zapret/tpws/hostlist.c
2024-11-24 16:03:13 +03:00

316 lines
7.6 KiB
C

#include <stdio.h>
#include "hostlist.h"
#include "gzip.h"
#include "helpers.h"
// inplace tolower() and add to pool
static bool addpool(strpool **hostlist, char **s, const char *end, int *ct)
{
char *p=*s;
// comment line
if ( *p == '#' || *p == ';' || *p == '/' || *p == '\r' || *p == '\n')
{
// advance until eol
for (; p<end && *p && *p!='\r' && *p != '\n'; p++);
}
else
{
// advance until eol lowering all chars
for (; p<end && *p && *p!='\r' && *p != '\n'; p++) *p=tolower(*p);
if (!StrPoolAddStrLen(hostlist, *s, p-*s))
{
StrPoolDestroy(hostlist);
*hostlist = NULL;
return false;
}
if (ct) (*ct)++;
}
// advance to the next line
for (; p<end && (!*p || *p=='\r' || *p=='\n') ; p++);
*s = p;
return true;
}
bool AppendHostlistItem(strpool **hostlist, char *s)
{
return addpool(hostlist,&s,s+strlen(s),NULL);
}
bool AppendHostList(strpool **hostlist, const char *filename)
{
char *p, *e, s[256], *zbuf;
size_t zsize;
int ct = 0;
FILE *F;
int r;
DLOG_CONDUP("Loading hostlist %s\n",filename);
if (!(F = fopen(filename, "rb")))
{
DLOG_ERR("Could not open %s\n", filename);
return false;
}
if (is_gzip(F))
{
r = z_readfile(F,&zbuf,&zsize);
fclose(F);
if (r==Z_OK)
{
DLOG_CONDUP("zlib compression detected. uncompressed size : %zu\n", zsize);
p = zbuf;
e = zbuf + zsize;
while(p<e)
{
if (!addpool(hostlist,&p,e,&ct))
{
DLOG_ERR("Not enough memory to store host list : %s\n", filename);
free(zbuf);
return false;
}
}
free(zbuf);
}
else
{
DLOG_ERR("zlib decompression failed : result %d\n",r);
return false;
}
}
else
{
DLOG_CONDUP("loading plain text list\n");
while (fgets(s, sizeof(s), F))
{
p = s;
if (!addpool(hostlist,&p,p+strlen(p),&ct))
{
DLOG_ERR("Not enough memory to store host list : %s\n", filename);
fclose(F);
return false;
}
}
fclose(F);
}
DLOG_CONDUP("Loaded %d hosts from %s\n", ct, filename);
return true;
}
static bool LoadHostList(struct hostlist_file *hfile)
{
if (hfile->filename)
{
time_t t = file_mod_time(hfile->filename);
if (!t)
{
// stat() error
DLOG_ERR("cannot access hostlist file '%s'. in-memory content remains unchanged.\n",hfile->filename);
return true;
}
if (t==hfile->mod_time) return true; // up to date
StrPoolDestroy(&hfile->hostlist);
if (!AppendHostList(&hfile->hostlist, hfile->filename))
{
StrPoolDestroy(&hfile->hostlist);
return false;
}
hfile->mod_time=t;
}
return true;
}
static bool LoadHostLists(struct hostlist_files_head *list)
{
bool bres=true;
struct hostlist_file *hfile;
LIST_FOREACH(hfile, list, next)
{
if (!LoadHostList(hfile))
// at least one failed
bres=false;
}
return bres;
}
bool NonEmptyHostlist(strpool **hostlist)
{
// add impossible hostname if the list is empty
return *hostlist ? true : StrPoolAddStrLen(hostlist, "@&()", 4);
}
static void MakeAutolistsNonEmpty()
{
struct desync_profile_list *dpl;
LIST_FOREACH(dpl, &params.desync_profiles, next)
{
if (dpl->dp.hostlist_auto)
NonEmptyHostlist(&dpl->dp.hostlist_auto->hostlist);
}
}
bool LoadAllHostLists()
{
if (!LoadHostLists(&params.hostlists))
return false;
MakeAutolistsNonEmpty();
return true;
}
static bool SearchHostList(strpool *hostlist, const char *host)
{
if (hostlist)
{
const char *p = host;
bool bInHostList;
while (p)
{
bInHostList = StrPoolCheckStr(hostlist, p);
VPRINT("hostlist check for %s : %s\n", p, bInHostList ? "positive" : "negative");
if (bInHostList) return true;
p = strchr(p, '.');
if (p) p++;
}
}
return false;
}
static bool HostlistsReloadCheck(const struct hostlist_collection_head *hostlists)
{
struct hostlist_item *item;
LIST_FOREACH(item, hostlists, next)
{
if (!LoadHostList(item->hfile))
return false;
}
MakeAutolistsNonEmpty();
return true;
}
bool HostlistsReloadCheckForProfile(const struct desync_profile *dp)
{
return HostlistsReloadCheck(&dp->hl_collection) && HostlistsReloadCheck(&dp->hl_collection_exclude);
}
// return : true = apply fooling, false = do not apply
static bool HostlistCheck_(const struct hostlist_collection_head *hostlists, const struct hostlist_collection_head *hostlists_exclude, const char *host, bool *excluded, bool bSkipReloadCheck)
{
struct hostlist_item *item;
if (excluded) *excluded = false;
if (!bSkipReloadCheck)
if (!HostlistsReloadCheck(hostlists) || !HostlistsReloadCheck(hostlists_exclude))
return false;
LIST_FOREACH(item, hostlists_exclude, next)
{
VPRINT("[%s] exclude ", item->hfile->filename ? item->hfile->filename : "fixed");
if (SearchHostList(item->hfile->hostlist, host))
{
if (excluded) *excluded = true;
return false;
}
}
// old behavior compat: all include lists are empty means check passes
if (!hostlist_collection_is_empty(hostlists))
{
LIST_FOREACH(item, hostlists, next)
{
VPRINT("[%s] include ", item->hfile->filename ? item->hfile->filename : "fixed");
if (SearchHostList(item->hfile->hostlist, host))
return true;
}
return false;
}
return true;
}
// return : true = apply fooling, false = do not apply
bool HostlistCheck(const struct desync_profile *dp, const char *host, bool *excluded, bool bSkipReloadCheck)
{
VPRINT("* hostlist check for profile %d\n",dp->n);
return HostlistCheck_(&dp->hl_collection, &dp->hl_collection_exclude, host, excluded, bSkipReloadCheck);
}
static struct hostlist_file *RegisterHostlist_(struct hostlist_files_head *hostlists, struct hostlist_collection_head *hl_collection, const char *filename)
{
struct hostlist_file *hfile;
if (filename)
{
if (!(hfile=hostlist_files_search(hostlists, filename)))
if (!(hfile=hostlist_files_add(hostlists, filename)))
return NULL;
if (!hostlist_collection_search(hl_collection, filename))
if (!hostlist_collection_add(hl_collection, hfile))
return NULL;
}
else
{
if (!(hfile=hostlist_files_add(hostlists, NULL)))
return NULL;
if (!hostlist_collection_add(hl_collection, hfile))
return NULL;
}
return hfile;
}
struct hostlist_file *RegisterHostlist(struct desync_profile *dp, bool bExclude, const char *filename)
{
if (filename && !file_mod_time(filename))
{
DLOG_ERR("cannot access hostlist file '%s'\n",filename);
return NULL;
}
return RegisterHostlist_(
&params.hostlists,
bExclude ? &dp->hl_collection_exclude : &dp->hl_collection,
filename);
}
void HostlistsDebug()
{
if (!params.debug) return;
struct hostlist_file *hfile;
struct desync_profile_list *dpl;
struct hostlist_item *hl_item;
LIST_FOREACH(hfile, &params.hostlists, next)
{
if (hfile->filename)
VPRINT("hostlist file %s%s\n",hfile->filename,hfile->hostlist ? "" : " (empty)");
else
VPRINT("hostlist fixed%s\n",hfile->hostlist ? "" : " (empty)");
}
LIST_FOREACH(dpl, &params.desync_profiles, next)
{
LIST_FOREACH(hl_item, &dpl->dp.hl_collection, next)
if (hl_item->hfile!=dpl->dp.hostlist_auto)
{
if (hl_item->hfile->filename)
VPRINT("profile %d include hostlist %s%s\n",dpl->dp.n, hl_item->hfile->filename,hl_item->hfile->hostlist ? "" : " (empty)");
else
VPRINT("profile %d include fixed hostlist%s\n",dpl->dp.n, hl_item->hfile->hostlist ? "" : " (empty)");
}
LIST_FOREACH(hl_item, &dpl->dp.hl_collection_exclude, next)
{
if (hl_item->hfile->filename)
VPRINT("profile %d exclude hostlist %s%s\n",dpl->dp.n,hl_item->hfile->filename,hl_item->hfile->hostlist ? "" : " (empty)");
else
VPRINT("profile %d exclude fixed hostlist%s\n",dpl->dp.n,hl_item->hfile->hostlist ? "" : " (empty)");
}
if (dpl->dp.hostlist_auto)
VPRINT("profile %d auto hostlist %s%s\n",dpl->dp.n,dpl->dp.hostlist_auto->filename,dpl->dp.hostlist_auto->hostlist ? "" : " (empty)");
}
}