0;
exactmatch = false;
}
}
}
if(namelookup) {
ptr = strrchr(name, ' ');
if(ptr != NULL) {
addr->reset();
addr->set(ptr+1);
if(addr->net) {
// Address was given
*ptr = NUL;
strtrim(name);
if(topline >= 0)
return;
}
}
}
robotchk = NO;
if(striinc("Sysop", name) or strieql(AA->Whoto(), name))
robotchk = YES;
else {
for(gstrarray::iterator n = CFG->robotname.begin(); n != CFG->robotname.end(); n++)
if(striinc(n->c_str(), name)) {
robotchk = YES;
break;
}
}
if(robotchk) {
addr->reset();
if(topline >= 0)
return;
}
if(topline >= 0) {
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dolookup = false;
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if(AA->isnet() and CFG->switches.get(lookupnet))
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dolookup = true;
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else if(AA->isecho() and CFG->switches.get(lookupecho))
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dolookup = true;
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else if(AA->islocal() and CFG->switches.get(lookuplocal))
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dolookup = true;
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}
if(dolookup) {
if(NLP_open()) {
if(namelookup)
NLP->find(name);
else
NLP->find(matchaddr);
found = (NLP->found() && (exactmatch || topline == -100));
if (found && (topline != -100))
{
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NLP->push_state();
if(NLP->next())
if(NLP->found())
found = false;
NLP->pop_state();
}
else if (!found && matchaddr.point && (topline == -100))
{
matchaddr.point = 0;
NLP->find(matchaddr);
found = NLP->found();
}
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entry = NLP->entry();
if (topline == -100)
{
if (found)
strcpy(name, entry.location);
else
strcpy(name, "");
NLP_close();
return;
}
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if(not found or (topline < 0)) {
strcpy(buf, information);
update_statusline(status);
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found = make_bool(browse_nodelist(msg, tmpname, abs(topline)));
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update_statusline(buf);
}
}
else {
w_info(LNG->NoNodelist);
waitkeyt(10000);
w_info(NULL);
}
NLP_close();
}
if(found) {
strcpy(name, entry.name);
*addr = entry.addr;
}
else {
addr->reset();
}
if(topline >= 0) {
if(CFG->switches.get(internetlookup)) {
if(*entry.system and strchr(entry.system, '@') and AA->Internetgate().addr.valid()) {
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strcpy(msg->iaddr, entry.system);
strcpy(msg->idest, entry.system);
if(*AA->Internetgate().name)
strcpy(msg->to, AA->Internetgate().name);
else if(strlen(entry.system) >= sizeof(Name))
strcpy(msg->to, *AA->Internetgate().name ? AA->Internetgate().name : "UUCP");
else {
strcpy(msg->to, entry.system);
*msg->iaddr = NUL;
*msg->idest = NUL;
}
strcpy(name, msg->to);
*addr = AA->Internetgate().addr;
}
}
}
}
// ------------------------------------------------------------------
struct location_item
{
Addr addr;
std::string loc;
location_item(Addr &a) { addr = a; }
bool operator<(Addr &other) { return (addr.compare(other) < 0); }
bool operator==(Addr &other) { return addr.equals(other); }
};
void LookupNodeLocation(GMsg* msg, std::string &location, int what)
{
static std::vector<location_item> cash;
Subj statuslinebak;
strcpy(statuslinebak, information);
vcurhide();
w_info(LNG->Wait);
Addr addr;
switch (what)
{
case LOOK_CITY2:
addr = msg->dest;
break;
case LOOK_CITY1:
addr = msg->orig;
break;
}
if (addr.zone == 0)
addr.zone = AA->Aka().addr.zone;
std::vector<location_item>::iterator it = cash.begin();
std::vector<location_item>::iterator end = cash.end();
while ((it != end) && (*it < addr)) it++;
if ((it != end) && (*it == addr))
location = it->loc;
else
{
char buf[256];
location_item item(addr);
addr.make_string(buf);
Lookup(msg, &addr, buf, -100, LNG->LookupInfo);
if (addr.invalid())
buf[0] = NUL;
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std::string city = buf;
GStrBag2 &strbag = CFG->locationalias;
if (strbag.First())
{
char *city_upr = (char*)throw_malloc(city.length()+1);
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strcpy(city_upr, city.c_str());
strupr(city_upr);
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do
{
const char* str = strbag.Current1();
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char* ptr = strstr(city_upr, str);
if (ptr)
{
size_t len = strlen(str);
city.replace(ptr-city_upr, len, strbag.Current2());
city_upr = (char*)throw_realloc(city_upr, city.length()+1);
strcpy(city_upr, city.c_str());
strupr(city_upr);
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}
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}
while (strbag.Next());
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throw_free(city_upr);
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}
item.loc = location = city;
cash.insert(it, item);
}
update_statusline(statuslinebak);
w_info(NULL);
}
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// ------------------------------------------------------------------
// Lookup and display info about the node
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void LookupNode(GMsg* msg, const char* name, int what) {
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Subj statuslinebak;
strcpy(statuslinebak, information);
vcurhide();
w_info(LNG->Wait);
Addr addr;
char buf[256];
char* ptr = buf;
switch(what) {
case LOOK_DEST:
if(AA->isnet()) {
addr = msg->dest;
if(addr.zone == 0)
addr.zone = AA->Aka().addr.zone;
addr.make_string(buf);
}
else {
addr.reset();
strcpy(buf, msg->to);
}
break;
case LOOK_ORIG:
addr = msg->orig;
if(addr.zone == 0)
addr.zone = AA->Aka().addr.zone;
addr.make_string(buf);
break;
case LOOK_NAME:
addr = msg->orig;
strcpy(buf, strskip_wht(name));
strtok(buf, " \t\n\r"); // Only lookup first word
break;
}
Lookup(msg, &addr, ptr, -6, LNG->LookupInfo);
update_statusline(statuslinebak);
w_info(NULL);
}
// ------------------------------------------------------------------
void CheckNodelists() {
// Copy of previous timestamp
static long oldft = 0;
// Get timestamp of the .GXL file
Path file;
strcpy(file, AddPath(CFG->nodepath, "goldnode.gxl"));
long ft = GetFiletime(file);
// Check nodelists if timestamp changed
if(ft != oldft) {
// Keep copy of timestamp for later lookups
oldft = ft;
strcpy(NODE->addrindex, AddPath(CFG->nodepath, "goldnode.gxa"));
strcpy(NODE->nodeindex, AddPath(CFG->nodepath, "goldnode.gxn"));
Subj statuslinebak;
strcpy(statuslinebak, information);
update_statusline(LNG->CheckingNodelists);
FILE* fp = fsopen(file, "rt", CFG->sharemode);
if(fp) {
// Read the list index
char buf[256];
NODE->nodelists = 0;
while(fgets(buf, sizeof(buf), fp)) {
NODE->nodelist = (Stamp*)throw_realloc(NODE->nodelist, (NODE->nodelists+1)*sizeof(Stamp));
char* key;
char* val=buf;
getkeyval(&key, &val);
key = strxcpy(NODE->nodelist[NODE->nodelists].fn, strbtrim(key), sizeof(Path));
//MakePathname(key, CFG->nodepath, key);
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NODE->nodelist[NODE->nodelists].ft = atol(val);
NODE->nodelists++;
}
fclose(fp);
// Check the files
if(CFG->switches.get(nodelistwarn)) {
for(int n=0; n<NODE->nodelists; n++) {
if(not fexist(MapPath(NODE->nodelist[n].fn))) {
w_infof(" %s %s ", LNG->NodelistMissing, NODE->nodelist[n].fn);
HandleGEvent(EVTT_ATTENTION);
waitkeyt(10000);
w_info(NULL);
}
else if(abs(long(GetFiletime(NODE->nodelist[n].fn)-NODE->nodelist[n].ft))>1) {
w_infof(" %s %s ", LNG->NodelistOutdated, NODE->nodelist[n].fn);
HandleGEvent(EVTT_ATTENTION);
waitkeyt(10000);
w_info(NULL);
}
}
}
}
update_statusline(statuslinebak);
}
throw_release(NODE->nodelist);
NODE->nodelists = 0;
}
// ------------------------------------------------------------------