/*
+ * maskmap - Tcl extension for address mask map data structures
+ * Copyright 2006 Ian Jackson
+ *
+ * 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 library; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
+ * 02110-1301, USA.
*/
-#include <string.h>
+#include "chiark_tcl_hbytes.h"
-#include "tables.h"
-#include "hbytes.h"
+/*---------- operations on AddrMap_Entry ----------*/
-typedef struct {
- int prefixlen; /* there may be some empty slots with prefixlen==-1 at end */
- Byte *prefix; /* ceil(prefixlen/8) bytes */
- Tcl_Obj *data;
-} MaskMap_Entry;
-
-struct MaskMap_Value {
- int used, space;
- MaskMap_Entry *entries;
-}; /* overlays internalRep */
-
-/*---------- useful stuff ----------*/
-
-static int prefix_bytes (int prefixlen) {
- return (prefixlen + 7)/8;
+static void ame_init(AddrMap_Entry *ame) {
+ ame->prefixlen= -1;
+ ame->prefix= 0;
+ ame->data= 0;
}
-/*---------- operations on MaskMap_Entry ----------*/
-
-static void mme_init(MaskMap_Entry *mme) {
- mme->prefixlen= -1;
- mme->prefix= 0;
- mme->data= 0;
-}
-
-static void mme_free(MaskMap_Entry *mme) {
- TFREE(mme->prefix); mme->prefix=0;
- if (mme->data) { Tcl_DecrRefCount(mme->data); mme->data=0; }
-}
-
-static unsigned mme_clear_unwanted(MaskMap_Entry *mme, int bytes) {
+static unsigned ame_clear_unwanted(AddrMap_Entry *ame, int bytes) {
/* returns non-0 iff some bits were cleared */
int sparebits;
unsigned result, sparemask;
Byte *datap;
- sparebits= bytes * 8 - mme->prefixlen;
+ sparebits= bytes * 8 - ame->prefixlen;
if (!sparebits) return 0;
sparemask= (1u << sparebits) - 1;
- datap= &mme->prefix[bytes-1];
+ datap= &ame->prefix[bytes-1];
result= *datap & sparemask;
*datap &= ~sparemask;
return result;
}
-static int mme_parsekey(Tcl_Interp *ip, MaskMap_Entry *mme,
+static int ame_parsekey(Tcl_Interp *ip, AddrMap_Entry *ame,
Tcl_Obj *prefixo, Tcl_Obj *prefixbitso,
int inmap) {
- /* *mme should be blank entry; after exit (even error exit) it will be valid
+ /* *ame should be blank entry; after exit (even error exit) it will be valid
* - on errors, it will be blank. inmap is 1 if we're parsing an existing
* map or 0 if it's an entry to be added or modified. */
HBytes_Value prefix;
suppliedprefixbytes= hbytes_len(&prefix);
if (suppliedprefixbytes < wantprefixbytes) {
- rc= staticerr(ip, "mask-map entry PREFIX too short for PREFIX-LEN",
- "HBYTES MASKMAP SYNTAX UNDERRUN");
+ rc= staticerr(ip, "addr-map entry PREFIX too short for PREFIX-LEN",
+ "HBYTES ADDRMAP SYNTAX UNDERRUN");
goto x_rc;
}
if (inmap && suppliedprefixbytes > wantprefixbytes) {
- rc= staticerr(ip, "mask-map existing entry PREFIX too long for PREFIX-LEN",
- "HBYTES MASKMAP SYNTAX OVERRUN");
+ rc= staticerr(ip, "addr-map existing entry PREFIX too long for PREFIX-LEN",
+ "HBYTES ADDRMAP SYNTAX OVERRUN");
goto x_rc;
}
- mme->prefixlen= prefixbits;
- mme->prefix= TALLOC(wantprefixbytes); assert(mme->prefix);
- memcpy(mme->prefix, data, wantprefixbytes);
+ ame->prefixlen= prefixbits;
+ ame->prefix= TALLOC(wantprefixbytes); assert(ame->prefix);
+ memcpy(ame->prefix, data, wantprefixbytes);
- if (mme_clear_unwanted(mme, wantprefixbytes)) {
- rc= staticerr(ip, "mask-map entry PREFIX contains bits excluded"
- " by PREFIX-LEN", "HBYTES MASKMAP SYNTAX EXCLBITS");
+ if (ame_clear_unwanted(ame, wantprefixbytes)) {
+ rc= staticerr(ip, "addr-map entry PREFIX contains bits excluded"
+ " by PREFIX-LEN", "HBYTES ADDRMAP SYNTAX EXCLBITS");
goto x_rc;
}
return TCL_OK;
x_rc:
- mme_free(mme);
+ ame_free(ame);
return rc;
}
-static int mme_contains(const MaskMap_Entry *ref, const Byte *addr, int len) {
+static int ame_contains(const AddrMap_Entry *ref, const Byte *addr, int len) {
int directbytes, leftoverbits;
assert(len >= ref->prefixlen);
return 1;
}
-static int mme_compare(const MaskMap_Entry *a, const MaskMap_Entry *b) {
+static int ame_compare(const AddrMap_Entry *a, const AddrMap_Entry *b) {
/* +2 = a covers later range of address space than b
* +1 = a wholly contains but is not equal to b
* 0 = a is identical to b
int ml, d;
if (al==bl) { ml=al; }
- else if (al<bl) { ml=al; if (mme_contains(a,b->prefix,bl)) return +1; }
- else if (bl<al) { ml=bl; if (mme_contains(b,a->prefix,al)) return -1; }
+ else if (al<bl) { ml=al; if (ame_contains(a,b->prefix,bl)) return +1; }
+ else if (bl<al) { ml=bl; if (ame_contains(b,a->prefix,al)) return -1; }
d= memcmp(b->prefix, a->prefix, prefix_bytes(ml));
return (d > 0 ? +2 :
} Search_Result;
static int
-mm_binarychop(MaskMap_Value *mm, int low_oreq, int high_strict, void *u,
- int (*test)(MaskMap_Entry *mm, void *u) /* -ve => look left */,
+am_binarychop(AddrMap_Value *am, int low_oreq, int high_strict, void *u,
+ int (*test)(AddrMap_Entry *am, void *u) /* -ve => look left */,
int *found_r) {
int mid, cmp;
}
mid= (high_strict + low_oreq) / 2;
- cmp= test(&mm->entries[mid], u);
+ cmp= test(&am->entries[mid], u);
if (!cmp) {
*found_r= 1;
}
}
-struct mm_search_u {
+struct am_search_u {
int forbid_aroundsmall;
- MaskMap_Entry proposed;
+ AddrMap_Entry proposed;
Search_Result sr;
};
static int
-mm_search_binchoptest(MaskMap_Entry *mme, void *u_v) {
- struct mm_search_u *u= u_v;
+am_search_binchoptest(AddrMap_Entry *ame, void *u_v) {
+ struct am_search_u *u= u_v;
int cmp;
- cmp= mme_compare(&u.proposed, mme);
+ cmp= ame_compare(&u.proposed, ame);
switch (cmp) {
case -1: u->sr= sr_inbig; return 0;
case 0: u->sr= sr_exact; return 0;
}
static Search_Result
-mm_search(MaskMap_Value *mm, const MaskMap_Entry *proposed, int *place_r) {
+am_search(AddrMap_Value *am, const AddrMap_Entry *proposed, int *place_r) {
int place, found;
- struct mm_search_u u;
+ struct am_search_u u;
u.forbid_aroundsmall= forbid_aroundsmall;
u.proposed= proposed;
u.sr= sr_notfound;
- *place_r= mm_binarychop(mm, 0, mm.used, &u, mm_search_binchoptest, &found);
+ *place_r= am_binarychop(am, 0, am.used, &u, am_search_binchoptest, &found);
assert(!!found == (u.sr != sr_notfound));
return u.sr;
}
-/*---------- useful operations on MaskMap_Value etc. ----------*/
-
-static void mm_init(MaskMap_Value *mm) {
- mm->used= 0;
- mm->space= 0;
- mm->entries= 0;
-}
-
-static void mm_reallocentries(MaskMap_Value *mm, int len) {
- MaskMap_Entry *newentries;
-
- assert(len >= mm->space);
- if (!len) return;
-
- newentries= TREALLOC(mm->entries, sizeof(*newentries)*len);
- assert(newentries);
-
- mm->space= len;
- mm->entries= newentries;
-}
+/*---------- useful operations on AddrMap_Value etc. ----------*/
/*---------- amendment (complex algorithm) ----------*/
-struct mm_amend_aroundsmall_u {
- MaskMap_Entry *new;
+struct am_amend_aroundsmall_u {
+ AddrMap_Entry *new;
int sign;
};
static int
-mm_amend_aroundsmall_binchoptest(MaskMap_Entry *search, void *u_v) {
- struct mm_amend_aroundsmall_u *u= u_v;
+am_amend_aroundsmall_binchoptest(AddrMap_Entry *search, void *u_v) {
+ struct am_amend_aroundsmall_u *u= u_v;
- cmp= u->sign * mme_compare(search, u->new);
+ cmp= u->sign * ame_compare(search, u->new);
switch (cmp) {
case +2: return -u->sign;
}
}
-int do_maskmap_amend(ClientData cd, Tcl_Interp *ip,
- MaskMap_Var map, Tcl_Obj *prefix,
+int do_addrmap_amend(ClientData cd, Tcl_Interp *ip,
+ AddrMap_Var map, Tcl_Obj *prefix,
Tcl_Obj *preflen, Tcl_Obj *data) {
- MaskMap_Value *mm= map.mm;
- MaskMap_Entry new, *fragment;
- MaskMap_Entry *breaking, *replacements;
+ AddrMap_Value *am= map.am;
+ AddrMap_Entry new, *fragment;
+ AddrMap_Entry *breaking, *replacements;
int rc, insertat, findend, cmp, nreplacements, new_used;
- struct mm_amend_aroundsmall_u u;
+ struct am_amend_aroundsmall_u u;
- mme_init(&new);
+ ame_init(&new);
- rc= mme_parsekey(ip,&new,prefix,preflen,0); if (rc) return rc;
+ rc= ame_parsekey(ip,&new,prefix,preflen,0); if (rc) return rc;
- sr= mm_search(mm, &new, &searched);
+ sr= am_search(am, &new, &searched);
replacements= &new;
nreplacements= 1;
break;
case sr_aroundsmall:
- u.mme= new;
+ u.ame= new;
u.sign= -1;
- replace_start= mm_binarychop(mm, 0, searched, &u,
- mm_amend_aroundsmall_binchoptest, &dummy);
+ replace_start= am_binarychop(am, 0, searched, &u,
+ am_amend_aroundsmall_binchoptest, &dummy);
u.sign= +1;
- replace_end= mm_binarychop(mm, searched+1, mm.used, &u,
- mm_amend_aroundsmall_binchoptest, &dummy);
+ replace_end= am_binarychop(am, searched+1, am.used, &u,
+ am_amend_aroundsmall_binchoptest, &dummy);
break;
case sr_inbig:
* ... fff8/14=>A fffc/15=>A fffe/16=>A ffff/16=>B.
*/
- breaking= &mm.entries[searched];
+ breaking= &am.entries[searched];
nreplacements= new.prefix - breaking->prefixlen + 1;
replacements= TALLOC(sizeof(*replacements) * nreplacements);
fragment->prefixlen= fragmentlen;
fragment->prefix= TALLOC(fragmentbytes);
memcpy(fragment->prefix, new.prefix, fragmentbytes);
- mme_clear_unwanted(fragment, fragmentbytes);
+ ame_clear_unwanted(fragment, fragmentbytes);
fragment->prefix[fragmentbytes] ^=
0x80u >> ((fragmentlen+7) & 7);
- switch (mme_compare(&fragment, &new)) {
+ switch (ame_compare(&fragment, &new)) {
case -2: replacements[left_insert++]= fragment; break;
case +2: replacements[--right_insert]= fragment; break;
default: abort();
}
assert(left_insert == right_insert-1);
replacements[left_insert]= new;
- mme_init(&new);
+ ame_init(&new);
replace_end= searched+1;
break;
}
- new_used= mm.used - (replace_end - replace_start) + nreplacements;
+ new_used= am.used - (replace_end - replace_start) + nreplacements;
- if (new_used > mm.space)
- mm_reallocentries(mm, new_used * 2);
+ if (new_used > am.space)
+ am_reallocentries(am, new_used * 2);
for (scan=replacements, i=0;
i < nreplacements;
Tcl_IncrRefCount(scan->data);
}
- for (i= replace_start, scan= mm.entries+i;
+ for (i= replace_start, scan= am.entries+i;
i < replace_end;
i++, scan++) {
- mme_free(scan);
+ ame_free(scan);
}
- memmove(mm.entries + replace_start + nreplacements,
- mm.entries + replace_end,
- sizeof(*mm.entries) * (mm.used - replace_end));
+ memmove(am.entries + replace_start + nreplacements,
+ am.entries + replace_end,
+ sizeof(*am.entries) * (am.used - replace_end));
- memcpy(mm.entries + replace_start,
+ memcpy(am.entries + replace_start,
replacements,
- sizeof(*mm.entries) * nreplacements);
+ sizeof(*am.entries) * nreplacements);
- mm.used= new_used;
+ am.used= new_used;
if (replacements != &new)
/* we don't bother freeing the actual array elements because
* if replacements!=&new the array is only full if we're
* committed and have already copied the values into the actual
- * MaskMap_Value. */
+ * AddrMap_Value. */
TFREE(replacements);
return TCL_OK;
/*---------- other substantial operations on mask maps ----------*/
-int do_maskmap_lookup(ClientData cd, Tcl_Interp *ip,
+int do_addrmap_lookup(ClientData cd, Tcl_Interp *ip,
Tcl_Obj *mapo, HBytes_Value addrhb, Tcl_Obj *def,
Tcl_Obj **result) {
- MaskMap_Value *mm= (void*)&mapo->internalRep;
+ AddrMap_Value *am= (void*)&mapo->internalRep;
const Byte *addr= hbytes_data(&addrhb);
int addrbytes= hbytes_len(&addrhb);
int i, addrbits, place;
Search_Result sr;
addrbits= addrbytes * 8;
- sr= mm_search(mm, addr, addrbits, &place);
+ sr= am_search(am, addr, addrbits, &place);
switch (sr) {
case sr_notfound:
- if (!def) return staticerr(ip, "address not found in mask-map",
- "HBYTES MASKMAP NOMATCH");
+ if (!def) return staticerr(ip, "address not found in addr-map",
+ "HBYTES ADDRMAP NOMATCH");
*result= def;
break;
case sr_aroundsmall:
return staticerr(ip, "address shorter than mask in map",
- "HBYTES MASKMAP UNDERRUN");
+ "HBYTES ADDRMAP UNDERRUN");
case sr_exact:
case sr_inbig:
- *result= mm.entres[place].data;
+ *result= am.entres[place].data;
break;
}
/*---------- Tcl type and arg parsing functions ----------*/
-int pat_maskmapv(Tcl_Interp *ip, Tcl_Obj *var, MaskMap_Var *agg) {
- int rc;
- rc= pat_somethingv(ip,var,&agg->sth,&maskmap_type); if (rc) return rc;
- agg->mm= (void*)&agg->sth.obj->internalRep;
- return TCL_OK;
-}
-
-static void maskmap_t_free(Tcl_Obj *o) {
- MaskMap_Value *mm= (void*)&o->internalRep;
- MaskMap_Entry *mme;
- int i;
-
- for (i=0, mme=mm->entries; i<mm->used; i++, mme++) {
- if (mme->prefixlen==-1) break;
- mme_free(mme);
- }
-}
-
-static void maskmap_t_dup(Tcl_Obj *sob, Tcl_Obj *dob) {
- MaskMap_Value *sm= (void*)&sob->internalRep;
- MaskMap_Value *dm= (void*)&dob->internalRep;
- MaskMap_Entry *sme, *dme;
- int i, nbytes;
-
- assert(sob->typePtr == &maskmap_type);
- objfreeir(dob);
-
- mm_init(dm);
- mm_reallocentries(dm,sm->used);
- dm->used= sm->used;
- for (i=0, sme=sm->entries, dme=dm->entries;
- i < dm->used;
- i++, sme++, dme++) {
- *dme= *sme;
- nbytes= prefix_bytes(sme->prefixlen);
- dme->prefix= TALLOC(nbytes); assert(dme->prefix);
- memcpy(dme->prefix, sme->prefix, nbytes);
- Tcl_IncrRefCount(dme->data);
- }
- dob->typePtr= &maskmap_type;
-}
-
-static void maskmap_t_ustr(Tcl_Obj *so) {
- MaskMap_Value *sm= (void*)&so->internalRep;
- Tcl_Obj **mainlobjsl, *mainobj;
- int i;
-
- assert(so->typePtr == &maskmap_type);
- mainlobjsl= TALLOC(sizeof(*mainlobjsl) * sm->used); assert(mainlobjsl);
-
- for (i=0; i<sm->used; i++) {
- MaskMap_Entry *sme= &sm->entries[i];
- HBytes_Value hb;
- Tcl_Obj *subl[3], *sublo;
-
- hbytes_array(&hb, sme->prefix, prefix_bytes(sme->prefixlen));
- subl[0]= ret_hb(0, hb); assert(subl[0]);
- subl[1]= Tcl_NewIntObj(sme->prefixlen); assert(subl[1]);
- subl[2]= sme->data;
-
- sublo= Tcl_NewListObj(3,subl); assert(sublo);
- mainlobjsl[i]= sublo;
- }
-
- mainobj= Tcl_NewListObj(sm->used,mainlobjsl); assert(mainobj);
- so->bytes= Tcl_GetStringFromObj(mainobj, &so->length); assert(so->bytes);
- mainobj->bytes= 0; mainobj->length= 0; /* we stole it */
-}
-
-static int maskmap_t_sfa(Tcl_Interp *ip, Tcl_Obj *o) {
- int rc, len, eol, i;
- MaskMap_Value mm;
- MaskMap_Entry *mme;
- Tcl_Obj *eo, *prefixo, *prefixleno;
-
- mm_init(&mm);
-
- rc= Tcl_ListObjLength(ip,o,&len); if (rc) goto x_rc;
- mm_reallocentries(&mm, len);
-
- for (i=0, mme=mm.entries; i < len; i++, mme++) {
- rc= Tcl_ListObjIndex(ip,o,i,&eo); if (rc) goto x_rc;
- rc= Tcl_ListObjLength(ip,eo,&eol); if (rc) goto x_rc;
- if (eol != 3) {
- rc= staticerr(ip, "mask-map entry length != 3",
- "HBYTES MASKMAP SYNTAX LLENGTH");
- goto x_rc;
- }
- rc= Tcl_ListObjIndex(ip,eo,0,&prefixo); if (rc) goto x_rc;
- rc= Tcl_ListObjIndex(ip,eo,1,&prefixleno); if (rc) goto x_rc;
- rc= Tcl_ListObjIndex(ip,eo,2,&mm.entries[i].data); if (rc) goto x_rc;
- Tcl_IncrRefCount(mm.entries[i].data);
-
- rc= mme_parsekey(ip, mme, prefixo, prefixleno, 1);
- if (rc) goto x_rc;
-
- mm->used++;
-
- if (i>0) {
- if (mme_ordercompare(mme-1, mme) <= 0) {
- rc= staticerr(ip, "mask-map entries out of order",
- "HBYTES MASKMAP SYNTAX ORDER");
- goto x_rc;
- }
- }
- }
-
- /* we commit now */
- assert(sizeof(mm) <= sizeof(o->internalRep));
- objfreeir(o);
- memcpy(&o->internalRep, &mm, sizeof(mm));
- o->typePtr= &maskmap_type;
- return TCL_OK;
-
-x_rc:
- for (mme=mm.entries, i=0; i<mm.used; i++, mme++)
- mme_free(mme);
- TFREE(mm.entries);
- return rc;
-}
-
-Tcl_ObjType maskmap_type = {
- "mask-map",
- maskmap_t_free, maskmap_t_dup, maskmap_t_ustr, maskmap_t_sfa
-};