Current Path : /sys/netgraph/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/netgraph/ng_parse.c |
/* * ng_parse.c */ /*- * Copyright (c) 1999 Whistle Communications, Inc. * All rights reserved. * * Subject to the following obligations and disclaimer of warranty, use and * redistribution of this software, in source or object code forms, with or * without modifications are expressly permitted by Whistle Communications; * provided, however, that: * 1. Any and all reproductions of the source or object code must include the * copyright notice above and the following disclaimer of warranties; and * 2. No rights are granted, in any manner or form, to use Whistle * Communications, Inc. trademarks, including the mark "WHISTLE * COMMUNICATIONS" on advertising, endorsements, or otherwise except as * such appears in the above copyright notice or in the software. * * THIS SOFTWARE IS BEING PROVIDED BY WHISTLE COMMUNICATIONS "AS IS", AND * TO THE MAXIMUM EXTENT PERMITTED BY LAW, WHISTLE COMMUNICATIONS MAKES NO * REPRESENTATIONS OR WARRANTIES, EXPRESS OR IMPLIED, REGARDING THIS SOFTWARE, * INCLUDING WITHOUT LIMITATION, ANY AND ALL IMPLIED WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, OR NON-INFRINGEMENT. * WHISTLE COMMUNICATIONS DOES NOT WARRANT, GUARANTEE, OR MAKE ANY * REPRESENTATIONS REGARDING THE USE OF, OR THE RESULTS OF THE USE OF THIS * SOFTWARE IN TERMS OF ITS CORRECTNESS, ACCURACY, RELIABILITY OR OTHERWISE. * IN NO EVENT SHALL WHISTLE COMMUNICATIONS BE LIABLE FOR ANY DAMAGES * RESULTING FROM OR ARISING OUT OF ANY USE OF THIS SOFTWARE, INCLUDING * WITHOUT LIMITATION, ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, * PUNITIVE, OR CONSEQUENTIAL DAMAGES, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES, LOSS OF USE, DATA OR PROFITS, HOWEVER CAUSED AND UNDER ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF WHISTLE COMMUNICATIONS IS ADVISED OF THE POSSIBILITY * OF SUCH DAMAGE. * * Author: Archie Cobbs <archie@freebsd.org> * * $Whistle: ng_parse.c,v 1.3 1999/11/29 01:43:48 archie Exp $ * $FreeBSD: release/9.1.0/sys/netgraph/ng_parse.c 224307 2011-07-25 09:12:48Z avg $ */ #include <sys/types.h> #include <sys/param.h> #include <sys/systm.h> #include <sys/kernel.h> #include <sys/errno.h> #include <sys/limits.h> #include <sys/malloc.h> #include <sys/mbuf.h> #include <sys/ctype.h> #include <machine/stdarg.h> #include <net/ethernet.h> #include <netinet/in.h> #include <netgraph/ng_message.h> #include <netgraph/netgraph.h> #include <netgraph/ng_parse.h> #ifdef NG_SEPARATE_MALLOC MALLOC_DEFINE(M_NETGRAPH_PARSE, "netgraph_parse", "netgraph parse info"); #else #define M_NETGRAPH_PARSE M_NETGRAPH #endif /* Compute alignment for primitive integral types */ struct int16_temp { char x; int16_t y; }; struct int32_temp { char x; int32_t y; }; struct int64_temp { char x; int64_t y; }; #define INT8_ALIGNMENT 1 #define INT16_ALIGNMENT ((size_t)&((struct int16_temp *)0)->y) #define INT32_ALIGNMENT ((size_t)&((struct int32_temp *)0)->y) #define INT64_ALIGNMENT ((size_t)&((struct int64_temp *)0)->y) /* Output format for integral types */ #define INT_UNSIGNED 0 #define INT_SIGNED 1 #define INT_HEX 2 /* Type of composite object: struct, array, or fixedarray */ enum comptype { CT_STRUCT, CT_ARRAY, CT_FIXEDARRAY, }; /* Composite types helper functions */ static int ng_parse_composite(const struct ng_parse_type *type, const char *s, int *off, const u_char *start, u_char *const buf, int *buflen, enum comptype ctype); static int ng_unparse_composite(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen, enum comptype ctype); static int ng_get_composite_elem_default(const struct ng_parse_type *type, int index, const u_char *start, u_char *buf, int *buflen, enum comptype ctype); static int ng_get_composite_len(const struct ng_parse_type *type, const u_char *start, const u_char *buf, enum comptype ctype); static const struct ng_parse_type *ng_get_composite_etype(const struct ng_parse_type *type, int index, enum comptype ctype); static int ng_parse_get_elem_pad(const struct ng_parse_type *type, int index, enum comptype ctype, int posn); /* Parsing helper functions */ static int ng_parse_skip_value(const char *s, int off, int *lenp); static int ng_parse_append(char **cbufp, int *cbuflenp, const char *fmt, ...); /* Poor man's virtual method calls */ #define METHOD(t,m) (ng_get_ ## m ## _method(t)) #define INVOKE(t,m) (*METHOD(t,m)) static ng_parse_t *ng_get_parse_method(const struct ng_parse_type *t); static ng_unparse_t *ng_get_unparse_method(const struct ng_parse_type *t); static ng_getDefault_t *ng_get_getDefault_method(const struct ng_parse_type *t); static ng_getAlign_t *ng_get_getAlign_method(const struct ng_parse_type *t); #define ALIGNMENT(t) (METHOD(t, getAlign) == NULL ? \ 0 : INVOKE(t, getAlign)(t)) /************************************************************************ PUBLIC FUNCTIONS ************************************************************************/ /* * Convert an ASCII string to binary according to the supplied type descriptor */ int ng_parse(const struct ng_parse_type *type, const char *string, int *off, u_char *buf, int *buflen) { return INVOKE(type, parse)(type, string, off, buf, buf, buflen); } /* * Convert binary to an ASCII string according to the supplied type descriptor */ int ng_unparse(const struct ng_parse_type *type, const u_char *data, char *cbuf, int cbuflen) { int off = 0; return INVOKE(type, unparse)(type, data, &off, cbuf, cbuflen); } /* * Fill in the default value according to the supplied type descriptor */ int ng_parse_getDefault(const struct ng_parse_type *type, u_char *buf, int *buflen) { ng_getDefault_t *const func = METHOD(type, getDefault); if (func == NULL) return (EOPNOTSUPP); return (*func)(type, buf, buf, buflen); } /************************************************************************ STRUCTURE TYPE ************************************************************************/ static int ng_struct_parse(const struct ng_parse_type *type, const char *s, int *off, const u_char *const start, u_char *const buf, int *buflen) { return ng_parse_composite(type, s, off, start, buf, buflen, CT_STRUCT); } static int ng_struct_unparse(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen) { return ng_unparse_composite(type, data, off, cbuf, cbuflen, CT_STRUCT); } static int ng_struct_getDefault(const struct ng_parse_type *type, const u_char *const start, u_char *buf, int *buflen) { int off = 0; return ng_parse_composite(type, "{}", &off, start, buf, buflen, CT_STRUCT); } static int ng_struct_getAlign(const struct ng_parse_type *type) { const struct ng_parse_struct_field *field; int align = 0; for (field = type->info; field->name != NULL; field++) { int falign = ALIGNMENT(field->type); if (falign > align) align = falign; } return align; } const struct ng_parse_type ng_parse_struct_type = { NULL, NULL, NULL, ng_struct_parse, ng_struct_unparse, ng_struct_getDefault, ng_struct_getAlign }; /************************************************************************ FIXED LENGTH ARRAY TYPE ************************************************************************/ static int ng_fixedarray_parse(const struct ng_parse_type *type, const char *s, int *off, const u_char *const start, u_char *const buf, int *buflen) { return ng_parse_composite(type, s, off, start, buf, buflen, CT_FIXEDARRAY); } static int ng_fixedarray_unparse(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen) { return ng_unparse_composite(type, data, off, cbuf, cbuflen, CT_FIXEDARRAY); } static int ng_fixedarray_getDefault(const struct ng_parse_type *type, const u_char *const start, u_char *buf, int *buflen) { int off = 0; return ng_parse_composite(type, "[]", &off, start, buf, buflen, CT_FIXEDARRAY); } static int ng_fixedarray_getAlign(const struct ng_parse_type *type) { const struct ng_parse_fixedarray_info *fi = type->info; return ALIGNMENT(fi->elementType); } const struct ng_parse_type ng_parse_fixedarray_type = { NULL, NULL, NULL, ng_fixedarray_parse, ng_fixedarray_unparse, ng_fixedarray_getDefault, ng_fixedarray_getAlign }; /************************************************************************ VARIABLE LENGTH ARRAY TYPE ************************************************************************/ static int ng_array_parse(const struct ng_parse_type *type, const char *s, int *off, const u_char *const start, u_char *const buf, int *buflen) { return ng_parse_composite(type, s, off, start, buf, buflen, CT_ARRAY); } static int ng_array_unparse(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen) { return ng_unparse_composite(type, data, off, cbuf, cbuflen, CT_ARRAY); } static int ng_array_getDefault(const struct ng_parse_type *type, const u_char *const start, u_char *buf, int *buflen) { int off = 0; return ng_parse_composite(type, "[]", &off, start, buf, buflen, CT_ARRAY); } static int ng_array_getAlign(const struct ng_parse_type *type) { const struct ng_parse_array_info *ai = type->info; return ALIGNMENT(ai->elementType); } const struct ng_parse_type ng_parse_array_type = { NULL, NULL, NULL, ng_array_parse, ng_array_unparse, ng_array_getDefault, ng_array_getAlign }; /************************************************************************ INT8 TYPE ************************************************************************/ static int ng_int8_parse(const struct ng_parse_type *type, const char *s, int *off, const u_char *const start, u_char *const buf, int *buflen) { long val; int8_t val8; char *eptr; val = strtol(s + *off, &eptr, 0); if (val < (int8_t)0x80 || val > (u_int8_t)0xff || eptr == s + *off) return (EINVAL); *off = eptr - s; val8 = (int8_t)val; bcopy(&val8, buf, sizeof(int8_t)); *buflen = sizeof(int8_t); return (0); } static int ng_int8_unparse(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen) { const char *fmt; int fval; int error; int8_t val; bcopy(data + *off, &val, sizeof(int8_t)); switch ((intptr_t)type->info) { case INT_SIGNED: fmt = "%d"; fval = val; break; case INT_UNSIGNED: fmt = "%u"; fval = (u_int8_t)val; break; case INT_HEX: fmt = "0x%x"; fval = (u_int8_t)val; break; default: panic("%s: unknown type", __func__); } if ((error = ng_parse_append(&cbuf, &cbuflen, fmt, fval)) != 0) return (error); *off += sizeof(int8_t); return (0); } static int ng_int8_getDefault(const struct ng_parse_type *type, const u_char *const start, u_char *buf, int *buflen) { int8_t val; if (*buflen < sizeof(int8_t)) return (ERANGE); val = 0; bcopy(&val, buf, sizeof(int8_t)); *buflen = sizeof(int8_t); return (0); } static int ng_int8_getAlign(const struct ng_parse_type *type) { return INT8_ALIGNMENT; } const struct ng_parse_type ng_parse_int8_type = { NULL, (void *)INT_SIGNED, NULL, ng_int8_parse, ng_int8_unparse, ng_int8_getDefault, ng_int8_getAlign }; const struct ng_parse_type ng_parse_uint8_type = { &ng_parse_int8_type, (void *)INT_UNSIGNED }; const struct ng_parse_type ng_parse_hint8_type = { &ng_parse_int8_type, (void *)INT_HEX }; /************************************************************************ INT16 TYPE ************************************************************************/ static int ng_int16_parse(const struct ng_parse_type *type, const char *s, int *off, const u_char *const start, u_char *const buf, int *buflen) { long val; int16_t val16; char *eptr; val = strtol(s + *off, &eptr, 0); if (val < (int16_t)0x8000 || val > (u_int16_t)0xffff || eptr == s + *off) return (EINVAL); *off = eptr - s; val16 = (int16_t)val; bcopy(&val16, buf, sizeof(int16_t)); *buflen = sizeof(int16_t); return (0); } static int ng_int16_unparse(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen) { const char *fmt; int fval; int error; int16_t val; bcopy(data + *off, &val, sizeof(int16_t)); switch ((intptr_t)type->info) { case INT_SIGNED: fmt = "%d"; fval = val; break; case INT_UNSIGNED: fmt = "%u"; fval = (u_int16_t)val; break; case INT_HEX: fmt = "0x%x"; fval = (u_int16_t)val; break; default: panic("%s: unknown type", __func__); } if ((error = ng_parse_append(&cbuf, &cbuflen, fmt, fval)) != 0) return (error); *off += sizeof(int16_t); return (0); } static int ng_int16_getDefault(const struct ng_parse_type *type, const u_char *const start, u_char *buf, int *buflen) { int16_t val; if (*buflen < sizeof(int16_t)) return (ERANGE); val = 0; bcopy(&val, buf, sizeof(int16_t)); *buflen = sizeof(int16_t); return (0); } static int ng_int16_getAlign(const struct ng_parse_type *type) { return INT16_ALIGNMENT; } const struct ng_parse_type ng_parse_int16_type = { NULL, (void *)INT_SIGNED, NULL, ng_int16_parse, ng_int16_unparse, ng_int16_getDefault, ng_int16_getAlign }; const struct ng_parse_type ng_parse_uint16_type = { &ng_parse_int16_type, (void *)INT_UNSIGNED }; const struct ng_parse_type ng_parse_hint16_type = { &ng_parse_int16_type, (void *)INT_HEX }; /************************************************************************ INT32 TYPE ************************************************************************/ static int ng_int32_parse(const struct ng_parse_type *type, const char *s, int *off, const u_char *const start, u_char *const buf, int *buflen) { long val; /* assumes long is at least 32 bits */ int32_t val32; char *eptr; if ((intptr_t)type->info == INT_SIGNED) val = strtol(s + *off, &eptr, 0); else val = strtoul(s + *off, &eptr, 0); if (val < (int32_t)0x80000000 || val > (u_int32_t)0xffffffff || eptr == s + *off) return (EINVAL); *off = eptr - s; val32 = (int32_t)val; bcopy(&val32, buf, sizeof(int32_t)); *buflen = sizeof(int32_t); return (0); } static int ng_int32_unparse(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen) { const char *fmt; long fval; int error; int32_t val; bcopy(data + *off, &val, sizeof(int32_t)); switch ((intptr_t)type->info) { case INT_SIGNED: fmt = "%ld"; fval = val; break; case INT_UNSIGNED: fmt = "%lu"; fval = (u_int32_t)val; break; case INT_HEX: fmt = "0x%lx"; fval = (u_int32_t)val; break; default: panic("%s: unknown type", __func__); } if ((error = ng_parse_append(&cbuf, &cbuflen, fmt, fval)) != 0) return (error); *off += sizeof(int32_t); return (0); } static int ng_int32_getDefault(const struct ng_parse_type *type, const u_char *const start, u_char *buf, int *buflen) { int32_t val; if (*buflen < sizeof(int32_t)) return (ERANGE); val = 0; bcopy(&val, buf, sizeof(int32_t)); *buflen = sizeof(int32_t); return (0); } static int ng_int32_getAlign(const struct ng_parse_type *type) { return INT32_ALIGNMENT; } const struct ng_parse_type ng_parse_int32_type = { NULL, (void *)INT_SIGNED, NULL, ng_int32_parse, ng_int32_unparse, ng_int32_getDefault, ng_int32_getAlign }; const struct ng_parse_type ng_parse_uint32_type = { &ng_parse_int32_type, (void *)INT_UNSIGNED }; const struct ng_parse_type ng_parse_hint32_type = { &ng_parse_int32_type, (void *)INT_HEX }; /************************************************************************ INT64 TYPE ************************************************************************/ static int ng_int64_parse(const struct ng_parse_type *type, const char *s, int *off, const u_char *const start, u_char *const buf, int *buflen) { quad_t val; int64_t val64; char *eptr; val = strtoq(s + *off, &eptr, 0); if (eptr == s + *off) return (EINVAL); *off = eptr - s; val64 = (int64_t)val; bcopy(&val64, buf, sizeof(int64_t)); *buflen = sizeof(int64_t); return (0); } static int ng_int64_unparse(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen) { const char *fmt; long long fval; int64_t val; int error; bcopy(data + *off, &val, sizeof(int64_t)); switch ((intptr_t)type->info) { case INT_SIGNED: fmt = "%lld"; fval = val; break; case INT_UNSIGNED: fmt = "%llu"; fval = (u_int64_t)val; break; case INT_HEX: fmt = "0x%llx"; fval = (u_int64_t)val; break; default: panic("%s: unknown type", __func__); } if ((error = ng_parse_append(&cbuf, &cbuflen, fmt, fval)) != 0) return (error); *off += sizeof(int64_t); return (0); } static int ng_int64_getDefault(const struct ng_parse_type *type, const u_char *const start, u_char *buf, int *buflen) { int64_t val; if (*buflen < sizeof(int64_t)) return (ERANGE); val = 0; bcopy(&val, buf, sizeof(int64_t)); *buflen = sizeof(int64_t); return (0); } static int ng_int64_getAlign(const struct ng_parse_type *type) { return INT64_ALIGNMENT; } const struct ng_parse_type ng_parse_int64_type = { NULL, (void *)INT_SIGNED, NULL, ng_int64_parse, ng_int64_unparse, ng_int64_getDefault, ng_int64_getAlign }; const struct ng_parse_type ng_parse_uint64_type = { &ng_parse_int64_type, (void *)INT_UNSIGNED }; const struct ng_parse_type ng_parse_hint64_type = { &ng_parse_int64_type, (void *)INT_HEX }; /************************************************************************ STRING TYPE ************************************************************************/ static int ng_string_parse(const struct ng_parse_type *type, const char *s, int *off, const u_char *const start, u_char *const buf, int *buflen) { char *sval; int len; int slen; if ((sval = ng_get_string_token(s, off, &len, &slen)) == NULL) return (EINVAL); *off += len; bcopy(sval, buf, slen + 1); free(sval, M_NETGRAPH_PARSE); *buflen = slen + 1; return (0); } static int ng_string_unparse(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen) { const char *const raw = (const char *)data + *off; char *const s = ng_encode_string(raw, strlen(raw)); int error; if (s == NULL) return (ENOMEM); if ((error = ng_parse_append(&cbuf, &cbuflen, "%s", s)) != 0) { free(s, M_NETGRAPH_PARSE); return (error); } *off += strlen(raw) + 1; free(s, M_NETGRAPH_PARSE); return (0); } static int ng_string_getDefault(const struct ng_parse_type *type, const u_char *const start, u_char *buf, int *buflen) { if (*buflen < 1) return (ERANGE); buf[0] = (u_char)'\0'; *buflen = 1; return (0); } const struct ng_parse_type ng_parse_string_type = { NULL, NULL, NULL, ng_string_parse, ng_string_unparse, ng_string_getDefault, NULL }; /************************************************************************ FIXED BUFFER STRING TYPE ************************************************************************/ static int ng_fixedstring_parse(const struct ng_parse_type *type, const char *s, int *off, const u_char *const start, u_char *const buf, int *buflen) { const struct ng_parse_fixedstring_info *const fi = type->info; char *sval; int len; int slen; if ((sval = ng_get_string_token(s, off, &len, &slen)) == NULL) return (EINVAL); if (slen + 1 > fi->bufSize) { free(sval, M_NETGRAPH_PARSE); return (E2BIG); } *off += len; bcopy(sval, buf, slen); free(sval, M_NETGRAPH_PARSE); bzero(buf + slen, fi->bufSize - slen); *buflen = fi->bufSize; return (0); } static int ng_fixedstring_unparse(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen) { const struct ng_parse_fixedstring_info *const fi = type->info; int error, temp = *off; if ((error = ng_string_unparse(type, data, &temp, cbuf, cbuflen)) != 0) return (error); *off += fi->bufSize; return (0); } static int ng_fixedstring_getDefault(const struct ng_parse_type *type, const u_char *const start, u_char *buf, int *buflen) { const struct ng_parse_fixedstring_info *const fi = type->info; if (*buflen < fi->bufSize) return (ERANGE); bzero(buf, fi->bufSize); *buflen = fi->bufSize; return (0); } const struct ng_parse_type ng_parse_fixedstring_type = { NULL, NULL, NULL, ng_fixedstring_parse, ng_fixedstring_unparse, ng_fixedstring_getDefault, NULL }; const struct ng_parse_fixedstring_info ng_parse_nodebuf_info = { NG_NODESIZ }; const struct ng_parse_type ng_parse_nodebuf_type = { &ng_parse_fixedstring_type, &ng_parse_nodebuf_info }; const struct ng_parse_fixedstring_info ng_parse_hookbuf_info = { NG_HOOKSIZ }; const struct ng_parse_type ng_parse_hookbuf_type = { &ng_parse_fixedstring_type, &ng_parse_hookbuf_info }; const struct ng_parse_fixedstring_info ng_parse_pathbuf_info = { NG_PATHSIZ }; const struct ng_parse_type ng_parse_pathbuf_type = { &ng_parse_fixedstring_type, &ng_parse_pathbuf_info }; const struct ng_parse_fixedstring_info ng_parse_typebuf_info = { NG_TYPESIZ }; const struct ng_parse_type ng_parse_typebuf_type = { &ng_parse_fixedstring_type, &ng_parse_typebuf_info }; const struct ng_parse_fixedstring_info ng_parse_cmdbuf_info = { NG_CMDSTRSIZ }; const struct ng_parse_type ng_parse_cmdbuf_type = { &ng_parse_fixedstring_type, &ng_parse_cmdbuf_info }; /************************************************************************ EXPLICITLY SIZED STRING TYPE ************************************************************************/ static int ng_sizedstring_parse(const struct ng_parse_type *type, const char *s, int *off, const u_char *const start, u_char *const buf, int *buflen) { char *sval; int len; int slen; if ((sval = ng_get_string_token(s, off, &len, &slen)) == NULL) return (EINVAL); if (slen > USHRT_MAX) { free(sval, M_NETGRAPH_PARSE); return (EINVAL); } *off += len; *((u_int16_t *)buf) = (u_int16_t)slen; bcopy(sval, buf + 2, slen); free(sval, M_NETGRAPH_PARSE); *buflen = 2 + slen; return (0); } static int ng_sizedstring_unparse(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen) { const char *const raw = (const char *)data + *off + 2; const int slen = *((const u_int16_t *)(data + *off)); char *const s = ng_encode_string(raw, slen); int error; if (s == NULL) return (ENOMEM); if ((error = ng_parse_append(&cbuf, &cbuflen, "%s", s)) != 0) { free(s, M_NETGRAPH_PARSE); return (error); } free(s, M_NETGRAPH_PARSE); *off += slen + 2; return (0); } static int ng_sizedstring_getDefault(const struct ng_parse_type *type, const u_char *const start, u_char *buf, int *buflen) { if (*buflen < 2) return (ERANGE); bzero(buf, 2); *buflen = 2; return (0); } const struct ng_parse_type ng_parse_sizedstring_type = { NULL, NULL, NULL, ng_sizedstring_parse, ng_sizedstring_unparse, ng_sizedstring_getDefault, NULL }; /************************************************************************ IP ADDRESS TYPE ************************************************************************/ static int ng_ipaddr_parse(const struct ng_parse_type *type, const char *s, int *off, const u_char *const start, u_char *const buf, int *buflen) { int i, error; for (i = 0; i < 4; i++) { if ((error = ng_int8_parse(&ng_parse_int8_type, s, off, start, buf + i, buflen)) != 0) return (error); if (i < 3 && s[*off] != '.') return (EINVAL); (*off)++; } *buflen = 4; return (0); } static int ng_ipaddr_unparse(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen) { struct in_addr ip; int error; bcopy(data + *off, &ip, sizeof(ip)); if ((error = ng_parse_append(&cbuf, &cbuflen, "%d.%d.%d.%d", ((u_char *)&ip)[0], ((u_char *)&ip)[1], ((u_char *)&ip)[2], ((u_char *)&ip)[3])) != 0) return (error); *off += sizeof(ip); return (0); } static int ng_ipaddr_getDefault(const struct ng_parse_type *type, const u_char *const start, u_char *buf, int *buflen) { struct in_addr ip = { 0 }; if (*buflen < sizeof(ip)) return (ERANGE); bcopy(&ip, buf, sizeof(ip)); *buflen = sizeof(ip); return (0); } const struct ng_parse_type ng_parse_ipaddr_type = { NULL, NULL, NULL, ng_ipaddr_parse, ng_ipaddr_unparse, ng_ipaddr_getDefault, ng_int32_getAlign }; /************************************************************************ ETHERNET ADDRESS TYPE ************************************************************************/ static int ng_enaddr_parse(const struct ng_parse_type *type, const char *s, int *const off, const u_char *const start, u_char *const buf, int *const buflen) { char *eptr; u_long val; int i; if (*buflen < ETHER_ADDR_LEN) return (ERANGE); for (i = 0; i < ETHER_ADDR_LEN; i++) { val = strtoul(s + *off, &eptr, 16); if (val > 0xff || eptr == s + *off) return (EINVAL); buf[i] = (u_char)val; *off = (eptr - s); if (i < ETHER_ADDR_LEN - 1) { if (*eptr != ':') return (EINVAL); (*off)++; } } *buflen = ETHER_ADDR_LEN; return (0); } static int ng_enaddr_unparse(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen) { int len; len = snprintf(cbuf, cbuflen, "%02x:%02x:%02x:%02x:%02x:%02x", data[*off], data[*off + 1], data[*off + 2], data[*off + 3], data[*off + 4], data[*off + 5]); if (len >= cbuflen) return (ERANGE); *off += ETHER_ADDR_LEN; return (0); } const struct ng_parse_type ng_parse_enaddr_type = { NULL, NULL, NULL, ng_enaddr_parse, ng_enaddr_unparse, NULL, 0 }; /************************************************************************ BYTE ARRAY TYPE ************************************************************************/ /* Get the length of a byte array */ static int ng_parse_bytearray_subtype_getLength(const struct ng_parse_type *type, const u_char *start, const u_char *buf) { ng_parse_array_getLength_t *const getLength = type->private; return (*getLength)(type, start, buf); } /* Byte array element type is hex int8 */ static const struct ng_parse_array_info ng_parse_bytearray_subtype_info = { &ng_parse_hint8_type, &ng_parse_bytearray_subtype_getLength, NULL }; static const struct ng_parse_type ng_parse_bytearray_subtype = { &ng_parse_array_type, &ng_parse_bytearray_subtype_info }; static int ng_bytearray_parse(const struct ng_parse_type *type, const char *s, int *off, const u_char *const start, u_char *const buf, int *buflen) { char *str; int toklen; int slen; /* We accept either an array of bytes or a string constant */ if ((str = ng_get_string_token(s, off, &toklen, &slen)) != NULL) { ng_parse_array_getLength_t *const getLength = type->info; int arraylen; arraylen = (*getLength)(type, start, buf); if (arraylen > *buflen) { free(str, M_NETGRAPH_PARSE); return (ERANGE); } if (slen > arraylen) { free(str, M_NETGRAPH_PARSE); return (E2BIG); } bcopy(str, buf, slen); bzero(buf + slen, arraylen - slen); free(str, M_NETGRAPH_PARSE); *off += toklen; *buflen = arraylen; return (0); } else { struct ng_parse_type subtype; subtype = ng_parse_bytearray_subtype; *(const void **)&subtype.private = type->info; return ng_array_parse(&subtype, s, off, start, buf, buflen); } } static int ng_bytearray_unparse(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen) { struct ng_parse_type subtype; subtype = ng_parse_bytearray_subtype; *(const void **)&subtype.private = type->info; return ng_array_unparse(&subtype, data, off, cbuf, cbuflen); } static int ng_bytearray_getDefault(const struct ng_parse_type *type, const u_char *const start, u_char *buf, int *buflen) { struct ng_parse_type subtype; subtype = ng_parse_bytearray_subtype; *(const void **)&subtype.private = type->info; return ng_array_getDefault(&subtype, start, buf, buflen); } const struct ng_parse_type ng_parse_bytearray_type = { NULL, NULL, NULL, ng_bytearray_parse, ng_bytearray_unparse, ng_bytearray_getDefault, NULL }; /************************************************************************ STRUCT NG_MESG TYPE ************************************************************************/ /* Get msg->header.arglen when "buf" is pointing to msg->data */ static int ng_parse_ng_mesg_getLength(const struct ng_parse_type *type, const u_char *start, const u_char *buf) { const struct ng_mesg *msg; msg = (const struct ng_mesg *)(buf - sizeof(*msg)); return msg->header.arglen; } /* Type for the variable length data portion of a struct ng_mesg */ static const struct ng_parse_type ng_msg_data_type = { &ng_parse_bytearray_type, &ng_parse_ng_mesg_getLength }; /* Type for the entire struct ng_mesg header with data section */ static const struct ng_parse_struct_field ng_parse_ng_mesg_type_fields[] = NG_GENERIC_NG_MESG_INFO(&ng_msg_data_type); const struct ng_parse_type ng_parse_ng_mesg_type = { &ng_parse_struct_type, &ng_parse_ng_mesg_type_fields, }; /************************************************************************ COMPOSITE HELPER ROUTINES ************************************************************************/ /* * Convert a structure or array from ASCII to binary */ static int ng_parse_composite(const struct ng_parse_type *type, const char *s, int *off, const u_char *const start, u_char *const buf, int *buflen, const enum comptype ctype) { const int num = ng_get_composite_len(type, start, buf, ctype); int nextIndex = 0; /* next implicit array index */ u_int index; /* field or element index */ int *foff; /* field value offsets in string */ int align, len, blen, error = 0; /* Initialize */ foff = malloc(num * sizeof(*foff), M_NETGRAPH_PARSE, M_NOWAIT | M_ZERO); if (foff == NULL) { error = ENOMEM; goto done; } /* Get opening brace/bracket */ if (ng_parse_get_token(s, off, &len) != (ctype == CT_STRUCT ? T_LBRACE : T_LBRACKET)) { error = EINVAL; goto done; } *off += len; /* Get individual element value positions in the string */ for (;;) { enum ng_parse_token tok; /* Check for closing brace/bracket */ tok = ng_parse_get_token(s, off, &len); if (tok == (ctype == CT_STRUCT ? T_RBRACE : T_RBRACKET)) { *off += len; break; } /* For arrays, the 'name' (ie, index) is optional, so distinguish name from values by seeing if the next token is an equals sign */ if (ctype != CT_STRUCT) { int len2, off2; char *eptr; /* If an opening brace/bracket, index is implied */ if (tok == T_LBRACE || tok == T_LBRACKET) { index = nextIndex++; goto gotIndex; } /* Might be an index, might be a value, either way... */ if (tok != T_WORD) { error = EINVAL; goto done; } /* If no equals sign follows, index is implied */ off2 = *off + len; if (ng_parse_get_token(s, &off2, &len2) != T_EQUALS) { index = nextIndex++; goto gotIndex; } /* Index was specified explicitly; parse it */ index = (u_int)strtoul(s + *off, &eptr, 0); if (index < 0 || eptr - (s + *off) != len) { error = EINVAL; goto done; } nextIndex = index + 1; *off += len + len2; } else { /* a structure field */ const struct ng_parse_struct_field *const fields = type->info; /* Find the field by name (required) in field list */ if (tok != T_WORD) { error = EINVAL; goto done; } for (index = 0; index < num; index++) { const struct ng_parse_struct_field *const field = &fields[index]; if (strncmp(&s[*off], field->name, len) == 0 && field->name[len] == '\0') break; } if (index == num) { error = ENOENT; goto done; } *off += len; /* Get equals sign */ if (ng_parse_get_token(s, off, &len) != T_EQUALS) { error = EINVAL; goto done; } *off += len; } gotIndex: /* Check array index */ if (index >= num) { error = E2BIG; goto done; } /* Save value's position and skip over it for now */ if (foff[index] != 0) { error = EALREADY; /* duplicate */ goto done; } while (isspace(s[*off])) (*off)++; foff[index] = *off; if ((error = ng_parse_skip_value(s, *off, &len)) != 0) goto done; *off += len; } /* Now build binary structure from supplied values and defaults */ for (blen = index = 0; index < num; index++) { const struct ng_parse_type *const etype = ng_get_composite_etype(type, index, ctype); int k, pad, vlen; /* Zero-pad any alignment bytes */ pad = ng_parse_get_elem_pad(type, index, ctype, blen); for (k = 0; k < pad; k++) { if (blen >= *buflen) { error = ERANGE; goto done; } buf[blen++] = 0; } /* Get value */ vlen = *buflen - blen; if (foff[index] == 0) { /* use default value */ error = ng_get_composite_elem_default(type, index, start, buf + blen, &vlen, ctype); } else { /* parse given value */ *off = foff[index]; error = INVOKE(etype, parse)(etype, s, off, start, buf + blen, &vlen); } if (error != 0) goto done; blen += vlen; } /* Make total composite structure size a multiple of its alignment */ if ((align = ALIGNMENT(type)) != 0) { while (blen % align != 0) { if (blen >= *buflen) { error = ERANGE; goto done; } buf[blen++] = 0; } } /* Done */ *buflen = blen; done: if (foff != NULL) free(foff, M_NETGRAPH_PARSE); return (error); } /* * Convert an array or structure from binary to ASCII */ static int ng_unparse_composite(const struct ng_parse_type *type, const u_char *data, int *off, char *cbuf, int cbuflen, const enum comptype ctype) { const struct ng_mesg *const hdr = (const struct ng_mesg *)(data - sizeof(*hdr)); const int num = ng_get_composite_len(type, data, data + *off, ctype); const int workSize = 20 * 1024; /* XXX hard coded constant */ int nextIndex = 0, didOne = 0; int error, index; u_char *workBuf; /* Get workspace for checking default values */ workBuf = malloc(workSize, M_NETGRAPH_PARSE, M_NOWAIT); if (workBuf == NULL) return (ENOMEM); /* Opening brace/bracket */ if ((error = ng_parse_append(&cbuf, &cbuflen, "%c", (ctype == CT_STRUCT) ? '{' : '[')) != 0) goto fail; /* Do each item */ for (index = 0; index < num; index++) { const struct ng_parse_type *const etype = ng_get_composite_etype(type, index, ctype); /* Skip any alignment pad bytes */ *off += ng_parse_get_elem_pad(type, index, ctype, *off); /* * See if element is equal to its default value; skip if so. * Copy struct ng_mesg header for types that peek into it. */ if (sizeof(*hdr) + *off < workSize) { int tempsize = workSize - sizeof(*hdr) - *off; bcopy(hdr, workBuf, sizeof(*hdr) + *off); if (ng_get_composite_elem_default(type, index, workBuf + sizeof(*hdr), workBuf + sizeof(*hdr) + *off, &tempsize, ctype) == 0 && bcmp(workBuf + sizeof(*hdr) + *off, data + *off, tempsize) == 0) { *off += tempsize; continue; } } /* Print name= */ if ((error = ng_parse_append(&cbuf, &cbuflen, " ")) != 0) goto fail; if (ctype != CT_STRUCT) { if (index != nextIndex) { nextIndex = index; if ((error = ng_parse_append(&cbuf, &cbuflen, "%d=", index)) != 0) goto fail; } nextIndex++; } else { const struct ng_parse_struct_field *const fields = type->info; if ((error = ng_parse_append(&cbuf, &cbuflen, "%s=", fields[index].name)) != 0) goto fail; } /* Print value */ if ((error = INVOKE(etype, unparse) (etype, data, off, cbuf, cbuflen)) != 0) { free(workBuf, M_NETGRAPH_PARSE); return (error); } cbuflen -= strlen(cbuf); cbuf += strlen(cbuf); didOne = 1; } /* Closing brace/bracket */ error = ng_parse_append(&cbuf, &cbuflen, "%s%c", didOne ? " " : "", (ctype == CT_STRUCT) ? '}' : ']'); fail: /* Clean up after failure */ free(workBuf, M_NETGRAPH_PARSE); return (error); } /* * Generate the default value for an element of an array or structure * Returns EOPNOTSUPP if default value is unspecified. */ static int ng_get_composite_elem_default(const struct ng_parse_type *type, int index, const u_char *const start, u_char *buf, int *buflen, const enum comptype ctype) { const struct ng_parse_type *etype; ng_getDefault_t *func; switch (ctype) { case CT_STRUCT: break; case CT_ARRAY: { const struct ng_parse_array_info *const ai = type->info; if (ai->getDefault != NULL) { return (*ai->getDefault)(type, index, start, buf, buflen); } break; } case CT_FIXEDARRAY: { const struct ng_parse_fixedarray_info *const fi = type->info; if (*fi->getDefault != NULL) { return (*fi->getDefault)(type, index, start, buf, buflen); } break; } default: panic("%s", __func__); } /* Default to element type default */ etype = ng_get_composite_etype(type, index, ctype); func = METHOD(etype, getDefault); if (func == NULL) return (EOPNOTSUPP); return (*func)(etype, start, buf, buflen); } /* * Get the number of elements in a struct, variable or fixed array. */ static int ng_get_composite_len(const struct ng_parse_type *type, const u_char *const start, const u_char *buf, const enum comptype ctype) { switch (ctype) { case CT_STRUCT: { const struct ng_parse_struct_field *const fields = type->info; int numFields = 0; for (numFields = 0; ; numFields++) { const struct ng_parse_struct_field *const fi = &fields[numFields]; if (fi->name == NULL) break; } return (numFields); } case CT_ARRAY: { const struct ng_parse_array_info *const ai = type->info; return (*ai->getLength)(type, start, buf); } case CT_FIXEDARRAY: { const struct ng_parse_fixedarray_info *const fi = type->info; return fi->length; } default: panic("%s", __func__); } return (0); } /* * Return the type of the index'th element of a composite structure */ static const struct ng_parse_type * ng_get_composite_etype(const struct ng_parse_type *type, int index, const enum comptype ctype) { const struct ng_parse_type *etype = NULL; switch (ctype) { case CT_STRUCT: { const struct ng_parse_struct_field *const fields = type->info; etype = fields[index].type; break; } case CT_ARRAY: { const struct ng_parse_array_info *const ai = type->info; etype = ai->elementType; break; } case CT_FIXEDARRAY: { const struct ng_parse_fixedarray_info *const fi = type->info; etype = fi->elementType; break; } default: panic("%s", __func__); } return (etype); } /* * Get the number of bytes to skip to align for the next * element in a composite structure. */ static int ng_parse_get_elem_pad(const struct ng_parse_type *type, int index, enum comptype ctype, int posn) { const struct ng_parse_type *const etype = ng_get_composite_etype(type, index, ctype); int align; /* Get element's alignment, and possibly override */ align = ALIGNMENT(etype); if (ctype == CT_STRUCT) { const struct ng_parse_struct_field *const fields = type->info; if (fields[index].alignment != 0) align = fields[index].alignment; } /* Return number of bytes to skip to align */ return (align ? (align - (posn % align)) % align : 0); } /************************************************************************ PARSING HELPER ROUTINES ************************************************************************/ /* * Append to a fixed length string buffer. */ static int ng_parse_append(char **cbufp, int *cbuflenp, const char *fmt, ...) { va_list args; int len; va_start(args, fmt); len = vsnprintf(*cbufp, *cbuflenp, fmt, args); va_end(args); if (len >= *cbuflenp) return ERANGE; *cbufp += len; *cbuflenp -= len; return (0); } /* * Skip over a value */ static int ng_parse_skip_value(const char *s, int off0, int *lenp) { int len, nbracket, nbrace; int off = off0; len = nbracket = nbrace = 0; do { switch (ng_parse_get_token(s, &off, &len)) { case T_LBRACKET: nbracket++; break; case T_LBRACE: nbrace++; break; case T_RBRACKET: if (nbracket-- == 0) return (EINVAL); break; case T_RBRACE: if (nbrace-- == 0) return (EINVAL); break; case T_EOF: return (EINVAL); default: break; } off += len; } while (nbracket > 0 || nbrace > 0); *lenp = off - off0; return (0); } /* * Find the next token in the string, starting at offset *startp. * Returns the token type, with *startp pointing to the first char * and *lenp the length. */ enum ng_parse_token ng_parse_get_token(const char *s, int *startp, int *lenp) { char *t; int i; while (isspace(s[*startp])) (*startp)++; switch (s[*startp]) { case '\0': *lenp = 0; return T_EOF; case '{': *lenp = 1; return T_LBRACE; case '}': *lenp = 1; return T_RBRACE; case '[': *lenp = 1; return T_LBRACKET; case ']': *lenp = 1; return T_RBRACKET; case '=': *lenp = 1; return T_EQUALS; case '"': if ((t = ng_get_string_token(s, startp, lenp, NULL)) == NULL) return T_ERROR; free(t, M_NETGRAPH_PARSE); return T_STRING; default: for (i = *startp + 1; s[i] != '\0' && !isspace(s[i]) && s[i] != '{' && s[i] != '}' && s[i] != '[' && s[i] != ']' && s[i] != '=' && s[i] != '"'; i++) ; *lenp = i - *startp; return T_WORD; } } /* * Get a string token, which must be enclosed in double quotes. * The normal C backslash escapes are recognized. */ char * ng_get_string_token(const char *s, int *startp, int *lenp, int *slenp) { char *cbuf, *p; int start, off; int slen; while (isspace(s[*startp])) (*startp)++; start = *startp; if (s[*startp] != '"') return (NULL); cbuf = malloc(strlen(s + start), M_NETGRAPH_PARSE, M_NOWAIT); if (cbuf == NULL) return (NULL); strcpy(cbuf, s + start + 1); for (slen = 0, off = 1, p = cbuf; *p != '\0'; slen++, off++, p++) { if (*p == '"') { *p = '\0'; *lenp = off + 1; if (slenp != NULL) *slenp = slen; return (cbuf); } else if (p[0] == '\\' && p[1] != '\0') { int x, k; char *v; strcpy(p, p + 1); v = p; switch (*p) { case 't': *v = '\t'; off++; continue; case 'n': *v = '\n'; off++; continue; case 'r': *v = '\r'; off++; continue; case 'v': *v = '\v'; off++; continue; case 'f': *v = '\f'; off++; continue; case '"': *v = '"'; off++; continue; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': for (x = k = 0; k < 3 && *v >= '0' && *v <= '7'; v++) { x = (x << 3) + (*v - '0'); off++; } *--v = (char)x; break; case 'x': for (v++, x = k = 0; k < 2 && isxdigit(*v); v++) { x = (x << 4) + (isdigit(*v) ? (*v - '0') : (tolower(*v) - 'a' + 10)); off++; } *--v = (char)x; break; default: continue; } strcpy(p, v); } } free(cbuf, M_NETGRAPH_PARSE); return (NULL); /* no closing quote */ } /* * Encode a string so it can be safely put in double quotes. * Caller must free the result. Exactly "slen" characters * are encoded. */ char * ng_encode_string(const char *raw, int slen) { char *cbuf; int off = 0; int i; cbuf = malloc(strlen(raw) * 4 + 3, M_NETGRAPH_PARSE, M_NOWAIT); if (cbuf == NULL) return (NULL); cbuf[off++] = '"'; for (i = 0; i < slen; i++, raw++) { switch (*raw) { case '\t': cbuf[off++] = '\\'; cbuf[off++] = 't'; break; case '\f': cbuf[off++] = '\\'; cbuf[off++] = 'f'; break; case '\n': cbuf[off++] = '\\'; cbuf[off++] = 'n'; break; case '\r': cbuf[off++] = '\\'; cbuf[off++] = 'r'; break; case '\v': cbuf[off++] = '\\'; cbuf[off++] = 'v'; break; case '"': case '\\': cbuf[off++] = '\\'; cbuf[off++] = *raw; break; default: if (*raw < 0x20 || *raw > 0x7e) { off += sprintf(cbuf + off, "\\x%02x", (u_char)*raw); break; } cbuf[off++] = *raw; break; } } cbuf[off++] = '"'; cbuf[off] = '\0'; return (cbuf); } /************************************************************************ VIRTUAL METHOD LOOKUP ************************************************************************/ static ng_parse_t * ng_get_parse_method(const struct ng_parse_type *t) { while (t != NULL && t->parse == NULL) t = t->supertype; return (t ? t->parse : NULL); } static ng_unparse_t * ng_get_unparse_method(const struct ng_parse_type *t) { while (t != NULL && t->unparse == NULL) t = t->supertype; return (t ? t->unparse : NULL); } static ng_getDefault_t * ng_get_getDefault_method(const struct ng_parse_type *t) { while (t != NULL && t->getDefault == NULL) t = t->supertype; return (t ? t->getDefault : NULL); } static ng_getAlign_t * ng_get_getAlign_method(const struct ng_parse_type *t) { while (t != NULL && t->getAlign == NULL) t = t->supertype; return (t ? t->getAlign : NULL); }