Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/runfw/@/contrib/ngatm/netnatm/msg/ |
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/amd64/compile/hs32/modules/usr/src/sys/modules/runfw/@/contrib/ngatm/netnatm/msg/uni_ie.c |
/* * Copyright (c) 2001-2003 * Fraunhofer Institute for Open Communication Systems (FhG Fokus). * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON 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 ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * Author: Hartmut Brandt <harti@freebsd.org> * * $Begemot: libunimsg/netnatm/msg/uni_ie.c,v 1.16 2005/05/23 12:06:30 brandt_h Exp $ * * Private definitions for the IE code file. * * This file includes the table generated automatically. */ #include <sys/types.h> #include <sys/param.h> #ifdef _KERNEL #include <sys/libkern.h> #else #include <string.h> #endif #include <netnatm/unimsg.h> #include <netnatm/msg/unistruct.h> #include <netnatm/msg/unimsglib.h> #include <netnatm/msg/uniprint.h> #include <netnatm/msg/priv.h> #define UNUSED(_p) do { (void)(_p); } while (0) /* * Define internal functions. */ #define DEF_IE_PRINT(Coding, IE) \ void uni_ie_print_##Coding##_##IE(struct uni_ie_##IE *ie, struct unicx *cx) #define DEF_IE_CHECK(Coding, IE) \ int uni_ie_check_##Coding##_##IE(struct uni_ie_##IE *ie, struct unicx *cx) #define DEF_IE_ENCODE(Coding, IE) \ int uni_ie_encode_##Coding##_##IE(struct uni_msg *msg, struct uni_ie_##IE *ie, struct unicx *cx) #define DEF_IE_DECODE(Coding, IE) \ int uni_ie_decode_##Coding##_##IE(struct uni_ie_##IE *ie, struct uni_msg *msg, u_int ielen, struct unicx *cx) /* * This structure is used to define value->string mappings. MKT() is used * to generate a table entry. EOT() to end the table. */ #define MKT(V,N) { #N, V } #define EOT() { NULL, 0 } /* library internal functions */ static void uni_entry(const char *, struct unicx *); static int uni_print_iehdr(const char *, struct uni_iehdr *h, struct unicx *); static void uni_print_ieend(struct unicx *); static void uni_putc(int, struct unicx *); /* * Encoding */ #define APP_BYTE(M, B) do { \ *(M)->b_wptr++ = (B); \ } while (0) #define APP_16BIT(M, B) do { \ u_int _v = (B); \ *(M)->b_wptr++ = _v >> 8; \ *(M)->b_wptr++ = _v; \ } while (0) #define APP_24BIT(M, B) do { \ u_int _v = (B); \ *(M)->b_wptr++ = _v >> 16; \ *(M)->b_wptr++ = _v >> 8; \ *(M)->b_wptr++ = _v; \ } while (0) #define APP_32BIT(M, B) do { \ u_int _v = (B); \ *(M)->b_wptr++ = _v >> 24; \ *(M)->b_wptr++ = _v >> 16; \ *(M)->b_wptr++ = _v >> 8; \ *(M)->b_wptr++ = _v; \ } while (0) #define APP_BUF(M, B, L) do { \ (void)memcpy((M)->b_wptr, (B), (L)); \ (M)->b_wptr += (L); \ } while (0) #define APP_SUB_BYTE(M, T, B) do { APP_BYTE(M, T); APP_BYTE(M, B); } while (0) #define APP_SUB_16BIT(M, T, B) do { APP_BYTE(M, T); APP_16BIT(M, B); } while (0) #define APP_SUB_24BIT(M, T, B) do { APP_BYTE(M, T); APP_24BIT(M, B); } while (0) #define APP_SUB_32BIT(M, T, B) do { APP_BYTE(M, T); APP_32BIT(M, B); } while (0) #define APP_OPT(M, F, P, T) do { \ if ((F) & (P)) \ APP_BYTE((M), (T)); \ } while (0) #define APP_OPT_BYTE(M, F, P, T, B) do { \ if ((F) & (P)) \ APP_SUB_BYTE((M), (T), (B)); \ } while (0) #define APP_OPT_16BIT(M, F, P, T, B) do { \ if ((F) & (P)) \ APP_SUB_16BIT((M), (T), (B)); \ } while (0) #define APP_OPT_24BIT(M, F, P, T, B) do { \ if ((F) & (P)) \ APP_SUB_24BIT((M), (T), (B)); \ } while (0) #define START_IE(TYPE,CODE,LEN) \ u_int ielen; \ \ if (uni_check_ie(CODE, (union uni_ieall *)ie, cx)) \ return (-1); \ if (uni_encode_ie_hdr(msg, CODE, &ie->h, (LEN), cx)) \ return (0); \ \ ielen = msg->b_wptr - msg->b_rptr - 2; #define START_IE2(TYPE,CODE,LEN,REALCODE) \ u_int ielen; \ \ if (uni_check_ie(CODE, (union uni_ieall *)ie, cx)) \ return (-1); \ if (uni_encode_ie_hdr(msg, REALCODE, &ie->h, (LEN), cx)) \ return (0); \ \ ielen = msg->b_wptr - msg->b_rptr - 2; #define SET_IE_LEN(M) do { \ (M)->b_buf[ielen + 0] = \ (((M)->b_wptr - (M)->b_rptr) - ielen - 2) >> 8; \ (M)->b_buf[ielen + 1] = \ (((M)->b_wptr - (M)->b_rptr) - ielen - 2) >> 0; \ } while (0) /***********************************************************************/ /* * Decoding */ #define IE_START(ERR) \ if (IE_ISPRESENT(*ie)) \ return (0); \ if (ielen == 0) { \ IE_SETEMPTY(*ie); \ return (0); \ } #define IE_END(IE) \ IE_SETPRESENT(*ie); \ if (uni_check_ie(UNI_IE_##IE, (union uni_ieall *)ie, cx) == 0) \ return (0); \ rej: \ ie->h.present = UNI_IE_ERROR | UNI_IE_PRESENT; \ return (1); #define DEC_GETF3(ID, F, P) \ case UNI_##ID##_ID: \ if (ielen < 3) \ goto rej; \ ielen -= 3; \ if (!(P & UNI_##ID##_P)) { \ P |= UNI_##ID##_P; \ ie->F = *msg->b_rptr++ << 16; \ ie->F |= *msg->b_rptr++ << 8; \ ie->F |= *msg->b_rptr++; \ } else \ msg->b_rptr += 3; \ break; #define DEC_GETF1(ID, F, P) \ case UNI_##ID##_ID: \ if (ielen < 1) \ goto rej; \ ielen--; \ if (!(P & UNI_##ID##_P)) { \ P |= UNI_##ID##_P; \ ie->F = *msg->b_rptr++; \ } else \ msg->b_rptr++; \ break; #define PRINT_NPREFIX (sizeof(((struct unicx *)0)->prefix) / \ sizeof(((struct unicx *)0)->prefix[0])) /* * This is rather here than in privmsg.c because we need the APP macros. */ int uni_encode_msg_hdr(struct uni_msg *msg, struct uni_msghdr *h, enum uni_msgtype type, struct unicx *cx, int *mlen) { u_char byte; (void)uni_msg_ensure(msg, 9); APP_BYTE(msg, cx->pnni ? PNNI_PROTO : UNI_PROTO); APP_BYTE(msg, 3); if(h->cref.cref >= 1<<23) return -1; APP_24BIT(msg, h->cref.cref | (h->cref.flag ? 0x800000 : 0)); APP_BYTE(msg, type); byte = 0x80; if(h->act != UNI_MSGACT_DEFAULT) byte |= 0x10 | (h->act & 3); if(cx->pnni && h->pass) byte |= 0x08; APP_BYTE(msg, byte); *mlen = msg->b_wptr - msg->b_rptr; APP_16BIT(msg, 0); return 0; } /* * Initialize printing. This must be called by all printing routines * that are exported to the user. */ void uni_print_init(char *buf, size_t bufsiz, struct unicx *cx) { if (cx->dont_init) return; cx->indent = 0; cx->nprefix = 0; cx->doindent = 0; if (cx->tabsiz == 0) cx->tabsiz = 4; cx->buf = buf; cx->bufsiz = bufsiz; } /* * Append a character to the buffer if there is still space */ static void uni_putc(int c, struct unicx *cx) { if(cx->bufsiz > 1) { *cx->buf++ = c; cx->bufsiz--; *cx->buf = '\0'; } } void uni_printf(struct unicx *cx, const char *fmt, ...) { u_int n; va_list ap; if(cx->bufsiz > 1) { va_start(ap, fmt); n = vsnprintf(cx->buf, cx->bufsiz, fmt, ap); va_end(ap); if(n > 0) { if(n < cx->bufsiz) { cx->bufsiz -= n; cx->buf += n; } else { cx->buf += cx->bufsiz - 1; cx->bufsiz = 1; } } *cx->buf = '\0'; } } /* * Print mode: * 0 - print all into one line, fully prefixed * 1 - print on multiple lines, full prefixed, but equal level * entries on one line * 2 - like 2, but only partial prefixed * 3 - like 1, but each entry onto a new line * 4 - like 2 + 3 */ /* * If we are in multiline mode, end the current line and set the * flag, that we need indentation. But prevent double new lines. */ void uni_print_eol(struct unicx *cx) { if (cx->multiline) { if (!cx->doindent) { uni_putc('\n', cx); cx->doindent = 1; } } } /* * New entry. Do the prefixing, indentation and spacing. */ static void doprefix(struct unicx *cx, const char *s) { u_int i; if(cx->multiline == 0) { uni_putc(' ', cx); for(i = 0; i < cx->nprefix; i++) if(cx->prefix[i]) uni_printf(cx, "%s.", cx->prefix[i]); } else if(cx->multiline == 1) { if(cx->doindent) { uni_printf(cx, "%*s", cx->indent * cx->tabsiz, ""); cx->doindent = 0; } else uni_putc(' ', cx); for(i = 0; i < cx->nprefix; i++) if(cx->prefix[i]) uni_printf(cx, "%s.", cx->prefix[i]); } else if(cx->multiline == 2) { if(cx->doindent) { uni_printf(cx, "%*s", cx->indent * cx->tabsiz, ""); cx->doindent = 0; } else uni_putc(' ', cx); } else if(cx->multiline == 3) { if(cx->doindent) cx->doindent = 0; else uni_putc('\n', cx); uni_printf(cx, "%*s", cx->indent * cx->tabsiz, ""); for(i = 0; i < cx->nprefix; i++) if(cx->prefix[i]) uni_printf(cx, "%s.", cx->prefix[i]); } else if(cx->multiline == 4) { if(cx->doindent) cx->doindent = 0; else uni_putc('\n', cx); uni_printf(cx, "%*s", cx->indent * cx->tabsiz, ""); } uni_printf(cx, "%s", s); } static void uni_entry(const char *s, struct unicx *cx) { doprefix(cx, s); uni_putc('=', cx); } void uni_print_flag(const char *s, struct unicx *cx) { doprefix(cx, s); } /* * Start a deeper level of indendation. If multiline is in effect, * we end the current line. */ void uni_print_push_prefix(const char *prefix, struct unicx *cx) { if (cx->nprefix < PRINT_NPREFIX) cx->prefix[cx->nprefix++] = prefix; } void uni_print_pop_prefix(struct unicx *cx) { if (cx->nprefix > 0) cx->nprefix--; } void uni_print_tbl(const char *entry, u_int val, const struct uni_print_tbl *tbl, struct unicx *cx) { if (entry) uni_entry(entry, cx); while (tbl->name) { if (tbl->val == val) { uni_printf(cx, "%s", tbl->name); return; } tbl++; } uni_printf(cx, "ERROR(0x%x)", val); } void uni_print_entry(struct unicx *cx, const char *e, const char *fmt, ...) { u_int n; va_list ap; uni_entry(e, cx); if (cx->bufsiz > 1) { va_start(ap, fmt); n = vsnprintf(cx->buf, cx->bufsiz, fmt, ap); va_end(ap); if (n > 0) { if (n < cx->bufsiz) { cx->bufsiz -= n; cx->buf += n; } else { cx->buf += cx->bufsiz - 1; cx->bufsiz = 1; } } *cx->buf = '\0'; } } /**********************************************************************/ /* * Printing information elements. */ static int uni_print_iehdr(const char *name, struct uni_iehdr *h, struct unicx *cx) { static const struct uni_print_tbl act_tab[] = { MKT(UNI_IEACT_CLEAR, clear), MKT(UNI_IEACT_IGNORE, ignore), MKT(UNI_IEACT_REPORT, report), MKT(UNI_IEACT_MSG_IGNORE, ignore-msg), MKT(UNI_IEACT_MSG_REPORT, report-msg), MKT(UNI_IEACT_DEFAULT, default), EOT() }; static const struct uni_print_tbl cod_tab[] = { MKT(UNI_CODING_ITU, itut), MKT(UNI_CODING_NET, atmf), EOT() }; uni_print_entry(cx, name, "("); uni_print_tbl(NULL, h->act, act_tab, cx); uni_putc(',', cx); uni_print_tbl(NULL, h->coding, cod_tab, cx); if(cx->pnni && h->pass) uni_printf(cx, ",pass"); if(IE_ISEMPTY(*(struct uni_ie_aal *)h)) { uni_printf(cx, ",empty)"); uni_print_eol(cx); return 1; } if(IE_ISERROR(*(struct uni_ie_aal *)h)) { uni_printf(cx, ",error)"); uni_print_eol(cx); return 1; } uni_putc(')', cx); uni_print_push_prefix(name, cx); uni_print_eol(cx); cx->indent++; return 0; } static void uni_print_ieend(struct unicx *cx) { uni_print_pop_prefix(cx); uni_print_eol(cx); cx->indent--; } void uni_print_ie_internal(enum uni_ietype code, const union uni_ieall *ie, struct unicx *cx) { const struct iedecl *iedecl; if((iedecl = GET_IEDECL(code, ie->h.coding)) != NULL) (*iedecl->print)(ie, cx); } void uni_print_ie(char *buf, size_t size, enum uni_ietype code, const union uni_ieall *ie, struct unicx *cx) { uni_print_init(buf, size, cx); uni_print_ie_internal(code, ie, cx); } int uni_check_ie(enum uni_ietype code, union uni_ieall *ie, struct unicx *cx) { const struct iedecl *iedecl = GET_IEDECL(code, ie->h.coding); if (iedecl != NULL) return (iedecl->check(ie, cx)); else return (-1); } /* * Decode a information element header. * Returns -1 if the message is too short. * Strip the header from the message. * The header is stripped, even if it is too short. */ int uni_decode_ie_hdr(enum uni_ietype *ietype, struct uni_iehdr *hdr, struct uni_msg *msg, struct unicx *cx, u_int *ielen) { u_int len; *ietype = (enum uni_ietype)0; *ielen = 0; hdr->present = 0; hdr->coding = UNI_CODING_ITU; hdr->act = UNI_IEACT_DEFAULT; if ((len = uni_msg_len(msg)) == 0) return (-1); *ietype = *msg->b_rptr++; if (--len == 0) return (-1); hdr->coding = (*msg->b_rptr >> 5) & 3; hdr->present = 0; switch (*msg->b_rptr & 0x17) { case 0x10: case 0x11: case 0x12: case 0x15: case 0x16: hdr->act = *msg->b_rptr & 0x7; break; case 0x00: case 0x01: case 0x02: case 0x03: case 0x04: case 0x05: case 0x06: case 0x07: hdr->act = UNI_IEACT_DEFAULT; break; default: /* Q.2931 5.7.2 last sentence */ hdr->act = UNI_IEACT_REPORT; break; } if (cx->pnni && (*msg->b_rptr & 0x08)) hdr->pass = 1; else hdr->pass = 0; msg->b_rptr++; if (--len == 0) { hdr->present = UNI_IE_ERROR | UNI_IE_PRESENT; return (-1); } if (len < 2) { msg->b_rptr += len; hdr->present = UNI_IE_ERROR | UNI_IE_PRESENT; return (-1); } *ielen = *msg->b_rptr++ << 8; *ielen |= *msg->b_rptr++; return (0); } /* * Decode the body of an information element. */ int uni_decode_ie_body(enum uni_ietype ietype, union uni_ieall *ie, struct uni_msg *msg, u_int ielen, struct unicx *cx) { const struct iedecl *iedecl; u_char *end; int ret; if (ielen > uni_msg_len(msg)) { /* * Information element too long -> content error. * Q.2931 5.6.8.2 */ msg->b_rptr = msg->b_wptr; ie->h.present = UNI_IE_ERROR | UNI_IE_PRESENT; return (-1); } if ((iedecl = GET_IEDECL(ietype, ie->h.coding)) == NULL) { /* * entirly unknown IE. * Q.2931 5.6.8.1 */ msg->b_rptr += ielen; ie->h.present = UNI_IE_ERROR | UNI_IE_PRESENT; return (-1); } if (ielen > iedecl->maxlen) { /* * Information element too long -> content error. * Q.2931 5.6.8.2 */ msg->b_rptr += iedecl->maxlen; ie->h.present = UNI_IE_ERROR | UNI_IE_PRESENT; return (-1); } end = msg->b_rptr + ielen; ret = (*iedecl->decode)(ie, msg, ielen, cx); msg->b_rptr = end; return (ret); } int uni_encode_ie(enum uni_ietype code, struct uni_msg *msg, union uni_ieall *ie, struct unicx *cx) { const struct iedecl *iedecl = GET_IEDECL(code, ie->h.coding); if (iedecl == NULL) return (-1); return (iedecl->encode(msg, ie, cx)); } int uni_encode_ie_hdr(struct uni_msg *msg, enum uni_ietype type, struct uni_iehdr *h, u_int len, struct unicx *cx) { u_char byte; (void)uni_msg_ensure(msg, 4 + len); *msg->b_wptr++ = type; byte = 0x80 | (h->coding << 5); if(h->act != UNI_IEACT_DEFAULT) byte |= 0x10 | (h->act & 7); if(cx->pnni) byte |= h->pass << 3; *msg->b_wptr++ = byte; if(h->present & UNI_IE_EMPTY) { *msg->b_wptr++ = 0; *msg->b_wptr++ = 4; return -1; } *msg->b_wptr++ = 0; *msg->b_wptr++ = 0; return 0; } /* * Printing messages. */ static void uni_print_cref_internal(const struct uni_cref *cref, struct unicx *cx) { uni_print_entry(cx, "cref", "%d.", cref->flag); if (cref->cref == CREF_GLOBAL) uni_printf(cx, "GLOBAL"); else if (cref->cref == CREF_DUMMY) uni_printf(cx, "DUMMY"); else uni_printf(cx, "%d", cref->cref); } void uni_print_cref(char *str, size_t len, const struct uni_cref *cref, struct unicx *cx) { uni_print_init(str, len, cx); uni_print_cref_internal(cref, cx); } static void uni_print_msghdr_internal(const struct uni_msghdr *hdr, struct unicx *cx) { static const struct uni_print_tbl tab[] = { MKT(UNI_MSGACT_CLEAR, clear), MKT(UNI_MSGACT_IGNORE, ignore), MKT(UNI_MSGACT_REPORT, report), MKT(UNI_MSGACT_DEFAULT, default), EOT() }; uni_print_cref_internal(&hdr->cref, cx); uni_print_tbl("act", hdr->act, tab, cx); if (cx->pnni) uni_print_entry(cx, "pass", "%s", hdr->pass ? "yes" : "no"); } void uni_print_msghdr(char *str, size_t len, const struct uni_msghdr *hdr, struct unicx *cx) { uni_print_init(str, len, cx); uni_print_msghdr_internal(hdr, cx); } static void uni_print_internal(const struct uni_all *msg, struct unicx *cx) { uni_entry("mtype", cx); if(msg->mtype >= 256 || uni_msgtable[msg->mtype] == NULL) { uni_printf(cx, "0x%02x(ERROR)", msg->mtype); } else { uni_printf(cx, "%s", uni_msgtable[msg->mtype]->name); uni_print_msghdr_internal(&msg->u.hdr, cx); cx->indent++; uni_print_eol(cx); (*uni_msgtable[msg->mtype]->print)(&msg->u, cx); cx->indent--; } if(cx->multiline == 0) uni_printf(cx, "\n"); } void uni_print(char *buf, size_t size, const struct uni_all *all, struct unicx *cx) { uni_print_init(buf, size, cx); uni_print_internal(all, cx); } static void uni_print_msg_internal(u_int mtype, const union uni_msgall *msg, struct unicx *cx) { uni_entry("mtype", cx); if (mtype >= 256 || uni_msgtable[mtype] == NULL) { uni_printf(cx, "0x%02x(ERROR)", mtype); } else { uni_printf(cx, "%s", uni_msgtable[mtype]->name); uni_print_msghdr_internal(&msg->hdr, cx); cx->indent++; uni_print_eol(cx); (*uni_msgtable[mtype]->print)(msg, cx); cx->indent--; } if(cx->multiline == 0) uni_printf(cx, "\n"); } void uni_print_msg(char *buf, size_t size, u_int mtype, const union uni_msgall *all, struct unicx *cx) { uni_print_init(buf, size, cx); uni_print_msg_internal(mtype, all, cx); } void uni_print_cx(char *buf, size_t size, struct unicx *cx) { static const char *acttab[] = { "clr", /* 0x00 */ "ign", /* 0x01 */ "rep", /* 0x02 */ "x03", /* 0x03 */ "x04", /* 0x04 */ "mig", /* 0x05 */ "mrp", /* 0x06 */ "x07", /* 0x07 */ "def", /* 0x08 */ }; static const char *errtab[] = { [UNI_IERR_UNK] = "unk", /* unknown IE */ [UNI_IERR_LEN] = "len", /* length error */ [UNI_IERR_BAD] = "bad", /* content error */ [UNI_IERR_ACC] = "acc", /* access element discarded */ [UNI_IERR_MIS] = "mis", /* missing IE */ }; u_int i; uni_print_init(buf, size, cx); uni_printf(cx, "q2932 %d\n", cx->q2932); uni_printf(cx, "pnni %d\n", cx->pnni); uni_printf(cx, "git_hard %d\n", cx->git_hard); uni_printf(cx, "bearer_hard %d\n", cx->bearer_hard); uni_printf(cx, "cause_hard %d\n", cx->cause_hard); uni_printf(cx, "multiline %d\n", cx->multiline); uni_printf(cx, "tabsiz %d\n", cx->tabsiz); uni_printf(cx, "errcnt %d (", cx->errcnt); for(i = 0; i < cx->errcnt; i++) { uni_printf(cx, "%02x[%s,%s%s]", cx->err[i].ie, errtab[cx->err[i].err], acttab[cx->err[i].act], cx->err[i].man ? ",M" : ""); if(i != cx->errcnt - 1) uni_putc(' ', cx); } uni_printf(cx, ")\n"); } #include <netnatm/msg/uni_ietab.h> /********************************************************************* * * Cause * * References for this IE are: * * Q.2931 pp. 69 (just a pointer to Q.2610) * Q.2610 (this is a small diff to Q.850) * Q.850 !! * UNI4.0 pp. 15 * PNNI1.0 p. 198 * * ITU-T and NET coding for different values. */ static const struct causetab { const char *str; enum uni_diag diag; } itu_causes[128] = { #define D(NAME,VAL,DIAG,STD,STR) [UNI_CAUSE_##NAME] = { STR, UNI_DIAG_##DIAG }, #define N(NAME,VAL,DIAG,STD,STR) UNI_DECLARE_CAUSE_VALUES #undef D #undef N }, net_causes[128] = { #define D(NAME,VAL,DIAG,STD,STR) #define N(NAME,VAL,DIAG,STD,STR) [UNI_CAUSE_##NAME] = { STR, UNI_DIAG_##DIAG }, UNI_DECLARE_CAUSE_VALUES #undef D #undef N }; enum uni_diag uni_diag(enum uni_cause cause, enum uni_coding code) { if (cause >= 128) return (UNI_DIAG_NONE); if (code == UNI_CODING_NET) if (net_causes[cause].str != NULL) return (net_causes[cause].diag); if (itu_causes[cause].str != NULL) return (itu_causes[cause].diag); return (UNI_DIAG_NONE); } /**********************************************************************/ static void print_cause(struct unicx *cx, struct uni_ie_cause *ie, const struct causetab *tab1, const struct causetab *tab2) { static const struct uni_print_tbl loc_tbl[] = { MKT(UNI_CAUSE_LOC_USER, user), MKT(UNI_CAUSE_LOC_PRIVLOC, priv-net:loc-user), MKT(UNI_CAUSE_LOC_PUBLOC, pub-net:loc-user), MKT(UNI_CAUSE_LOC_TRANSIT, transit-net), MKT(UNI_CAUSE_LOC_PUBREM, pub-net:rem-user), MKT(UNI_CAUSE_LOC_PRIVREM, priv-net:rem-user), MKT(UNI_CAUSE_LOC_INTERNAT, int-net), MKT(UNI_CAUSE_LOC_BEYOND, beyond), EOT() }; static const struct uni_print_tbl pu_tbl[] = { MKT(UNI_CAUSE_PU_PROVIDER, provider), MKT(UNI_CAUSE_PU_USER, user), EOT() }; static const struct uni_print_tbl na_tbl[] = { MKT(UNI_CAUSE_NA_NORMAL, normal), MKT(UNI_CAUSE_NA_ABNORMAL, abnormal), EOT() }; static const struct uni_print_tbl cond_tbl[] = { MKT(UNI_CAUSE_COND_UNKNOWN, unknown), MKT(UNI_CAUSE_COND_PERM, permanent), MKT(UNI_CAUSE_COND_TRANS, transient), EOT() }; static const struct uni_print_tbl rej_tbl[] = { MKT(UNI_CAUSE_REASON_USER, user), MKT(UNI_CAUSE_REASON_IEMISS, ie-missing), MKT(UNI_CAUSE_REASON_IESUFF, ie-not-suff), EOT() }; char buf[100], *s; u_int i; if (uni_print_iehdr("cause", &ie->h, cx)) return; if (ie->cause < 128 && tab1[ie->cause].str) strcpy(buf, tab1[ie->cause].str); else if (ie->cause < 128 && tab2 != NULL && tab2[ie->cause].str != NULL) strcpy(buf, tab2[ie->cause].str); else { sprintf(buf, "UNKNOWN-%u", ie->cause); } for (s = buf; *s != '\0'; s++) if (*s == ' ') *s = '_'; uni_print_entry(cx, "cause", "%s", buf); uni_print_tbl("loc", ie->loc, loc_tbl, cx); if (ie->h.present & UNI_CAUSE_COND_P) { uni_print_tbl("pu", ie->u.cond.pu, pu_tbl, cx); uni_print_tbl("na", ie->u.cond.na, na_tbl, cx); uni_print_tbl("condition", ie->u.cond.cond, cond_tbl, cx); } if (ie->h.present & UNI_CAUSE_REJ_P) { uni_print_tbl("reject", ie->u.rej.reason, rej_tbl, cx); } if (ie->h.present & UNI_CAUSE_REJ_USER_P) { uni_print_entry(cx, "user", "%u", ie->u.rej.user); } if (ie->h.present & UNI_CAUSE_REJ_IE_P) { uni_print_entry(cx, "ie", "%u", ie->u.rej.ie); } if (ie->h.present & UNI_CAUSE_IE_P) { uni_print_entry(cx, "ie", "("); for (i = 0; i < ie->u.ie.len; i++) { if (i) uni_putc(',', cx); uni_printf(cx, "0x%02x", ie->u.ie.ie[i]); } uni_putc(')', cx); } if (ie->h.present & UNI_CAUSE_TRAFFIC_P) { uni_print_entry(cx, "traffic", "("); for (i = 0; i < ie->u.traffic.len; i++) { if (i) uni_putc(',', cx); uni_printf(cx, "0x%02x", ie->u.traffic.traffic[i]); } uni_putc(')', cx); } if (ie->h.present & UNI_CAUSE_VPCI_P) { uni_print_entry(cx, "vpci", "(%u,%u)", ie->u.vpci.vpci, ie->u.vpci.vci); } if (ie->h.present & UNI_CAUSE_MTYPE_P) { uni_print_entry(cx, "mtype", "%u", ie->u.mtype); } if (ie->h.present & UNI_CAUSE_TIMER_P) { for (i = 0, s = buf; i < 3; i++) { if (ie->u.timer[i] < ' ') { *s++ = '^'; *s++ = ie->u.timer[i] + '@'; } else if (ie->u.timer[i] <= '~') *s++ = ie->u.timer[i]; else { *s++ = '\\'; *s++ = ie->u.timer[i] / 0100 + '0'; *s++ = (ie->u.timer[i] % 0100) / 010 + '0'; *s++ = ie->u.timer[i] % 010 + '0'; } } *s++ = '\0'; uni_print_entry(cx, "timer", "\"%s\"", buf); } if (ie->h.present & UNI_CAUSE_TNS_P) { uni_print_eol(cx); uni_print_ie_internal(UNI_IE_TNS, (union uni_ieall *)&ie->u.tns, cx); } if (ie->h.present & UNI_CAUSE_NUMBER_P) { uni_print_eol(cx); uni_print_ie_internal(UNI_IE_CALLED, (union uni_ieall *)&ie->u.number, cx); } if (ie->h.present & UNI_CAUSE_ATTR_P) { uni_print_entry(cx, "attr", "("); for (i = 0; i < ie->u.attr.nattr; i++) { uni_printf(cx, "(%u", ie->u.attr.attr[i][0]); if (!(ie->u.attr.attr[i][0] & 0x80)) { uni_printf(cx, ",%u", ie->u.attr.attr[i][1]); if (!(ie->u.attr.attr[i][1] & 0x80)) uni_printf(cx, ",%u", ie->u.attr.attr[i][2]); } uni_putc(')', cx); } } uni_print_ieend(cx); } DEF_IE_PRINT(itu, cause) { print_cause(cx, ie, itu_causes, NULL); } DEF_IE_PRINT(net, cause) { print_cause(cx, ie, net_causes, itu_causes); } const char * uni_ie_cause2str(enum uni_coding coding, u_int cause) { if (cause < 128) { if (coding == UNI_CODING_ITU) return (itu_causes[cause].str); if (coding == UNI_CODING_NET) { if (net_causes[cause].str != NULL) return (net_causes[cause].str); return (itu_causes[cause].str); } } return (NULL); } /**********************************************************************/ static int check_cause(struct uni_ie_cause *ie, struct unicx *cx, const struct causetab *tab1, const struct causetab *tab2) { static const u_int mask = UNI_CAUSE_COND_P | UNI_CAUSE_REJ_P | UNI_CAUSE_REJ_USER_P | UNI_CAUSE_REJ_IE_P | UNI_CAUSE_IE_P | UNI_CAUSE_TRAFFIC_P | UNI_CAUSE_VPCI_P | UNI_CAUSE_MTYPE_P | UNI_CAUSE_TIMER_P | UNI_CAUSE_TNS_P | UNI_CAUSE_NUMBER_P | UNI_CAUSE_ATTR_P | UNI_CAUSE_PARAM_P; const struct causetab *ptr; if (ie->cause >= 128) return (-1); switch (ie->loc) { default: return (-1); case UNI_CAUSE_LOC_USER: case UNI_CAUSE_LOC_PRIVLOC: case UNI_CAUSE_LOC_PUBLOC: case UNI_CAUSE_LOC_TRANSIT: case UNI_CAUSE_LOC_PUBREM: case UNI_CAUSE_LOC_PRIVREM: case UNI_CAUSE_LOC_INTERNAT: case UNI_CAUSE_LOC_BEYOND: break; } if (tab1[ie->cause].str != NULL) ptr = &tab1[ie->cause]; else if (tab2 != NULL && tab2[ie->cause].str != NULL) ptr = &tab2[ie->cause]; else return (cx->cause_hard ? -1 : 0); switch (ptr->diag) { case UNI_DIAG_NONE: switch (ie->h.present & mask) { default: if (cx->cause_hard) return (-1); break; case 0: break; } break; case UNI_DIAG_COND: switch (ie->h.present & mask) { default: if (cx->cause_hard) return (-1); break; case 0: case UNI_CAUSE_COND_P: break; } break; case UNI_DIAG_REJ: switch (ie->h.present & mask) { default: if (cx->cause_hard) return (-1); break; case 0: case UNI_CAUSE_REJ_P: case UNI_CAUSE_REJ_P | UNI_CAUSE_REJ_USER_P: case UNI_CAUSE_REJ_P | UNI_CAUSE_REJ_IE_P: break; } break; case UNI_DIAG_CRATE: switch (ie->h.present & mask) { default: if (cx->cause_hard) return (-1); break; case 0: case UNI_CAUSE_TRAFFIC_P: break; } break; case UNI_DIAG_IE: switch (ie->h.present & mask) { default: if (cx->cause_hard) return (-1); break; case 0: case UNI_CAUSE_IE_P: break; } break; case UNI_DIAG_CHANID: switch (ie->h.present & mask) { default: if (cx->cause_hard) return (-1); break; case 0: case UNI_CAUSE_VPCI_P: break; } break; case UNI_DIAG_MTYPE: switch (ie->h.present & mask) { default: if (cx->cause_hard) return (-1); break; case 0: case UNI_CAUSE_MTYPE_P: break; } break; case UNI_DIAG_TIMER: switch (ie->h.present & mask) { default: if (cx->cause_hard) return (-1); break; case 0: case UNI_CAUSE_TIMER_P: break; } break; case UNI_DIAG_TNS: switch (ie->h.present & mask) { default: if (cx->cause_hard) return (-1); break; case 0: case UNI_CAUSE_TNS_P: break; } break; case UNI_DIAG_NUMBER: switch (ie->h.present & mask) { default: if (cx->cause_hard) return (-1); break; case 0: case UNI_CAUSE_NUMBER_P: break; } break; case UNI_DIAG_ATTR: switch (ie->h.present & mask) { default: if (cx->cause_hard) return (-1); break; case 0: case UNI_CAUSE_ATTR_P: break; } break; case UNI_DIAG_PARAM: switch (ie->h.present & mask) { default: if (cx->cause_hard) return (-1); break; case 0: case UNI_CAUSE_PARAM_P: break; } break; } if (ie->h.present & UNI_CAUSE_COND_P) { switch (ie->u.cond.pu) { default: return (-1); case UNI_CAUSE_PU_PROVIDER: case UNI_CAUSE_PU_USER: break; } switch (ie->u.cond.na) { default: return (-1); case UNI_CAUSE_NA_NORMAL: case UNI_CAUSE_NA_ABNORMAL: break; } switch (ie->u.cond.cond) { default: return (-1); case UNI_CAUSE_COND_UNKNOWN: case UNI_CAUSE_COND_PERM: case UNI_CAUSE_COND_TRANS: break; } } if (ie->h.present & UNI_CAUSE_REJ_P) { switch (ie->u.rej.reason) { default: return (-1); case UNI_CAUSE_REASON_USER: switch (ie->h.present & mask) { default: return (-1); case UNI_CAUSE_REJ_P: case UNI_CAUSE_REJ_P | UNI_CAUSE_REJ_USER_P: break; } break; case UNI_CAUSE_REASON_IEMISS: case UNI_CAUSE_REASON_IESUFF: switch (ie->h.present & mask) { default: return (-1); case UNI_CAUSE_REJ_P: case UNI_CAUSE_REJ_P | UNI_CAUSE_REJ_IE_P: break; } break; } } if (ie->h.present & UNI_CAUSE_IE_P) { if (ie->u.ie.len == 0 || ie->u.ie.len > UNI_CAUSE_IE_N) return (-1); } if (ie->h.present & UNI_CAUSE_TRAFFIC_P) { if (ie->u.traffic.len == 0 || ie->u.traffic.len > UNI_CAUSE_TRAFFIC_N) return (-1); } if (ie->h.present & UNI_CAUSE_TNS_P) { if (uni_check_ie(UNI_IE_TNS, (union uni_ieall *)&ie->u.tns, cx)) return (-1); } if (ie->h.present & UNI_CAUSE_NUMBER_P) { if(uni_check_ie(UNI_IE_CALLED, (union uni_ieall *)&ie->u.number, cx)) return (-1); } if (ie->h.present & UNI_CAUSE_ATTR_P) { if(ie->u.attr.nattr > UNI_CAUSE_ATTR_N || ie->u.attr.nattr == 0) return (-1); } if (ie->h.present & UNI_CAUSE_PARAM_P) { UNUSED(cx); } return (0); } DEF_IE_CHECK(itu, cause) { return (check_cause(ie, cx, itu_causes, NULL)); } DEF_IE_CHECK(net, cause) { return (check_cause(ie, cx, net_causes, itu_causes)); } /**********************************************************************/ static int encode_cause(struct uni_msg *msg, struct uni_ie_cause *ie, struct unicx *cx) { u_int i; START_IE(cause, UNI_IE_CAUSE, 30); if (IE_ISERROR(*ie)) { APP_BYTE(msg, 0x00 | ie->loc); } else { APP_BYTE(msg, 0x80 | ie->loc); } APP_BYTE(msg, 0x80 | ie->cause); if (ie->h.present & UNI_CAUSE_COND_P) APP_BYTE(msg, 0x80 | (ie->u.cond.pu << 3) | (ie->u.cond.na << 2) | ie->u.cond.cond); else if (ie->h.present & UNI_CAUSE_REJ_P) { APP_BYTE(msg, 0x80 | (ie->u.rej.reason << 2) | ie->u.rej.cond); if (ie->h.present & UNI_CAUSE_REJ_USER_P) APP_BYTE(msg, ie->u.rej.user); else if (ie->h.present & UNI_CAUSE_REJ_IE_P) APP_BYTE(msg, ie->u.rej.ie); } else if(ie->h.present & UNI_CAUSE_IE_P) APP_BUF(msg, ie->u.ie.ie, ie->u.ie.len); else if (ie->h.present & UNI_CAUSE_TRAFFIC_P) APP_BUF(msg, ie->u.traffic.traffic, ie->u.traffic.len); else if (ie->h.present & UNI_CAUSE_VPCI_P) { APP_BYTE(msg, (ie->u.vpci.vpci >> 8)); APP_BYTE(msg, (ie->u.vpci.vpci >> 0)); APP_BYTE(msg, (ie->u.vpci.vci >> 8)); APP_BYTE(msg, (ie->u.vpci.vci >> 0)); } else if (ie->h.present & UNI_CAUSE_MTYPE_P) APP_BYTE(msg, ie->u.mtype); else if (ie->h.present & UNI_CAUSE_TIMER_P) { APP_BYTE(msg, ie->u.timer[0]); APP_BYTE(msg, ie->u.timer[1]); APP_BYTE(msg, ie->u.timer[2]); } else if (ie->h.present & UNI_CAUSE_TNS_P) uni_encode_ie(UNI_IE_TNS, msg, (union uni_ieall *)&ie->u.tns, cx); else if (ie->h.present & UNI_CAUSE_NUMBER_P) uni_encode_ie(UNI_IE_CALLED, msg, (union uni_ieall *)&ie->u.number, cx); else if (ie->h.present & UNI_CAUSE_ATTR_P) { for (i = 0; i < ie->u.attr.nattr; i++) { APP_BYTE(msg, ie->u.attr.attr[i][0]); if (!ie->u.attr.attr[i][0]) { APP_BYTE(msg, ie->u.attr.attr[i][1]); if (!ie->u.attr.attr[i][1]) APP_BYTE(msg, ie->u.attr.attr[i][2]); } } } else if (ie->h.present & UNI_CAUSE_PARAM_P) APP_BYTE(msg, ie->u.param); SET_IE_LEN(msg); return (0); } DEF_IE_ENCODE(itu, cause) { return encode_cause(msg, ie, cx); } DEF_IE_ENCODE(net, cause) { return encode_cause(msg, ie, cx); } /**********************************************************************/ static int decode_cause(struct uni_ie_cause *ie, struct uni_msg *msg, u_int ielen, struct unicx *cx, const struct causetab *tab1, const struct causetab *tab2) { u_char c; const struct causetab *ptr; enum uni_ietype ietype; u_int xielen; IE_START(;); if(ielen < 2 || ielen > 30) goto rej; c = *msg->b_rptr++; ielen--; if(!(c & 0x80)) goto rej; ie->loc = c & 0xf; c = *msg->b_rptr++; ielen--; if(!(c & 0x80)) goto rej; ie->cause = c & 0x7f; if(tab1[ie->cause].str != NULL) ptr = &tab1[ie->cause]; else if(tab2 != NULL && tab2[ie->cause].str != NULL) ptr = &tab2[ie->cause]; else { ptr = NULL; ielen = 0; /* ignore diags */ } if(ielen) { switch(ptr->diag) { case UNI_DIAG_NONE: break; case UNI_DIAG_COND: if(ielen < 1) goto rej; c = *msg->b_rptr++; ielen--; ie->h.present |= UNI_CAUSE_COND_P; ie->u.cond.pu = (c >> 3) & 1; ie->u.cond.na = (c >> 2) & 1; ie->u.cond.cond = c & 3; if(!(c & 0x80)) goto rej; break; case UNI_DIAG_REJ: if(ielen < 1) goto rej; c = *msg->b_rptr++; ielen--; ie->h.present |= UNI_CAUSE_REJ_P; ie->u.rej.reason = (c >> 2) & 0x1f; ie->u.rej.cond = c & 3; if(!(c & 0x80)) goto rej; if(ielen > 0) { c = *msg->b_rptr++; ielen--; switch(ie->u.rej.reason) { case UNI_CAUSE_REASON_USER: ie->h.present |= UNI_CAUSE_REJ_USER_P; ie->u.rej.user = c; break; case UNI_CAUSE_REASON_IEMISS: case UNI_CAUSE_REASON_IESUFF: ie->h.present |= UNI_CAUSE_REJ_IE_P; ie->u.rej.ie = c; break; } } break; case UNI_DIAG_CRATE: ie->h.present |= UNI_CAUSE_TRAFFIC_P; while(ielen && ie->u.traffic.len < UNI_CAUSE_TRAFFIC_N) { ie->u.traffic.traffic[ie->u.traffic.len++] = *msg->b_rptr++; ielen--; } break; case UNI_DIAG_IE: ie->h.present |= UNI_CAUSE_IE_P; while(ielen && ie->u.ie.len < UNI_CAUSE_IE_N) { ie->u.ie.ie[ie->u.ie.len++] = *msg->b_rptr++; ielen--; } break; case UNI_DIAG_CHANID: if(ielen < 4) break; ie->h.present |= UNI_CAUSE_VPCI_P; ie->u.vpci.vpci = *msg->b_rptr++ << 8; ie->u.vpci.vpci |= *msg->b_rptr++; ie->u.vpci.vci = *msg->b_rptr++ << 8; ie->u.vpci.vci |= *msg->b_rptr++; ielen -= 4; break; case UNI_DIAG_MTYPE: ie->h.present |= UNI_CAUSE_MTYPE_P; ie->u.mtype = *msg->b_rptr++; ielen--; break; case UNI_DIAG_TIMER: if(ielen < 3) break; ie->h.present |= UNI_CAUSE_TIMER_P; ie->u.timer[0] = *msg->b_rptr++; ie->u.timer[1] = *msg->b_rptr++; ie->u.timer[2] = *msg->b_rptr++; ielen -= 3; break; case UNI_DIAG_TNS: if(ielen < 4) break; if(uni_decode_ie_hdr(&ietype, &ie->u.tns.h, msg, cx, &xielen)) break; if(ietype != UNI_IE_TNS) break; if(uni_decode_ie_body(ietype, (union uni_ieall *)&ie->u.tns, msg, xielen, cx)) break; ie->h.present |= UNI_CAUSE_TNS_P; break; case UNI_DIAG_NUMBER: if(ielen < 4) break; if(uni_decode_ie_hdr(&ietype, &ie->u.number.h, msg, cx, &xielen)) break; if(ietype != UNI_IE_CALLED) break; if(uni_decode_ie_body(ietype, (union uni_ieall *)&ie->u.number, msg, xielen, cx)) break; ie->h.present |= UNI_CAUSE_NUMBER_P; break; case UNI_DIAG_ATTR: ie->h.present |= UNI_CAUSE_ATTR_P; while(ielen > 0 && ie->u.attr.nattr < UNI_CAUSE_ATTR_N) { c = *msg->b_rptr++; ie->u.attr.attr[ie->u.attr.nattr][0] = c; ielen--; if(ielen > 0 && !(c & 0x80)) { c = *msg->b_rptr++; ie->u.attr.attr[ie->u.attr.nattr][1] = c; ielen--; if(ielen > 0 && !(c & 0x80)) { c = *msg->b_rptr++; ie->u.attr.attr[ie->u.attr.nattr][2] = c; ielen--; } } } break; case UNI_DIAG_PARAM: ie->h.present |= UNI_CAUSE_PARAM_P; ie->u.param = *msg->b_rptr++; ielen--; break; } } IE_END(CAUSE); } DEF_IE_DECODE(itu, cause) { return decode_cause(ie, msg, ielen, cx, itu_causes, NULL); } DEF_IE_DECODE(net, cause) { return decode_cause(ie, msg, ielen, cx, net_causes, itu_causes); } /********************************************************************* * * Callstate * * References for this IE are: * * Q.2931 pp. 59...60 * UNI4.0 pp. 14 * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, callstate) { static const struct uni_print_tbl tbl[] = { MKT(UNI_CALLSTATE_U0, U0/N0/REST0), MKT(UNI_CALLSTATE_U1, U1/N1), MKT(UNI_CALLSTATE_U3, U3/N3), MKT(UNI_CALLSTATE_U4, U4/N4), MKT(UNI_CALLSTATE_U6, U6/N6), MKT(UNI_CALLSTATE_U7, U7/N7), MKT(UNI_CALLSTATE_U8, U8/N8), MKT(UNI_CALLSTATE_U9, U9/N9), MKT(UNI_CALLSTATE_U10, U10/N10), MKT(UNI_CALLSTATE_U11, U11/N11), MKT(UNI_CALLSTATE_U12, U12/N12), MKT(UNI_CALLSTATE_REST1,REST1), MKT(UNI_CALLSTATE_REST2,REST2), MKT(UNI_CALLSTATE_U13, U13/N13), MKT(UNI_CALLSTATE_U14, U14/N14), EOT() }; if(uni_print_iehdr("callstate", &ie->h, cx)) return; uni_print_tbl("state", ie->state, tbl, cx); uni_print_ieend(cx); } DEF_IE_CHECK(itu, callstate) { UNUSED(cx); switch(ie->state) { default: return -1; case UNI_CALLSTATE_U0: case UNI_CALLSTATE_U1: case UNI_CALLSTATE_U3: case UNI_CALLSTATE_U4: case UNI_CALLSTATE_U6: case UNI_CALLSTATE_U7: case UNI_CALLSTATE_U8: case UNI_CALLSTATE_U9: case UNI_CALLSTATE_U10: case UNI_CALLSTATE_U11: case UNI_CALLSTATE_U12: case UNI_CALLSTATE_REST1: case UNI_CALLSTATE_REST2: case UNI_CALLSTATE_U13: case UNI_CALLSTATE_U14: break; } return 0; } DEF_IE_ENCODE(itu, callstate) { START_IE(callstate, UNI_IE_CALLSTATE, 1); APP_BYTE(msg, ie->state); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, callstate) { IE_START(;); if(ielen != 1) goto rej; ie->state = *msg->b_rptr++ & 0x3f; ielen--; IE_END(CALLSTATE); } /********************************************************************* * * Facility Information. * * References for this IE are: * * Q.2932.1 * * The standard allows only ROSE as protocol. We allow everything up to the * maximum size. * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, facility) { u_int i; if(uni_print_iehdr("facility", &ie->h, cx)) return; if(ie->proto == UNI_FACILITY_ROSE) uni_print_entry(cx, "proto", "rose"); else uni_print_entry(cx, "proto", "0x%02x", ie->proto); uni_print_entry(cx, "len", "%u", ie->len); uni_print_entry(cx, "info", "("); for(i = 0; i < ie->len; i++) uni_printf(cx, "%s0x%02x", i == 0 ? "" : " ", ie->apdu[i]); uni_printf(cx, ")"); uni_print_ieend(cx); } DEF_IE_CHECK(itu, facility) { UNUSED(cx); if(ie->len > UNI_FACILITY_MAXAPDU) return -1; return 0; } DEF_IE_ENCODE(itu, facility) { START_IE(facility, UNI_IE_FACILITY, 1 + ie->len); APP_BYTE(msg, ie->proto | 0x80); APP_BUF(msg, ie->apdu, ie->len); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, facility) { u_char c; IE_START(;); if(ielen > UNI_FACILITY_MAXAPDU + 1 || ielen < 1) goto rej; ie->proto = (c = *msg->b_rptr++) & 0x1f; ielen--; if((c & 0xe0) != 0x80) goto rej; ie->len = ielen; ielen = 0; (void)memcpy(ie->apdu, msg->b_rptr, ie->len); msg->b_rptr += ie->len; IE_END(FACILITY); } /********************************************************************* * * Notification Indicator * * References for this IE are: * * Q.2931 p. 76 * UNI4.0 p. 17 * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, notify) { u_int i; if(uni_print_iehdr("notify", &ie->h, cx)) return; uni_print_entry(cx, "len", "%u", ie->len); uni_print_entry(cx, "info", "("); for(i = 0; i < ie->len; i++) uni_printf(cx, "%s0x%02x", i == 0 ? "" : " ", ie->notify[i]); uni_printf(cx, ")"); uni_print_ieend(cx); } DEF_IE_CHECK(itu, notify) { UNUSED(cx); if(ie->len > UNI_NOTIFY_MAXLEN) return -1; return 0; } DEF_IE_ENCODE(itu, notify) { START_IE(notify, UNI_IE_NOTIFY, ie->len); APP_BUF(msg, ie->notify, ie->len); if (IE_ISERROR(*ie)) { /* make it too long */ u_int i = ie->len; while (i < UNI_NOTIFY_MAXLEN + 1) { APP_BYTE(msg, 0x00); i++; } } SET_IE_LEN(msg); return (0); } DEF_IE_DECODE(itu, notify) { IE_START(;); if (ielen > UNI_NOTIFY_MAXLEN || ielen < 1) goto rej; ie->len = ielen; ielen = 0; (void)memcpy(ie->notify, msg->b_rptr, ie->len); msg->b_rptr += ie->len; IE_END(NOTIFY); } /********************************************************************* * * End-to-end transit delay. * * References for this IE are: * * Q.2931 pp. 70...71 * UNI4.0 pp. 69...70 * PNNI1.0 pp. 198...200 * * Not clear, whether the new indicator should be used with NET coding or * not. * * Only ITU-T coding allowed. */ static void print_eetd(struct uni_ie_eetd *ie, struct unicx *cx) { if (uni_print_iehdr("eetd", &ie->h, cx)) return; if (ie->h.present & UNI_EETD_CUM_P) uni_print_entry(cx, "cum", "%u", ie->cumulative); if (ie->h.present & UNI_EETD_MAX_P) { if (ie->maximum == UNI_EETD_ANYMAX) uni_print_entry(cx, "max", "any"); else uni_print_entry(cx, "max", "%u", ie->maximum); } if (ie->h.present & UNI_EETD_PCTD_P) uni_print_entry(cx, "pnni_cum", "%u", ie->pctd); if (ie->h.present & UNI_EETD_PMTD_P) uni_print_entry(cx, "pnni_max", "%u", ie->pmtd); if (ie->h.present & UNI_EETD_NET_P) uni_print_flag("netgen", cx); uni_print_ieend(cx); } DEF_IE_PRINT(itu, eetd) { print_eetd(ie, cx); } DEF_IE_PRINT(net, eetd) { print_eetd(ie, cx); } DEF_IE_CHECK(itu, eetd) { UNUSED(cx); if (!(ie->h.present & UNI_EETD_CUM_P)) return (-1); if (ie->h.present & (UNI_EETD_PMTD_P | UNI_EETD_PCTD_P)) return (-1); return (0); } DEF_IE_CHECK(net, eetd) { if (!cx->pnni) { if (!(ie->h.present & UNI_EETD_CUM_P)) return (-1); if (ie->h.present & (UNI_EETD_PMTD_P | UNI_EETD_PCTD_P)) return (-1); } else { if (ie->h.present & UNI_EETD_MAX_P) return (-1); if ((ie->h.present & UNI_EETD_CUM_P) && (ie->h.present & UNI_EETD_PCTD_P)) return (-1); } return (0); } DEF_IE_ENCODE(itu, eetd) { START_IE(eetd, UNI_IE_EETD, 9); if (ie->h.present & UNI_EETD_CUM_P) { APP_BYTE(msg, UNI_EETD_CTD_ID); APP_16BIT(msg, ie->cumulative); } if (ie->h.present & UNI_EETD_MAX_P) { APP_BYTE(msg, UNI_EETD_MTD_ID); APP_16BIT(msg, ie->maximum); } if (ie->h.present & UNI_EETD_PMTD_P) { APP_BYTE(msg, UNI_EETD_PMTD_ID); APP_24BIT(msg, ie->pmtd); } if (ie->h.present & UNI_EETD_PCTD_P) { APP_BYTE(msg, UNI_EETD_PCTD_ID); APP_24BIT(msg, ie->pctd); } if (ie->h.present & UNI_EETD_NET_P) { APP_BYTE(msg, UNI_EETD_NET_ID); } SET_IE_LEN(msg); return (0); } DEF_IE_ENCODE(net, eetd) { return (uni_ie_encode_itu_eetd(msg, ie, cx)); } DEF_IE_DECODE(itu, eetd) { IE_START(;); while (ielen > 0) { switch (ielen--, *msg->b_rptr++) { case UNI_EETD_CTD_ID: if (ielen < 2) goto rej; ie->h.present |= UNI_EETD_CUM_P; ie->cumulative = *msg->b_rptr++ << 8; ie->cumulative |= *msg->b_rptr++; ielen -= 2; break; case UNI_EETD_MTD_ID: if (ielen < 2) goto rej; ie->h.present |= UNI_EETD_MAX_P; ie->maximum = *msg->b_rptr++ << 8; ie->maximum |= *msg->b_rptr++; ielen -= 2; break; case UNI_EETD_PCTD_ID: if (ielen < 3) goto rej; ie->h.present |= UNI_EETD_PCTD_P; ie->pctd = *msg->b_rptr++ << 16; ie->pctd |= *msg->b_rptr++ << 8; ie->pctd |= *msg->b_rptr++; ielen -= 3; break; case UNI_EETD_PMTD_ID: if (ielen < 3) goto rej; ie->h.present |= UNI_EETD_PMTD_P; ie->pmtd = *msg->b_rptr++ << 16; ie->pmtd |= *msg->b_rptr++ << 8; ie->pmtd |= *msg->b_rptr++; ielen -= 3; break; case UNI_EETD_NET_ID: ie->h.present |= UNI_EETD_NET_P; break; default: goto rej; } } IE_END(EETD); } DEF_IE_DECODE(net, eetd) { return (uni_ie_decode_itu_eetd(ie, msg, ielen, cx)); } /********************************************************************* * * Called address * Called subaddress * Calling address * Calling subaddress * Connected address * Connected subaddress * * References for this IE are: * * Q.2931 pp. 60...68 * ...A4 pp. 27...36 * UNI4.0 pp. 14...15 * Q.2951 pp. 28...40 * * It is assumed, that the coding of the addr arrays is ok. * * Only ITU-T coding allowed. */ static const struct uni_print_tbl screen_tbl[] = { MKT(UNI_ADDR_SCREEN_NOT, no), MKT(UNI_ADDR_SCREEN_PASSED, passed), MKT(UNI_ADDR_SCREEN_FAILED, failed), MKT(UNI_ADDR_SCREEN_NET, network), EOT() }; static const struct uni_print_tbl pres_tbl[] = { MKT(UNI_ADDR_PRES, allowed), MKT(UNI_ADDR_RESTRICT, restricted), MKT(UNI_ADDR_NONUMBER, no-number), EOT() }; static void print_addr(struct unicx *cx, struct uni_addr *addr) { static const struct uni_print_tbl plan_tbl[] = { MKT(UNI_ADDR_UNKNOWN, unknown), MKT(UNI_ADDR_E164, E164), MKT(UNI_ADDR_ATME, ATME), MKT(UNI_ADDR_DATA, data), MKT(UNI_ADDR_PRIVATE, private), EOT() }; static const struct uni_print_tbl type_tbl[] = { MKT(UNI_ADDR_UNKNOWN, unknown), MKT(UNI_ADDR_INTERNATIONAL, international), MKT(UNI_ADDR_NATIONAL, national), MKT(UNI_ADDR_NETWORK, network), MKT(UNI_ADDR_SUBSCR, subscriber), MKT(UNI_ADDR_ABBR, abbreviated), EOT() }; u_int i; uni_print_entry(cx, "addr", "("); uni_print_tbl(NULL, addr->type, type_tbl, cx); uni_putc(',', cx); uni_print_tbl(NULL, addr->plan, plan_tbl, cx); uni_putc(',', cx); if(addr->plan == UNI_ADDR_E164) { uni_putc('"', cx); for(i = 0; i < addr->len; i++) { if(addr->addr[i] < ' ') uni_printf(cx, "^%c", addr->addr[i] + '@'); else if(addr->addr[i] <= '~') uni_putc(addr->addr[i], cx); else uni_printf(cx, "\\%03o", addr->addr[i]); } uni_putc('"', cx); } else if(addr->plan == UNI_ADDR_ATME) { for(i = 0; i < addr->len; i++) uni_printf(cx, "%02x", addr->addr[i]); } uni_putc(')', cx); } static void print_addrsub(struct unicx *cx, struct uni_subaddr *addr) { static const struct uni_print_tbl type_tbl[] = { MKT(UNI_SUBADDR_NSAP, NSAP), MKT(UNI_SUBADDR_ATME, ATME), MKT(UNI_SUBADDR_USER, USER), EOT() }; u_int i; uni_print_entry(cx, "addr", "("); uni_print_tbl(NULL, addr->type, type_tbl, cx); uni_putc(',', cx); for(i = 0; i < addr->len; i++) uni_printf(cx, "%02x", addr->addr[i]); uni_putc(')', cx); } static int check_addr(struct uni_addr *addr) { u_int i; switch(addr->plan) { default: return -1; case UNI_ADDR_E164: if(addr->type != UNI_ADDR_INTERNATIONAL) return -1; if(addr->len > 15 || addr->len == 0) return -1; for(i = 0; i < addr->len; i++) if(addr->addr[i] == 0 || (addr->addr[i] & 0x80)) return -1; break; case UNI_ADDR_ATME: if(addr->type != UNI_ADDR_UNKNOWN) return -1; if(addr->len != 20) return -1; break; } return 0; } static int check_subaddr(struct uni_subaddr *addr) { switch(addr->type) { default: return -1; case UNI_SUBADDR_NSAP: if(addr->len != 20) return -1; break; case UNI_SUBADDR_ATME: if(addr->len > 20) return -1; break; } return 0; } static int check_screen(enum uni_addr_screen screen, enum uni_addr_pres pres) { switch(pres) { default: return -1; case UNI_ADDR_PRES: case UNI_ADDR_RESTRICT: case UNI_ADDR_NONUMBER: break; } switch(screen) { default: return -1; case UNI_ADDR_SCREEN_NOT: case UNI_ADDR_SCREEN_PASSED: case UNI_ADDR_SCREEN_FAILED: case UNI_ADDR_SCREEN_NET: break; } return 0; } static void encode_addr(struct uni_msg *msg, struct uni_addr *addr, u_int flag, enum uni_addr_screen screen, enum uni_addr_pres pres, int err) { u_char ext = err ? 0x00 : 0x80; if (flag) { APP_BYTE(msg, (addr->type << 4) | addr->plan); APP_BYTE(msg, ext | (pres << 5) | (screen)); } else { APP_BYTE(msg, ext | (addr->type << 4) | addr->plan); } APP_BUF(msg, addr->addr, addr->len); } static void encode_subaddr(struct uni_msg *msg, struct uni_subaddr *addr) { APP_BYTE(msg, 0x80|(addr->type<<4)); APP_BUF(msg, addr->addr, addr->len); } static int decode_addr(struct uni_addr *addr, u_int ielen, struct uni_msg *msg, u_int plan) { addr->plan = plan & 0xf; addr->type = (plan >> 4) & 0x7; switch(addr->plan) { case UNI_ADDR_E164: if(ielen > 15 || ielen == 0) return -1; addr->addr[ielen] = 0; break; case UNI_ADDR_ATME: if(ielen != 20) return -1; break; default: return -1; } (void)memcpy(addr->addr, msg->b_rptr, ielen); addr->len = ielen; msg->b_rptr += ielen; return 0; } static int decode_subaddr(struct uni_subaddr *addr, u_int ielen, struct uni_msg *msg, u_int type) { switch(addr->type = (type >> 4) & 0x7) { case UNI_SUBADDR_NSAP: if(ielen == 0 || ielen > 20) return -1; break; case UNI_SUBADDR_ATME: if(ielen != 20) return -1; break; default: return -1; } if(!(type & 0x80)) return -1; if((type & 0x7) != 0) return -1; addr->len = ielen; (void)memcpy(addr->addr, msg->b_rptr, ielen); msg->b_rptr += ielen; return 0; } /**********************************************************************/ DEF_IE_PRINT(itu, called) { if (uni_print_iehdr("called", &ie->h, cx)) return; print_addr(cx, &ie->addr); uni_print_ieend(cx); } DEF_IE_CHECK(itu, called) { UNUSED(cx); if (check_addr(&ie->addr)) return (-1); return (0); } DEF_IE_ENCODE(itu, called) { START_IE(called, UNI_IE_CALLED, 21); encode_addr(msg, &ie->addr, 0, 0, 0, IE_ISERROR(*ie)); SET_IE_LEN(msg); return (0); } DEF_IE_DECODE(itu, called) { u_char c; IE_START(;); if (ielen > 21 || ielen < 1) goto rej; c = *msg->b_rptr++; ielen--; if (!(c & 0x80)) goto rej; if (decode_addr(&ie->addr, ielen, msg, c)) goto rej; IE_END(CALLED); } /**********************************************************************/ DEF_IE_PRINT(itu, calledsub) { if(uni_print_iehdr("calledsub", &ie->h, cx)) return; print_addrsub(cx, &ie->addr); uni_print_ieend(cx); } DEF_IE_CHECK(itu, calledsub) { UNUSED(cx); if(check_subaddr(&ie->addr)) return -1; return 0; } DEF_IE_ENCODE(itu, calledsub) { START_IE(calledsub, UNI_IE_CALLEDSUB, 21); encode_subaddr(msg, &ie->addr); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, calledsub) { u_char c; IE_START(;); if(ielen > 21) goto rej; c = *msg->b_rptr++; ielen--; if(decode_subaddr(&ie->addr, ielen, msg, c)) goto rej; IE_END(CALLEDSUB); } /**********************************************************************/ DEF_IE_PRINT(itu, calling) { if(uni_print_iehdr("calling", &ie->h, cx)) return; print_addr(cx, &ie->addr); if(ie->h.present & UNI_CALLING_SCREEN_P) { uni_print_tbl("screening", ie->screen, screen_tbl, cx); uni_print_tbl("presentation", ie->pres, pres_tbl, cx); } uni_print_ieend(cx); } DEF_IE_CHECK(itu, calling) { UNUSED(cx); if(check_addr(&ie->addr)) return -1; if(ie->h.present & UNI_CALLING_SCREEN_P) if(check_screen(ie->screen, ie->pres)) return -1; return 0; } DEF_IE_ENCODE(itu, calling) { START_IE(calling, UNI_IE_CALLING, 22); encode_addr(msg, &ie->addr, ie->h.present & UNI_CALLING_SCREEN_P, ie->screen, ie->pres, IE_ISERROR(*ie)); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, calling) { u_char c, plan; IE_START(;); if(ielen > 22 || ielen < 1) goto rej; plan = *msg->b_rptr++; ielen--; if(!(plan & 0x80)) { if(ielen == 0) goto rej; ielen--; c = *msg->b_rptr++; ie->h.present |= UNI_CALLING_SCREEN_P; ie->pres = (c >> 5) & 0x3; ie->screen = c & 0x3; if(!(c & 0x80)) goto rej; } if(decode_addr(&ie->addr, ielen, msg, plan)) goto rej; IE_END(CALLING); } /**********************************************************************/ DEF_IE_PRINT(itu, callingsub) { if(uni_print_iehdr("callingsub", &ie->h, cx)) return; print_addrsub(cx, &ie->addr); uni_print_ieend(cx); } DEF_IE_CHECK(itu, callingsub) { UNUSED(cx); if(check_subaddr(&ie->addr)) return -1; return 0; } DEF_IE_ENCODE(itu, callingsub) { START_IE(callingsub, UNI_IE_CALLINGSUB, 21); encode_subaddr(msg, &ie->addr); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, callingsub) { u_char c; IE_START(;); if(ielen > 21) goto rej; c = *msg->b_rptr++; ielen--; if(decode_subaddr(&ie->addr, ielen, msg, c)) goto rej; IE_END(CALLINGSUB); } /**********************************************************************/ DEF_IE_PRINT(itu, conned) { if(uni_print_iehdr("conned", &ie->h, cx)) return; print_addr(cx, &ie->addr); if(ie->h.present & UNI_CONNED_SCREEN_P) { uni_print_tbl("screening", ie->screen, screen_tbl, cx); uni_print_tbl("presentation", ie->pres, pres_tbl, cx); } uni_print_ieend(cx); } DEF_IE_CHECK(itu, conned) { UNUSED(cx); if(check_addr(&ie->addr)) return -1; if(ie->h.present & UNI_CONNED_SCREEN_P) if(check_screen(ie->screen, ie->pres)) return -1; return 0; } DEF_IE_ENCODE(itu, conned) { START_IE(conned, UNI_IE_CONNED, 22); encode_addr(msg, &ie->addr, ie->h.present & UNI_CONNED_SCREEN_P, ie->screen, ie->pres, IE_ISERROR(*ie)); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, conned) { u_char c, plan; IE_START(;); if(ielen > 22 || ielen < 1) goto rej; plan = *msg->b_rptr++; ielen--; if(!(plan & 0x80)) { if(ielen == 0) goto rej; ielen--; c = *msg->b_rptr++; ie->h.present |= UNI_CONNED_SCREEN_P; ie->pres = (c >> 5) & 0x3; ie->screen = c & 0x3; if(!(c & 0x80)) goto rej; } if(decode_addr(&ie->addr, ielen, msg, plan)) goto rej; IE_END(CONNED); } /**********************************************************************/ DEF_IE_PRINT(itu, connedsub) { if(uni_print_iehdr("connedsub", &ie->h, cx)) return; print_addrsub(cx, &ie->addr); uni_print_ieend(cx); } DEF_IE_CHECK(itu, connedsub) { UNUSED(cx); if(check_subaddr(&ie->addr)) return -1; return 0; } DEF_IE_ENCODE(itu, connedsub) { START_IE(connedsub, UNI_IE_CONNEDSUB, 21); encode_subaddr(msg, &ie->addr); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, connedsub) { u_char c; IE_START(;); if(ielen > 21) goto rej; c = *msg->b_rptr++; ielen--; if(decode_subaddr(&ie->addr, ielen, msg, c)) goto rej; IE_END(CONNEDSUB); } /********************************************************************* * * Endpoint reference. * * References for this IE are: * * Q.2971 p. 14 * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, epref) { if(uni_print_iehdr("epref", &ie->h, cx)) return; uni_print_entry(cx, "epref", "(%u,%u)", ie->flag, ie->epref); uni_print_ieend(cx); } DEF_IE_CHECK(itu, epref) { UNUSED(cx); if(ie->epref >= (2<<15)) return -1; return 0; } DEF_IE_ENCODE(itu, epref) { START_IE(epref, UNI_IE_EPREF, 3); if (IE_ISERROR(*ie)) APP_BYTE(msg, 0xff); else APP_BYTE(msg, 0); APP_BYTE(msg, (ie->flag << 7) | ((ie->epref >> 8) & 0x7f)); APP_BYTE(msg, (ie->epref & 0xff)); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, epref) { u_char c; IE_START(;); if(ielen != 3) goto rej; if(*msg->b_rptr++ != 0) goto rej; c = *msg->b_rptr++; ie->flag = (c & 0x80) ? 1 : 0; ie->epref = (c & 0x7f) << 8; ie->epref |= *msg->b_rptr++; IE_END(EPREF); } /********************************************************************* * * Endpoint state. * * References for this IE are: * * Q.2971 pp. 14...15 * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, epstate) { static const struct uni_print_tbl tbl[] = { MKT(UNI_EPSTATE_NULL, null), MKT(UNI_EPSTATE_ADD_INIT, add-initiated), MKT(UNI_EPSTATE_ALERT_DLVD, alerting-delivered), MKT(UNI_EPSTATE_ADD_RCVD, add-received), MKT(UNI_EPSTATE_ALERT_RCVD, alerting-received), MKT(UNI_EPSTATE_ACTIVE, active), MKT(UNI_EPSTATE_DROP_INIT, drop-initiated), MKT(UNI_EPSTATE_DROP_RCVD, drop-received), EOT() }; if(uni_print_iehdr("epstate", &ie->h, cx)) return; uni_print_tbl("state", ie->state, tbl, cx); uni_print_ieend(cx); } DEF_IE_CHECK(itu, epstate) { UNUSED(cx); switch(ie->state) { default: return -1; case UNI_EPSTATE_NULL: case UNI_EPSTATE_ADD_INIT: case UNI_EPSTATE_ALERT_DLVD: case UNI_EPSTATE_ADD_RCVD: case UNI_EPSTATE_ALERT_RCVD: case UNI_EPSTATE_DROP_INIT: case UNI_EPSTATE_DROP_RCVD: case UNI_EPSTATE_ACTIVE: break; } return 0; } DEF_IE_ENCODE(itu, epstate) { START_IE(epstate, UNI_IE_EPSTATE, 1); APP_BYTE(msg, ie->state); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, epstate) { IE_START(;); if(ielen != 1) goto rej; ie->state = *msg->b_rptr++ & 0x3f; IE_END(EPSTATE); } /********************************************************************* * * ATM adaptation layer parameters * * References for this IE are: * * Q.2931 pp. 43...49 * Q.2931 Amd 2 * UNI4.0 p. 9 * * UNI4.0 states, that AAL2 is not supported. However we keep it. No * parameters are associated with AAL2. * * Amd2 not checked. XXX * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, aal) { static const struct uni_print_tbl aal_tbl[] = { MKT(UNI_AAL_0, VOICE), MKT(UNI_AAL_1, 1), MKT(UNI_AAL_2, 2), MKT(UNI_AAL_4, 3/4), MKT(UNI_AAL_5, 5), MKT(UNI_AAL_USER, USER), EOT() }; static const struct uni_print_tbl subtype_tbl[] = { MKT(UNI_AAL1_SUB_NULL, null), MKT(UNI_AAL1_SUB_VOICE, voice), MKT(UNI_AAL1_SUB_CIRCUIT, circuit), MKT(UNI_AAL1_SUB_HQAUDIO, hqaudio), MKT(UNI_AAL1_SUB_VIDEO, video), EOT() }; static const struct uni_print_tbl cbr_rate_tbl[] = { MKT(UNI_AAL1_CBR_64, 64), MKT(UNI_AAL1_CBR_1544, 1544(DS1)), MKT(UNI_AAL1_CBR_6312, 6312(DS2)), MKT(UNI_AAL1_CBR_32064, 32064), MKT(UNI_AAL1_CBR_44736, 44736(DS3)), MKT(UNI_AAL1_CBR_97728, 97728), MKT(UNI_AAL1_CBR_2048, 2048(E1)), MKT(UNI_AAL1_CBR_8448, 8448(E2)), MKT(UNI_AAL1_CBR_34368, 34368(E3)), MKT(UNI_AAL1_CBR_139264, 139264), MKT(UNI_AAL1_CBR_N64, Nx64), MKT(UNI_AAL1_CBR_N8, Nx8), EOT() }; static const struct uni_print_tbl screc_tbl[] = { MKT(UNI_AAL1_SCREC_NULL, null), MKT(UNI_AAL1_SCREC_SRTS, srts), MKT(UNI_AAL1_SCREC_ACLK, aclk), EOT() }; static const struct uni_print_tbl ecm_tbl[] = { MKT(UNI_AAL1_ECM_NULL, null), MKT(UNI_AAL1_ECM_LOSS, loss), MKT(UNI_AAL1_ECM_DELAY, delay), EOT() }; static const struct uni_print_tbl sscs_tbl[] = { MKT(UNI_AAL_SSCS_NULL, null), MKT(UNI_AAL_SSCS_SSCOPA, sscopa), MKT(UNI_AAL_SSCS_SSCOPU, sscopu), MKT(UNI_AAL_SSCS_FRAME, frame), EOT() }; if(uni_print_iehdr("aal", &ie->h, cx)) return; uni_print_tbl("type", ie->type, aal_tbl, cx); switch(ie->type) { case UNI_AAL_0: uni_print_push_prefix("0", cx); cx->indent++; break; case UNI_AAL_2: uni_print_push_prefix("2", cx); cx->indent++; break; case UNI_AAL_1: uni_print_push_prefix("1", cx); cx->indent++; uni_print_tbl("subtype", ie->u.aal1.subtype, subtype_tbl, cx); uni_print_tbl("cbr_rate", ie->u.aal1.cbr_rate, cbr_rate_tbl, cx); if(ie->h.present & UNI_AAL1_MULT_P) uni_print_entry(cx, "mult", "%u", ie->u.aal1.mult); if(ie->h.present & UNI_AAL1_SCREC_P) uni_print_tbl("screc", ie->u.aal1.screc, screc_tbl, cx); if(ie->h.present & UNI_AAL1_ECM_P) uni_print_tbl("ecm", ie->u.aal1.ecm, ecm_tbl, cx); if(ie->h.present & UNI_AAL1_BSIZE_P) uni_print_entry(cx, "bsize", "%u", ie->u.aal1.bsize); if(ie->h.present & UNI_AAL1_PART_P) uni_print_entry(cx, "part", "%u", ie->u.aal1.part); break; case UNI_AAL_4: uni_print_push_prefix("4", cx); cx->indent++; if(ie->h.present & UNI_AAL4_CPCS_P) uni_print_entry(cx, "cpcs", "(%u,%u)", ie->u.aal4.fwd_cpcs, ie->u.aal4.bwd_cpcs); if(ie->h.present & UNI_AAL4_MID_P) uni_print_entry(cx, "mid", "(%u,%u)", ie->u.aal4.mid_low, ie->u.aal4.mid_high); if(ie->h.present & UNI_AAL4_SSCS_P) uni_print_tbl("sscs", ie->u.aal4.sscs, sscs_tbl, cx); break; case UNI_AAL_5: uni_print_push_prefix("5", cx); cx->indent++; if(ie->h.present & UNI_AAL5_CPCS_P) uni_print_entry(cx, "cpcs", "(%u,%u)", ie->u.aal5.fwd_cpcs, ie->u.aal5.bwd_cpcs); if(ie->h.present & UNI_AAL5_SSCS_P) uni_print_tbl("sscs", ie->u.aal5.sscs, sscs_tbl, cx); break; case UNI_AAL_USER: uni_print_push_prefix("user", cx); cx->indent++; if(ie->u.aalu.len > 4) { uni_print_entry(cx, "info", "ERROR(len=%u)", ie->u.aalu.len); } else { u_int i; uni_print_entry(cx, "info", "("); for(i = 0; i < ie->u.aalu.len; i++) uni_printf(cx, "%s%u", !i?"":",", ie->u.aalu.user[i]); uni_printf(cx, ")"); } break; } cx->indent--; uni_print_pop_prefix(cx); uni_print_eol(cx); uni_print_ieend(cx); } DEF_IE_CHECK(itu, aal) { UNUSED(cx); if(ie->type == UNI_AAL_0) { ; } else if(ie->type == UNI_AAL_1) { switch(ie->u.aal1.subtype) { default: return -1; case UNI_AAL1_SUB_NULL: case UNI_AAL1_SUB_VOICE: case UNI_AAL1_SUB_CIRCUIT: case UNI_AAL1_SUB_HQAUDIO: case UNI_AAL1_SUB_VIDEO: break; } switch(ie->u.aal1.cbr_rate) { default: return -1; case UNI_AAL1_CBR_64: case UNI_AAL1_CBR_1544: case UNI_AAL1_CBR_6312: case UNI_AAL1_CBR_32064: case UNI_AAL1_CBR_44736: case UNI_AAL1_CBR_97728: case UNI_AAL1_CBR_2048: case UNI_AAL1_CBR_8448: case UNI_AAL1_CBR_34368: case UNI_AAL1_CBR_139264: if((ie->h.present & UNI_AAL1_MULT_P)) return -1; break; case UNI_AAL1_CBR_N64: if(!(ie->h.present & UNI_AAL1_MULT_P)) return -1; if(ie->u.aal1.mult < 2) return -1; break; case UNI_AAL1_CBR_N8: if(!(ie->h.present & UNI_AAL1_MULT_P)) return -1; if(ie->u.aal1.mult == 0 || ie->u.aal1.mult > 7) return -1; break; } if(ie->h.present & UNI_AAL1_SCREC_P) { switch(ie->u.aal1.screc) { default: return -1; case UNI_AAL1_SCREC_NULL: case UNI_AAL1_SCREC_SRTS: case UNI_AAL1_SCREC_ACLK: break; } } if(ie->h.present & UNI_AAL1_ECM_P) { switch(ie->u.aal1.ecm) { default: return -1; case UNI_AAL1_ECM_NULL: case UNI_AAL1_ECM_LOSS: case UNI_AAL1_ECM_DELAY: break; } } if(ie->h.present & UNI_AAL1_BSIZE_P) { if(ie->u.aal1.bsize == 0) return -1; } if(ie->h.present & UNI_AAL1_PART_P) { if(ie->u.aal1.part == 0 || ie->u.aal1.part > 47) return -1; } } else if(ie->type == UNI_AAL_2) { ; } else if(ie->type == UNI_AAL_4) { if(ie->h.present & UNI_AAL4_MID_P) { if(ie->u.aal4.mid_low >= 1024) return -1; if(ie->u.aal4.mid_high >= 1024) return -1; if(ie->u.aal4.mid_low > ie->u.aal4.mid_high) return -1; } if(ie->h.present & UNI_AAL4_SSCS_P) { switch(ie->u.aal4.sscs) { default: return -1; case UNI_AAL_SSCS_NULL: case UNI_AAL_SSCS_SSCOPA: case UNI_AAL_SSCS_SSCOPU: case UNI_AAL_SSCS_FRAME: break; } } } else if(ie->type == UNI_AAL_5) { if(ie->h.present & UNI_AAL5_SSCS_P) { switch(ie->u.aal5.sscs) { default: return -1; case UNI_AAL_SSCS_NULL: case UNI_AAL_SSCS_SSCOPA: case UNI_AAL_SSCS_SSCOPU: case UNI_AAL_SSCS_FRAME: break; } } } else if(ie->type == UNI_AAL_USER) { if(ie->u.aalu.len > 4) return -1; } else return -1; return 0; } DEF_IE_ENCODE(itu, aal) { START_IE(aal, UNI_IE_AAL, 16); APP_BYTE(msg, ie->type); switch(ie->type) { case UNI_AAL_0: break; case UNI_AAL_1: APP_SUB_BYTE(msg, UNI_AAL_SUB_ID, ie->u.aal1.subtype); APP_SUB_BYTE(msg, UNI_AAL_CBR_ID, ie->u.aal1.cbr_rate); APP_OPT_16BIT(msg, ie->h.present, UNI_AAL1_MULT_P, UNI_AAL_MULT_ID, ie->u.aal1.mult); APP_OPT_BYTE(msg, ie->h.present, UNI_AAL1_SCREC_P, UNI_AAL_SCREC_ID, ie->u.aal1.screc); APP_OPT_BYTE(msg, ie->h.present, UNI_AAL1_ECM_P, UNI_AAL_ECM_ID, ie->u.aal1.ecm); APP_OPT_16BIT(msg, ie->h.present, UNI_AAL1_BSIZE_P, UNI_AAL_BSIZE_ID, ie->u.aal1.bsize); APP_OPT_BYTE(msg, ie->h.present, UNI_AAL1_PART_P, UNI_AAL_PART_ID, ie->u.aal1.part); break; case UNI_AAL_2: break; case UNI_AAL_4: if(ie->h.present & UNI_AAL4_CPCS_P) { APP_SUB_16BIT(msg, UNI_AAL_FWDCPCS_ID, ie->u.aal4.fwd_cpcs); APP_SUB_16BIT(msg, UNI_AAL_BWDCPCS_ID, ie->u.aal4.bwd_cpcs); } if(ie->h.present & UNI_AAL4_MID_P) { APP_BYTE(msg, UNI_AAL_MID_ID); APP_16BIT(msg, ie->u.aal4.mid_low); APP_16BIT(msg, ie->u.aal4.mid_high); } APP_OPT_BYTE(msg, ie->h.present, UNI_AAL4_SSCS_P, UNI_AAL_SSCS_ID, ie->u.aal4.sscs); break; case UNI_AAL_5: if(ie->h.present & UNI_AAL5_CPCS_P) { APP_SUB_16BIT(msg, UNI_AAL_FWDCPCS_ID, ie->u.aal5.fwd_cpcs); APP_SUB_16BIT(msg, UNI_AAL_BWDCPCS_ID, ie->u.aal5.bwd_cpcs); } APP_OPT_BYTE(msg, ie->h.present, UNI_AAL5_SSCS_P, UNI_AAL_SSCS_ID, ie->u.aal5.sscs); break; case UNI_AAL_USER: APP_BUF(msg, ie->u.aalu.user, ie->u.aalu.len); break; default: return -1; } SET_IE_LEN(msg); return 0; } /* * XXX What should we do with multiple subtype occurences? Ignore * or reject. Currently we reject. */ static int decode_aal_1(struct uni_ie_aal *ie, struct uni_msg *msg, u_int ielen) { int subtype_p, cbr_p; subtype_p = cbr_p = 0; while(ielen-- > 0) { switch(*msg->b_rptr++) { case UNI_AAL_SUB_ID: if(ielen == 0 || subtype_p) return -1; ielen--; subtype_p = 1; ie->u.aal1.subtype = *msg->b_rptr++; break; case UNI_AAL_CBR_ID: if(ielen == 0 || cbr_p) return -1; ielen--; cbr_p = 1; ie->u.aal1.cbr_rate = *msg->b_rptr++; break; case UNI_AAL_MULT_ID: if(ielen < 2 || (ie->h.present & UNI_AAL1_MULT_P)) return -1; ielen -= 2; ie->h.present |= UNI_AAL1_MULT_P; ie->u.aal1.mult = *msg->b_rptr++ << 8; ie->u.aal1.mult |= *msg->b_rptr++; break; case UNI_AAL_SCREC_ID: if(ielen == 0 || (ie->h.present & UNI_AAL1_SCREC_P)) return -1; ielen--; ie->h.present |= UNI_AAL1_SCREC_P; ie->u.aal1.screc = *msg->b_rptr++; break; case UNI_AAL_ECM_ID: if(ielen == 0 || (ie->h.present & UNI_AAL1_ECM_P)) return -1; ielen--; ie->h.present |= UNI_AAL1_ECM_P; ie->u.aal1.ecm = *msg->b_rptr++; break; case UNI_AAL_BSIZE_ID: if(ielen < 2 || (ie->h.present & UNI_AAL1_BSIZE_P)) return -1; ielen -= 2; ie->h.present |= UNI_AAL1_BSIZE_P; ie->u.aal1.bsize = *msg->b_rptr++ << 8; ie->u.aal1.bsize |= *msg->b_rptr++; break; case UNI_AAL_PART_ID: if(ielen == 0 || (ie->h.present & UNI_AAL1_PART_P)) return -1; ielen--; ie->h.present |= UNI_AAL1_PART_P; ie->u.aal1.part = *msg->b_rptr++; break; default: return -1; } } if(!subtype_p || !cbr_p) return -1; return 0; } static int decode_aal_4(struct uni_ie_aal *ie, struct uni_msg *msg, u_int ielen) { int fcpcs_p, bcpcs_p; fcpcs_p = bcpcs_p = 0; while(ielen-- > 0) { switch(*msg->b_rptr++) { case UNI_AAL_FWDCPCS_ID: if(ielen < 2 || fcpcs_p) return -1; ielen -= 2; fcpcs_p = 1; ie->u.aal4.fwd_cpcs = *msg->b_rptr++ << 8; ie->u.aal4.fwd_cpcs |= *msg->b_rptr++; break; case UNI_AAL_BWDCPCS_ID: if(ielen < 2 || bcpcs_p) return -1; ielen -= 2; bcpcs_p = 1; ie->u.aal4.bwd_cpcs = *msg->b_rptr++ << 8; ie->u.aal4.bwd_cpcs |= *msg->b_rptr++; break; case UNI_AAL_MID_ID: if(ielen < 4 || (ie->h.present & UNI_AAL4_MID_P)) return -1; ielen -= 4; ie->h.present |= UNI_AAL4_MID_P; ie->u.aal4.mid_low = *msg->b_rptr++ << 8; ie->u.aal4.mid_low |= *msg->b_rptr++; ie->u.aal4.mid_high = *msg->b_rptr++ << 8; ie->u.aal4.mid_high |= *msg->b_rptr++; break; case UNI_AAL_SSCS_ID: if(ielen == 0 || (ie->h.present & UNI_AAL4_SSCS_P)) return -1; ielen--; ie->h.present |= UNI_AAL4_SSCS_P; ie->u.aal4.sscs = *msg->b_rptr++; break; default: return -1; } } if(fcpcs_p ^ bcpcs_p) return -1; if(fcpcs_p) ie->h.present |= UNI_AAL4_CPCS_P; return 0; } static int decode_aal_5(struct uni_ie_aal *ie, struct uni_msg *msg, u_int ielen) { int fcpcs_p, bcpcs_p; fcpcs_p = bcpcs_p = 0; while(ielen-- > 0) { switch(*msg->b_rptr++) { case UNI_AAL_FWDCPCS_ID: if(ielen < 2 || fcpcs_p) return -1; ielen -= 2; fcpcs_p = 1; ie->u.aal5.fwd_cpcs = *msg->b_rptr++ << 8; ie->u.aal5.fwd_cpcs |= *msg->b_rptr++; break; case UNI_AAL_BWDCPCS_ID: if(ielen < 2 || bcpcs_p) return -1; ielen -= 2; bcpcs_p = 1; ie->u.aal5.bwd_cpcs = *msg->b_rptr++ << 8; ie->u.aal5.bwd_cpcs |= *msg->b_rptr++; break; case UNI_AAL_SSCS_ID: if(ielen == 0 || (ie->h.present & UNI_AAL5_SSCS_P)) return -1; ielen--; ie->h.present |= UNI_AAL5_SSCS_P; ie->u.aal5.sscs = *msg->b_rptr++; break; default: return -1; } } if(fcpcs_p ^ bcpcs_p) return -1; if(fcpcs_p) ie->h.present |= UNI_AAL5_CPCS_P; return 0; } static int decode_aal_user(struct uni_ie_aal *ie, struct uni_msg *msg, u_int ielen) { if(ielen > 4) return -1; ie->u.aalu.len = 0; while(ielen--) ie->u.aalu.user[ie->u.aalu.len++] = *msg->b_rptr++; return 0; } DEF_IE_DECODE(itu, aal) { u_char c; IE_START(DISC_ACC_ERR(AAL)); if(ielen < 1 || ielen > 21) goto rej; c = *msg->b_rptr++; ielen--; switch(c) { case UNI_AAL_0: ie->type = c; break; case UNI_AAL_1: ie->type = c; if(decode_aal_1(ie, msg, ielen)) goto rej; break; case UNI_AAL_2: ie->type = c; break; case UNI_AAL_4: ie->type = c; if(decode_aal_4(ie, msg, ielen)) goto rej; break; case UNI_AAL_5: ie->type = c; if(decode_aal_5(ie, msg, ielen)) goto rej; break; case UNI_AAL_USER: ie->type = c; if(decode_aal_user(ie, msg, ielen)) goto rej; break; default: goto rej; } IE_END(AAL); } /********************************************************************* * * Traffic descriptor. * Alternate traffic descriptor. * Minimum traffic descriptor. * * References for this IE are: * * Q.2931 pp. 49...51 * Q.2961 * Q.2962 * UNI4.0 pp. 9...10, 106...109 * * The Q.s specify the coding. UNI4.0 adds frame discard and best-effort. * Appendix in UNI4.0 lists the allowed combinations. * * PCR0 PCR1 SCR/MBS0 SCR/MBS1 BE TAG FDISC ABR * 1 CBR.1 - Y - - - N Y/N - * 2 CBR.2 - Y - - - N Y/N - (*) * 3 CBR.3 Y Y - - - Y Y/N - (*) * 4 rt-VBR.1 - Y - Y - N Y/N - * 5 rt-VBR.2 - Y Y - - N Y/N - * 6 rt-VBR.3 - Y Y - - Y Y/N - * 7 rt-VBR.4 Y Y - - - Y/N Y/N - (*) * 8 rt-VBR.5 - Y - - - N Y/N - (*) * 9 rt-VBR.6 - Y - Y - N Y/N - (*) * 10 nrt-VBR.1 - Y - Y - N Y/N - * 11 nrt-VBR.2 - Y Y - - N Y/N - * 12 nrt-VBR.3 - Y Y - - Y Y/N - * 13 nrt-VBR.4 Y Y - - - Y/N Y/N - (*) * 14 nrt-VBR.5 - Y - - - N Y/N - (*) * 15 nrt-VBR.6 - Y - Y - N Y/N - (*) * 16 ABR - Y - - - N Y/N O (*) * 17 UBR.1 - Y - - Y N Y/N - * 18 UBR.2 - Y - - Y Y Y/N - * * Allow ITU-T and NET coding, because its not clear, whether the * new fields in UNI4.0 should be used with NET coding or not. * Does not allow for experimental codings yet. */ static void print_ie_traffic_common(struct unicx *cx, u_int present, struct uni_xtraffic *ie) { uni_print_entry(cx, "fwd", "("); if(present & UNI_TRAFFIC_FPCR0_P) uni_printf(cx, "%u", ie->fpcr0); uni_putc(',', cx); if(present & UNI_TRAFFIC_FPCR1_P) uni_printf(cx, "%u", ie->fpcr1); uni_putc(',', cx); if(present & UNI_TRAFFIC_FSCR0_P) uni_printf(cx, "%u", ie->fscr0); uni_putc(',', cx); if(present & UNI_TRAFFIC_FSCR1_P) uni_printf(cx, "%u", ie->fscr1); uni_putc(',', cx); if(present & UNI_TRAFFIC_FMBS0_P) uni_printf(cx, "%u", ie->fmbs0); uni_putc(',', cx); if(present & UNI_TRAFFIC_FMBS1_P) uni_printf(cx, "%u", ie->fmbs1); uni_putc(',', cx); if(present & UNI_TRAFFIC_FABR1_P) uni_printf(cx, "%u", ie->fabr1); uni_printf(cx, ")"); uni_print_entry(cx, "bwd", "("); if(present & UNI_TRAFFIC_BPCR0_P) uni_printf(cx, "%u", ie->bpcr0); uni_putc(',', cx); if(present & UNI_TRAFFIC_BPCR1_P) uni_printf(cx, "%u", ie->bpcr1); uni_putc(',', cx); if(present & UNI_TRAFFIC_BSCR0_P) uni_printf(cx, "%u", ie->bscr0); uni_putc(',', cx); if(present & UNI_TRAFFIC_BSCR1_P) uni_printf(cx, "%u", ie->bscr1); uni_putc(',', cx); if(present & UNI_TRAFFIC_BMBS0_P) uni_printf(cx, "%u", ie->bmbs0); uni_putc(',', cx); if(present & UNI_TRAFFIC_BMBS1_P) uni_printf(cx, "%u", ie->bmbs1); uni_putc(',', cx); if(present & UNI_TRAFFIC_BABR1_P) uni_printf(cx, "%u", ie->babr1); uni_printf(cx, ")"); if(present & UNI_TRAFFIC_BEST_P) uni_print_flag("best_effort", cx); if(present & UNI_TRAFFIC_MOPT_P) { uni_print_entry(cx, "tag", "("); if(ie->ftag) uni_printf(cx, "fwd"); uni_putc(',', cx); if(ie->btag) uni_printf(cx, "bwd"); uni_putc(')', cx); uni_print_entry(cx, "disc", "("); if(ie->fdisc) uni_printf(cx, "fwd"); uni_putc(',', cx); if(ie->bdisc) uni_printf(cx, "bwd"); uni_putc(')', cx); } } struct tallow { u_int mask; int mopt_flag; u_char mopt_mask, mopt_val; }; static int check_traffic(u_int mask, u_int mopt, struct tallow *a) { if(mask != a->mask) return 0; if(a->mopt_flag == 0) { /* not allowed */ if(mopt == 0xffff) return 1; return 0; } if(a->mopt_flag < 0) { /* optional */ if(mopt == 0xffff) return 1; if((mopt & a->mopt_mask) == a->mopt_val) return 1; return 0; } /* required */ if(mopt == 0xffff) return 0; if((mopt & a->mopt_mask) == a->mopt_val) return 1; return 0; } static int check_ie_traffic_common(struct uni_xtraffic *ie, u_int present, struct unicx *cx __unused) { static u_int fmask = UNI_TRAFFIC_FPCR0_P | UNI_TRAFFIC_FPCR1_P | UNI_TRAFFIC_FSCR0_P | UNI_TRAFFIC_FSCR1_P | UNI_TRAFFIC_FMBS0_P | UNI_TRAFFIC_FMBS1_P | UNI_TRAFFIC_FABR1_P; static u_int bmask = UNI_TRAFFIC_BPCR0_P | UNI_TRAFFIC_BPCR1_P | UNI_TRAFFIC_BSCR0_P | UNI_TRAFFIC_BSCR1_P | UNI_TRAFFIC_BMBS0_P | UNI_TRAFFIC_BMBS1_P | UNI_TRAFFIC_BABR1_P; #define DTAB(U,X) \ { U##X##PCR1_P, \ -1, U##X##TAG, 0 }, /* 1, 2, 8, 14 */ \ { U##X##PCR0_P | U##X##PCR1_P, \ +1, U##X##TAG, U##X##TAG }, /* 3 */ \ { U##X##PCR1_P | U##X##SCR1_P | U##X##MBS1_P, \ -1, U##X##TAG, 0 }, /* 4, 9, 10, 15 */ \ { U##X##PCR1_P | U##X##SCR0_P | U##X##MBS0_P, \ -1, 0, 0 }, /* 5, 6, 11, 12 */ \ { U##X##PCR0_P | U##X##PCR1_P, \ -1, 0, 0 }, /* 7, 13 */ \ { U##X##PCR1_P | U##X##ABR1_P, \ -1, U##X##TAG, 0 }, /* 16a */ #define DTABSIZE 6 static struct tallow allow[2][DTABSIZE] = { { DTAB(UNI_TRAFFIC_, F) }, { DTAB(UNI_TRAFFIC_, B) }, }; #undef DTAB u_int f, b, p, m; int i; f = present & fmask; b = present & bmask; p = present & (fmask | bmask); m = (present & UNI_TRAFFIC_MOPT_P) ? ( (ie->ftag ? UNI_TRAFFIC_FTAG : 0) | (ie->btag ? UNI_TRAFFIC_BTAG : 0) | (ie->fdisc ? UNI_TRAFFIC_FDISC : 0) | (ie->bdisc ? UNI_TRAFFIC_BDISC : 0)) : 0xffff; if(present & UNI_TRAFFIC_BEST_P) { /* * Lines 17 and 18 */ if(p != (UNI_TRAFFIC_FPCR1_P | UNI_TRAFFIC_BPCR1_P)) return -1; return 0; } /* * Check forward and backward independent. There must be a higher * level checking in the CAC */ for(i = 0; i < DTABSIZE; i++) if(check_traffic(f, m, &allow[0][i])) break; if(i == DTABSIZE) return -1; for(i = 0; i < DTABSIZE; i++) if(check_traffic(b, m, &allow[1][i])) break; if(i == DTABSIZE) return -1; return 0; } static int encode_traffic_common(struct uni_msg *msg, struct uni_xtraffic *ie, u_int present, struct unicx *cx __unused) { APP_OPT_24BIT(msg, present, UNI_TRAFFIC_FPCR0_P, UNI_TRAFFIC_FPCR0_ID, ie->fpcr0); APP_OPT_24BIT(msg, present, UNI_TRAFFIC_BPCR0_P, UNI_TRAFFIC_BPCR0_ID, ie->bpcr0); APP_OPT_24BIT(msg, present, UNI_TRAFFIC_FPCR1_P, UNI_TRAFFIC_FPCR1_ID, ie->fpcr1); APP_OPT_24BIT(msg, present, UNI_TRAFFIC_BPCR1_P, UNI_TRAFFIC_BPCR1_ID, ie->bpcr1); APP_OPT_24BIT(msg, present, UNI_TRAFFIC_FSCR0_P, UNI_TRAFFIC_FSCR0_ID, ie->fscr0); APP_OPT_24BIT(msg, present, UNI_TRAFFIC_BSCR0_P, UNI_TRAFFIC_BSCR0_ID, ie->bscr0); APP_OPT_24BIT(msg, present, UNI_TRAFFIC_FSCR1_P, UNI_TRAFFIC_FSCR1_ID, ie->fscr1); APP_OPT_24BIT(msg, present, UNI_TRAFFIC_BSCR1_P, UNI_TRAFFIC_BSCR1_ID, ie->bscr1); APP_OPT_24BIT(msg, present, UNI_TRAFFIC_FMBS0_P, UNI_TRAFFIC_FMBS0_ID, ie->fmbs0); APP_OPT_24BIT(msg, present, UNI_TRAFFIC_BMBS0_P, UNI_TRAFFIC_BMBS0_ID, ie->bmbs0); APP_OPT_24BIT(msg, present, UNI_TRAFFIC_FMBS1_P, UNI_TRAFFIC_FMBS1_ID, ie->fmbs1); APP_OPT_24BIT(msg, present, UNI_TRAFFIC_BMBS1_P, UNI_TRAFFIC_BMBS1_ID, ie->bmbs1); APP_OPT_24BIT(msg, present, UNI_TRAFFIC_FABR1_P, UNI_TRAFFIC_FABR1_ID, ie->fabr1); APP_OPT_24BIT(msg, present, UNI_TRAFFIC_BABR1_P, UNI_TRAFFIC_BABR1_ID, ie->babr1); APP_OPT(msg, present, UNI_TRAFFIC_BEST_P, UNI_TRAFFIC_BEST_ID); APP_OPT_BYTE(msg, present, UNI_TRAFFIC_MOPT_P, UNI_TRAFFIC_MOPT_ID, (ie->ftag ? UNI_TRAFFIC_FTAG : 0) | (ie->btag ? UNI_TRAFFIC_BTAG : 0) | (ie->fdisc ? UNI_TRAFFIC_FDISC : 0) | (ie->fdisc ? UNI_TRAFFIC_BDISC : 0)); return 0; } static int decode_traffic_common(struct uni_xtraffic *ie, struct uni_msg *msg, u_int ielen, u_int *present) { u_char c; while(ielen--) { switch(c = *msg->b_rptr++) { default: rej: return -1; DEC_GETF3(TRAFFIC_FPCR0, fpcr0, *present); DEC_GETF3(TRAFFIC_BPCR0, bpcr0, *present); DEC_GETF3(TRAFFIC_FPCR1, fpcr1, *present); DEC_GETF3(TRAFFIC_BPCR1, bpcr1, *present); DEC_GETF3(TRAFFIC_FSCR0, fscr0, *present); DEC_GETF3(TRAFFIC_BSCR0, bscr0, *present); DEC_GETF3(TRAFFIC_FSCR1, fscr1, *present); DEC_GETF3(TRAFFIC_BSCR1, bscr1, *present); DEC_GETF3(TRAFFIC_FMBS0, fmbs0, *present); DEC_GETF3(TRAFFIC_BMBS0, bmbs0, *present); DEC_GETF3(TRAFFIC_BMBS1, bmbs1, *present); DEC_GETF3(TRAFFIC_FABR1, fabr1, *present); DEC_GETF3(TRAFFIC_BABR1, babr1, *present); case UNI_TRAFFIC_BEST_ID: *present |= UNI_TRAFFIC_BEST_P; break; case UNI_TRAFFIC_MOPT_ID: if(ielen == 0) return -1; ielen--; if(!(*present & UNI_TRAFFIC_MOPT_P)) { *present |= UNI_TRAFFIC_MOPT_P; ie->ftag = (*msg->b_rptr&UNI_TRAFFIC_FTAG)?1:0; ie->btag = (*msg->b_rptr&UNI_TRAFFIC_BTAG)?1:0; ie->fdisc = (*msg->b_rptr&UNI_TRAFFIC_FDISC)?1:0; ie->bdisc = (*msg->b_rptr&UNI_TRAFFIC_BDISC)?1:0; } msg->b_rptr++; break; } } return 0; } /*****************************************************************/ DEF_IE_PRINT(itu, traffic) { if(uni_print_iehdr("traffic", &ie->h, cx)) return; print_ie_traffic_common(cx, ie->h.present, &ie->t); uni_print_ieend(cx); } DEF_IE_CHECK(itu, traffic) { return check_ie_traffic_common(&ie->t, ie->h.present, cx); } DEF_IE_ENCODE(itu, traffic) { START_IE(traffic, UNI_IE_TRAFFIC, 26); encode_traffic_common(msg, &ie->t, ie->h.present, cx); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, traffic) { IE_START(;); if(ielen > 30) goto rej; if(decode_traffic_common(&ie->t, msg, ielen, &ie->h.present)) goto rej; IE_END(TRAFFIC); } /*****************************************************************/ DEF_IE_PRINT(itu, atraffic) { if(uni_print_iehdr("atraffic", &ie->h, cx)) return; print_ie_traffic_common(cx, ie->h.present, &ie->t); uni_print_ieend(cx); } DEF_IE_CHECK(itu, atraffic) { return check_ie_traffic_common(&ie->t, ie->h.present, cx); } DEF_IE_ENCODE(itu, atraffic) { START_IE(traffic, UNI_IE_ATRAFFIC, 26); encode_traffic_common(msg, &ie->t, ie->h.present, cx); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, atraffic) { IE_START(;); if(ielen > 30) goto rej; if(decode_traffic_common(&ie->t, msg, ielen, &ie->h.present)) goto rej; IE_END(ATRAFFIC); } /*****************************************************************/ DEF_IE_PRINT(itu, mintraffic) { if(uni_print_iehdr("mintraffic", &ie->h, cx)) return; uni_print_entry(cx, "pcr0", "("); if(ie->h.present & UNI_MINTRAFFIC_FPCR0_P) uni_printf(cx, "%u", ie->fpcr0); uni_putc(',', cx); if(ie->h.present & UNI_MINTRAFFIC_BPCR0_P) uni_printf(cx, "%u", ie->bpcr0); uni_putc(')', cx); uni_print_entry(cx, "pcr1", "("); if(ie->h.present & UNI_MINTRAFFIC_FPCR1_P) uni_printf(cx, "%u", ie->fpcr1); uni_putc(',', cx); if(ie->h.present & UNI_MINTRAFFIC_BPCR1_P) uni_printf(cx, "%u", ie->bpcr1); uni_putc(')', cx); uni_print_entry(cx, "abr1", "("); if(ie->h.present & UNI_MINTRAFFIC_FABR1_P) uni_printf(cx, "%u", ie->fabr1); uni_putc(',', cx); if(ie->h.present & UNI_MINTRAFFIC_BABR1_P) uni_printf(cx, "%u", ie->babr1); uni_printf(cx, ")"); uni_print_ieend(cx); } DEF_IE_CHECK(itu, mintraffic) { u_int abr; u_int xbr; UNUSED(cx); abr = ie->h.present & (UNI_MINTRAFFIC_FABR1_P|UNI_MINTRAFFIC_BABR1_P); xbr = ie->h.present & (UNI_MINTRAFFIC_FPCR0_P|UNI_MINTRAFFIC_BPCR0_P| UNI_MINTRAFFIC_FPCR1_P|UNI_MINTRAFFIC_BPCR1_P); if(abr && xbr) return -1; return 0; } DEF_IE_ENCODE(itu, mintraffic) { START_IE(mintraffic, UNI_IE_MINTRAFFIC, 16); APP_OPT_24BIT(msg, ie->h.present, UNI_MINTRAFFIC_FPCR0_P, UNI_TRAFFIC_FPCR0_ID, ie->fpcr0); APP_OPT_24BIT(msg, ie->h.present, UNI_MINTRAFFIC_BPCR0_P, UNI_TRAFFIC_BPCR0_ID, ie->bpcr0); APP_OPT_24BIT(msg, ie->h.present, UNI_MINTRAFFIC_FPCR1_P, UNI_TRAFFIC_FPCR1_ID, ie->fpcr1); APP_OPT_24BIT(msg, ie->h.present, UNI_MINTRAFFIC_BPCR1_P, UNI_TRAFFIC_BPCR1_ID, ie->bpcr1); APP_OPT_24BIT(msg, ie->h.present, UNI_MINTRAFFIC_FABR1_P, UNI_TRAFFIC_FABR1_ID, ie->fabr1); APP_OPT_24BIT(msg, ie->h.present, UNI_MINTRAFFIC_BABR1_P, UNI_TRAFFIC_BABR1_ID, ie->babr1); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, mintraffic) { u_char c; IE_START(;); if(ielen > 20) goto rej; while(ielen--) { switch(c = *msg->b_rptr++) { default: goto rej; DEC_GETF3(MINTRAFFIC_FPCR0, fpcr0, ie->h.present); DEC_GETF3(MINTRAFFIC_BPCR0, bpcr0, ie->h.present); DEC_GETF3(MINTRAFFIC_FPCR1, fpcr1, ie->h.present); DEC_GETF3(MINTRAFFIC_BPCR1, bpcr1, ie->h.present); DEC_GETF3(MINTRAFFIC_FABR1, fabr1, ie->h.present); DEC_GETF3(MINTRAFFIC_BABR1, babr1, ie->h.present); } } IE_END(MINTRAFFIC); } /*****************************************************************/ DEF_IE_PRINT(net, mdcr) { static const struct uni_print_tbl origin_tbl[] = { MKT(UNI_MDCR_ORIGIN_USER, user), MKT(UNI_MDCR_ORIGIN_NET, net), EOT() }; if(uni_print_iehdr("mdcr", &ie->h, cx)) return; uni_print_tbl("origin", ie->origin, origin_tbl, cx); uni_print_entry(cx, "mdcr", "("); uni_printf(cx, "%u", ie->fmdcr); uni_putc(',', cx); uni_printf(cx, "%u", ie->bmdcr); uni_putc(')', cx); uni_print_ieend(cx); } DEF_IE_CHECK(net, mdcr) { UNUSED(cx); if ((ie->origin != UNI_MDCR_ORIGIN_USER && ie->origin != UNI_MDCR_ORIGIN_NET) || ie->fmdcr >= (1 << 24) || ie->bmdcr >= (1 << 24)) return (-1); return (0); } DEF_IE_ENCODE(net, mdcr) { START_IE(mdcr, UNI_IE_MDCR, 9); APP_BYTE(msg, ie->origin); APP_SUB_24BIT(msg, UNI_TRAFFIC_FMDCR_ID, ie->fmdcr); APP_SUB_24BIT(msg, UNI_TRAFFIC_BMDCR_ID, ie->bmdcr); SET_IE_LEN(msg); return (0); } DEF_IE_DECODE(net, mdcr) { u_char c; #define UNI_TRAFFIC_FMDCR_P 0x01 #define UNI_TRAFFIC_BMDCR_P 0x02 u_int p = 0; IE_START(;); if(ielen != 9) goto rej; ie->origin = *msg->b_rptr++; ielen--; while(ielen--) { switch(c = *msg->b_rptr++) { default: goto rej; DEC_GETF3(TRAFFIC_FMDCR, fmdcr, p); DEC_GETF3(TRAFFIC_BMDCR, bmdcr, p); } } if (p != (UNI_TRAFFIC_FMDCR_P | UNI_TRAFFIC_BMDCR_P)) goto rej; IE_END(MDCR); } /********************************************************************* * * Connection identifier * * References for this IE are: * * Q.2931 pp. 69...70 * UNI4.0 pp. 15...16 * PNNI1.0 p. 198 * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, connid) { static const struct uni_print_tbl tbl[] = { MKT(UNI_CONNID_VCI, exclusive), MKT(UNI_CONNID_ANYVCI, any), MKT(UNI_CONNID_NOVCI, no), EOT() }; static const struct uni_print_tbl assoc_tbl[] = { MKT(UNI_CONNID_ASSOC, associated), MKT(UNI_CONNID_NONASSOC,non-associated), EOT() }; if(uni_print_iehdr("connid", &ie->h, cx)) return; uni_print_tbl("mode", ie->assoc, assoc_tbl, cx); uni_print_entry(cx, "connid", "(%u,", ie->vpci); if(ie->type == UNI_CONNID_VCI) uni_printf(cx, "%u", ie->vci); else uni_print_tbl(NULL, ie->type, tbl, cx); uni_printf(cx, ")"); uni_print_ieend(cx); } DEF_IE_CHECK(itu, connid) { UNUSED(cx); switch(ie->type) { default: return -1; case UNI_CONNID_VCI: case UNI_CONNID_ANYVCI: case UNI_CONNID_NOVCI: break; } #if 0 /* * This field must be checked by the application to fulfil * Q.2931Amd4 27) 5.2.3 last sentence */ switch(ie->assoc) { case UNI_CONNID_ASSOC: if(!cx->cx.pnni) return -1; break; case UNI_CONNID_NONASSOC: break; default: return -1; } #endif return 0; } DEF_IE_ENCODE(itu, connid) { START_IE(connid, UNI_IE_CONNID, 5); APP_BYTE(msg, 0x80 | (ie->assoc << 3) | ie->type); APP_BYTE(msg, ie->vpci >> 8); APP_BYTE(msg, ie->vpci >> 0); APP_BYTE(msg, ie->vci >> 8); APP_BYTE(msg, ie->vci >> 0); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, connid) { u_char c; IE_START(;); if(ielen != 5) goto rej; c = *msg->b_rptr++; if((c & 0x80) == 0) goto rej; ie->assoc = (c >> 3) & 3; ie->type = c & 7; ie->vpci = *msg->b_rptr++ << 8; ie->vpci |= *msg->b_rptr++; ie->vci = *msg->b_rptr++ << 8; ie->vci |= *msg->b_rptr++; IE_END(CONNID); } /********************************************************************* * * Quality of Service * * References for this IE are: * * Q.2931 pp. 72 * UNI4.0 pp. 16...17 */ static void print_qos(struct unicx *cx, struct uni_ie_qos *ie) { static const struct uni_print_tbl class_tbl[] = { MKT(UNI_QOS_CLASS0, Class0), MKT(UNI_QOS_CLASS1, Class1), MKT(UNI_QOS_CLASS2, Class2), MKT(UNI_QOS_CLASS3, Class3), MKT(UNI_QOS_CLASS4, Class4), EOT() }; if(uni_print_iehdr("qos", &ie->h, cx)) return; uni_print_tbl("fwd", ie->fwd, class_tbl, cx); uni_print_tbl("bwd", ie->bwd, class_tbl, cx); uni_print_ieend(cx); } DEF_IE_PRINT(itu, qos) { print_qos(cx, ie); } DEF_IE_PRINT(net, qos) { print_qos(cx, ie); } DEF_IE_CHECK(itu, qos) { UNUSED(cx); switch(ie->fwd) { default: return -1; case UNI_QOS_CLASS0: break; } switch(ie->bwd) { default: return -1; case UNI_QOS_CLASS0: break; } return 0; } DEF_IE_CHECK(net, qos) { UNUSED(cx); switch(ie->fwd) { default: return -1; case UNI_QOS_CLASS1: case UNI_QOS_CLASS2: case UNI_QOS_CLASS3: case UNI_QOS_CLASS4: break; } switch(ie->bwd) { default: return -1; case UNI_QOS_CLASS1: case UNI_QOS_CLASS2: case UNI_QOS_CLASS3: case UNI_QOS_CLASS4: break; } return 0; } DEF_IE_ENCODE(itu, qos) { START_IE(qos, UNI_IE_QOS, 2); APP_BYTE(msg, ie->fwd); APP_BYTE(msg, ie->bwd); SET_IE_LEN(msg); return 0; } DEF_IE_ENCODE(net, qos) { START_IE(qos, UNI_IE_QOS, 2); APP_BYTE(msg, ie->fwd); APP_BYTE(msg, ie->bwd); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, qos) { IE_START(;); if(ielen != 2) goto rej; ie->fwd = *msg->b_rptr++; ie->bwd = *msg->b_rptr++; IE_END(QOS); } DEF_IE_DECODE(net, qos) { IE_START(;); if(ielen != 2) goto rej; ie->fwd = *msg->b_rptr++; ie->bwd = *msg->b_rptr++; IE_END(QOS); } /********************************************************************* * * Broadband Lower Layer Information * * References for this IE are: * * Q.2931 pp. 53...54 * UNI4.0 p. 12 * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, bhli) { static const struct uni_print_tbl type_tbl[] = { MKT(UNI_BHLI_ISO, iso), MKT(UNI_BHLI_USER, user), MKT(UNI_BHLI_VENDOR, vendor), EOT() }; u_int i; if(uni_print_iehdr("bhli", &ie->h, cx)) return; uni_print_tbl("type", ie->type, type_tbl, cx); uni_print_entry(cx, "len", "%d", ie->len); uni_print_entry(cx, "info", "("); for(i = 0; i < ie->len; i++) uni_printf(cx, ",0x%02x", ie->info[i]); uni_printf(cx, ")"); uni_print_ieend(cx); } DEF_IE_CHECK(itu, bhli) { UNUSED(cx); switch(ie->type) { default: return -1; case UNI_BHLI_ISO: case UNI_BHLI_USER: case UNI_BHLI_VENDOR: break; } if(ie->len > 8) return -1; return 0; } DEF_IE_ENCODE(itu, bhli) { START_IE(bhli, UNI_IE_BHLI, 9); APP_BYTE(msg, 0x80 | ie->type); APP_BUF(msg, ie->info, ie->len); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, bhli) { u_char c; IE_START(;); if(ielen > 9) goto rej; c = *msg->b_rptr++; ielen--; if(!(c & 0x80)) goto rej; ie->type = c & 0x7f; ie->len = ielen; (void)memcpy(ie->info, msg->b_rptr, ielen); msg->b_rptr += ielen; IE_END(BHLI); } /********************************************************************* * * Broadband bearer capabilities * * References for this IE are: * * Q.2931 pp. 51...52 * Q.2931 Amd 1 * UNI4.0 pp. 10...12, 106...109 * * UNI4.0 changed the meaning of byte 5a. Instead of 3 bit traffic type and * 2 bit timing requirements there are now 7 bits ATM transfer capabilities. * However the old format is still supported: it should be recognized on * input, but never be generated on output. Mapping is left to the user of * UNI. * * Amd 1 not checked XXX. * * The Appendix in UNI4.0 lists all the supported combinations of various * traffic IE's. The check function implements part of it. * * A C X VP * 1 CBR.1 7 . 7 7 * 2 CBR.2 - . 4,5,6 5 (*) * 3 CBR.3 - . 4,5,6 5 (*) * 4 rt-VBR.1 . 19 19 19 * 5 rt-VBR.2 . 9 1,9 9 * 6 rt-VBR.3 . 9 1,9 9 * 7 rt-VBR.4 . . 1,9 . (*) * 8 rt-VBR.5 . . 1,9 . (*) * 9 rt-VBR.6 . 9 1,9 9 (*) * 10 nrt-VBR.1 . 11 11 11 * 11 nrt-VBR.2 . - -,0,2,8,10 -,10 * 12 nrt-VBR.3 . - -,0,2,8,10 -,10 * 13 nrt-VBR.4 . - -,0,2,8,10 . (*) * 14 nrt-VBR.5 . - -,0,2,8,10 . (*) * 15 nrt-VBR.6 . - -,0,2,8,10 -,10(*) * 16 ABR . 12 12 12 * 17 UBR.1 . - -,0,2,8,10 -,10 * 18 UBR.2 . - -,0,2,8,10 -,10 * * (*) compatibility * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, bearer) { static const struct uni_print_tbl bclass_tbl[] = { MKT(UNI_BEARER_A, bcob-A), MKT(UNI_BEARER_C, bcob-C), MKT(UNI_BEARER_X, bcob-X), MKT(UNI_BEARER_TVP, transparent-VP), EOT() }; static const struct uni_print_tbl atc_tbl[] = { MKT(UNI_BEARER_ATC_CBR, cbr), MKT(UNI_BEARER_ATC_CBR1, cbr1), MKT(UNI_BEARER_ATC_VBR, vbr), MKT(UNI_BEARER_ATC_VBR1, vbr1), MKT(UNI_BEARER_ATC_NVBR, nvbr), MKT(UNI_BEARER_ATC_NVBR1, nvbr1), MKT(UNI_BEARER_ATC_ABR, abr), MKT(UNI_BEARER_ATCX_0, x0), MKT(UNI_BEARER_ATCX_1, x1), MKT(UNI_BEARER_ATCX_2, x2), MKT(UNI_BEARER_ATCX_4, x4), MKT(UNI_BEARER_ATCX_6, x6), MKT(UNI_BEARER_ATCX_8, x8), EOT() }; static const struct uni_print_tbl cfg_tbl[] = { MKT(UNI_BEARER_P2P, p2p), MKT(UNI_BEARER_MP, mp), EOT() }; static const struct uni_print_tbl clip_tbl[] = { MKT(UNI_BEARER_NOCLIP, no), MKT(UNI_BEARER_CLIP, yes), EOT() }; if(uni_print_iehdr("bearer", &ie->h, cx)) return; uni_print_tbl("class", ie->bclass, bclass_tbl, cx); if(ie->h.present & UNI_BEARER_ATC_P) { uni_print_tbl("atc", ie->atc, atc_tbl, cx); } uni_print_tbl("clip", ie->clip, clip_tbl, cx); uni_print_tbl("cfg", ie->cfg, cfg_tbl, cx); uni_print_ieend(cx); } #define QTYPE(C,A) ((UNI_BEARER_##C << 8) | UNI_BEARER_ATC_##A) #define QTYPEX(C,A) ((UNI_BEARER_##C << 8) | UNI_BEARER_ATCX_##A) #define QTYPE0(C) ((UNI_BEARER_##C << 8) | (1 << 16)) DEF_IE_CHECK(itu, bearer) { UNUSED(cx); switch((ie->bclass << 8) | ((ie->h.present & UNI_BEARER_ATC_P) == 0 ? (1 << 16) : ie->atc)) { default: return -1; case QTYPE (A, CBR1): /* 1 */ case QTYPE (X, CBR1): /* 1 */ case QTYPE (TVP, CBR1): /* 1 */ case QTYPE0(A): /* 2,3 */ case QTYPEX(X, 4): /* 2,3 */ case QTYPE (X, CBR): /* 2,3 */ case QTYPEX(X, 6): /* 2,3 */ case QTYPE (TVP, CBR): /* 2,3 */ case QTYPE (C, VBR1): /* 4 */ case QTYPE (X, VBR1): /* 4 */ case QTYPE (TVP, VBR1): /* 4 */ case QTYPE (C, VBR): /* 5,6,9 */ case QTYPEX(X, 1): /* 5,6,7,8,9 */ case QTYPE (X, VBR): /* 5,6,7,8,9 */ case QTYPE (TVP, VBR): /* 5,6,9 */ case QTYPE (C, NVBR1): /* 10 */ case QTYPE (X, NVBR1): /* 10 */ case QTYPE (TVP, NVBR1): /* 10 */ case QTYPE0(C): /* 11,12,13,14,15,17,18 */ case QTYPE0(X): /* 11,12,13,14,15,17,18 */ case QTYPEX(X, 0): /* 11,12,13,14,15,17,18 */ case QTYPEX(X, 2): /* 11,12,13,14,15,17,18 */ case QTYPEX(X, 8): /* 11,12,13,14,15,17,18 */ case QTYPE (X, NVBR): /* 11,12,13,14,15,17,18 */ case QTYPE0(TVP): /* 11,12,15,17,18 */ case QTYPE (TVP, NVBR): /* 11,12,15,17,18 */ case QTYPE (C, ABR): /* 16 */ case QTYPE (X, ABR): /* 16 */ case QTYPE (TVP, ABR): /* 16 */ break; } switch(ie->clip) { default: return -1; case UNI_BEARER_NOCLIP: case UNI_BEARER_CLIP: break; } switch(ie->cfg) { default: return -1; case UNI_BEARER_P2P: case UNI_BEARER_MP: break; } return 0; } #undef QTYPE #undef QTYPEX #undef QTYPE0 DEF_IE_ENCODE(itu, bearer) { START_IE(bearer, UNI_IE_BEARER, 3); APP_BYTE(msg, ie->bclass | ((ie->h.present & UNI_BEARER_ATC_P) ? 0:0x80)); APP_OPT(msg, ie->h.present, UNI_BEARER_ATC_P, 0x80 | ie->atc); APP_BYTE(msg, 0x80 | (ie->clip << 5) | ie->cfg); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, bearer) { u_char c; IE_START(;); if(ielen != 2 && ielen != 3) goto rej; c = *msg->b_rptr++; ielen--; ie->bclass = c & 0x1f; if(!(c & 0x80)) { c = *msg->b_rptr++; ielen--; ie->h.present |= UNI_BEARER_ATC_P; switch(c & 0x7f) { /* * Real legal values */ case UNI_BEARER_ATC_CBR: case UNI_BEARER_ATC_CBR1: case UNI_BEARER_ATC_VBR: case UNI_BEARER_ATC_VBR1: case UNI_BEARER_ATC_NVBR: case UNI_BEARER_ATC_NVBR1: case UNI_BEARER_ATC_ABR: break; /* * Compat values */ case UNI_BEARER_ATCX_0: case UNI_BEARER_ATCX_1: case UNI_BEARER_ATCX_2: case UNI_BEARER_ATCX_4: case UNI_BEARER_ATCX_6: case UNI_BEARER_ATCX_8: break; default: goto rej; } if(!(c & 0x80)) goto rej; ie->atc = c & 0x7f; } if(ielen == 0) goto rej; c = *msg->b_rptr++; ielen--; if(!(c & 0x80)) goto rej; ie->clip = (c >> 5) & 0x3; ie->cfg = c & 0x3; IE_END(BEARER); } /********************************************************************* * * Broadband Lower Layer Information * * References for this IE are: * * Q.2931 pp. 54...59 * UNI4.0 pp. 12...14 * * UNI4.0 states, that layer 1 info is not supported. * We allow a layer 1 protocol identifier. * * UNI4.0 states, that the layer information subelements are NOT position * dependent. We allow them in any order on input, but generate always the * definit order on output. * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, blli) { static const struct uni_print_tbl l2_tbl[] = { MKT(UNI_BLLI_L2_BASIC, basic), MKT(UNI_BLLI_L2_Q921, Q921), MKT(UNI_BLLI_L2_X25LL, X25-LL), MKT(UNI_BLLI_L2_X25ML, X25-ML), MKT(UNI_BLLI_L2_LABP, LAPB), MKT(UNI_BLLI_L2_HDLC_ARM, HDLC-ARM), MKT(UNI_BLLI_L2_HDLC_NRM, HDLC-NRM), MKT(UNI_BLLI_L2_HDLC_ABM, HDLC-ABM), MKT(UNI_BLLI_L2_LAN, LAN), MKT(UNI_BLLI_L2_X75, X75), MKT(UNI_BLLI_L2_Q922, Q922), MKT(UNI_BLLI_L2_USER, user), MKT(UNI_BLLI_L2_ISO7776, ISO7776), EOT() }; static const struct uni_print_tbl l2mode_tbl[] = { MKT(UNI_BLLI_L2NORM, normal), MKT(UNI_BLLI_L2EXT, extended), EOT() }; static const struct uni_print_tbl l3_tbl[] = { MKT(UNI_BLLI_L3_X25, X25), MKT(UNI_BLLI_L3_ISO8208, ISO8208), MKT(UNI_BLLI_L3_X223, X223), MKT(UNI_BLLI_L3_CLMP, CLMP), MKT(UNI_BLLI_L3_T70, T70), MKT(UNI_BLLI_L3_TR9577, TR9577), MKT(UNI_BLLI_L3_USER, user), MKT(UNI_BLLI_L3_H310, H310), MKT(UNI_BLLI_L3_H321, H321), EOT() }; static const struct uni_print_tbl l3mode_tbl[] = { MKT(UNI_BLLI_L3NSEQ, normal-seq), MKT(UNI_BLLI_L3ESEQ, extended-seq), EOT() }; static const struct uni_print_tbl l3psiz_tbl[] = { MKT(UNI_BLLI_L3_16, 16), MKT(UNI_BLLI_L3_32, 32), MKT(UNI_BLLI_L3_64, 64), MKT(UNI_BLLI_L3_128, 128), MKT(UNI_BLLI_L3_256, 256), MKT(UNI_BLLI_L3_512, 512), MKT(UNI_BLLI_L3_1024, 1024), MKT(UNI_BLLI_L3_2048, 2048), MKT(UNI_BLLI_L3_4096, 4096), EOT() }; static const struct uni_print_tbl l3ttype_tbl[] = { MKT(UNI_BLLI_L3_TTYPE_RECV, receive_only), MKT(UNI_BLLI_L3_TTYPE_SEND, send_only), MKT(UNI_BLLI_L3_TTYPE_BOTH, both), EOT() }; static const struct uni_print_tbl l3mux_tbl[] = { MKT(UNI_BLLI_L3_MUX_NOMUX, NOMUX), MKT(UNI_BLLI_L3_MUX_TS, TS), MKT(UNI_BLLI_L3_MUX_TSFEC, TSFEC), MKT(UNI_BLLI_L3_MUX_PS, PS), MKT(UNI_BLLI_L3_MUX_PSFEC, PSFEC), MKT(UNI_BLLI_L3_MUX_H221, H221), EOT() }; static const struct uni_print_tbl l3tcap_tbl[] = { MKT(UNI_BLLI_L3_TCAP_NOIND, noind), MKT(UNI_BLLI_L3_TCAP_AAL1, aal1), MKT(UNI_BLLI_L3_TCAP_AAL5, aal5), MKT(UNI_BLLI_L3_TCAP_AAL15, aal1&5), EOT() }; if(uni_print_iehdr("blli", &ie->h, cx)) return; if(ie->h.present & UNI_BLLI_L1_P) { uni_print_entry(cx, "l1", "%u", ie->l1); uni_print_eol(cx); } if(ie->h.present & UNI_BLLI_L2_P) { uni_print_tbl("l2", ie->l2, l2_tbl, cx); uni_print_push_prefix("l2", cx); cx->indent++; if(ie->h.present & UNI_BLLI_L2_USER_P) uni_print_entry(cx, "proto", "%u", ie->l2_user); if(ie->h.present & UNI_BLLI_L2_Q933_P) { uni_print_entry(cx, "q933", "%u", ie->l2_q933); uni_print_tbl("mode", ie->l2_mode, l2mode_tbl, cx); } if(ie->h.present & UNI_BLLI_L2_WSIZ_P) uni_print_entry(cx, "wsize", "%u", ie->l2_wsiz); uni_print_pop_prefix(cx); cx->indent--; uni_print_eol(cx); } if(ie->h.present & UNI_BLLI_L3_P) { uni_print_tbl("l3", ie->l3, l3_tbl, cx); uni_print_push_prefix("l3", cx); cx->indent++; if(ie->h.present & UNI_BLLI_L3_USER_P) uni_print_entry(cx, "proto", "%u", ie->l3_user); if(ie->h.present & UNI_BLLI_L3_MODE_P) uni_print_tbl("mode", ie->l3_mode, l3mode_tbl, cx); if(ie->h.present & UNI_BLLI_L3_PSIZ_P) uni_print_tbl("packet-size", ie->l3_psiz, l3psiz_tbl, cx); if(ie->h.present & UNI_BLLI_L3_WSIZ_P) uni_print_entry(cx, "window-size", "%u", ie->l3_wsiz); if(ie->h.present & UNI_BLLI_L3_TTYPE_P) { uni_print_tbl("ttype", ie->l3_ttype, l3ttype_tbl, cx); uni_print_tbl("tcap", ie->l3_tcap, l3tcap_tbl, cx); } if(ie->h.present & UNI_BLLI_L3_MUX_P) { uni_print_tbl("fmux", ie->l3_fmux, l3mux_tbl, cx); uni_print_tbl("bmux", ie->l3_bmux, l3mux_tbl, cx); } if(ie->h.present & UNI_BLLI_L3_IPI_P) uni_print_entry(cx, "ipi", "0x%02x", ie->l3_ipi); if(ie->h.present & UNI_BLLI_L3_SNAP_P) uni_print_entry(cx, "snap", "%06x.%04x", ie->oui, ie->pid); uni_print_pop_prefix(cx); cx->indent--; uni_print_eol(cx); } uni_print_ieend(cx); } DEF_IE_CHECK(itu, blli) { UNUSED(cx); /* if(ie->h.present & UNI_BLLI_L1_P) ; */ if(ie->h.present & UNI_BLLI_L2_P) { static u_int mask = UNI_BLLI_L2_Q933_P | UNI_BLLI_L2_WSIZ_P | UNI_BLLI_L2_USER_P; switch(ie->l2) { default: return -1; case UNI_BLLI_L2_BASIC: case UNI_BLLI_L2_Q921: case UNI_BLLI_L2_LABP: case UNI_BLLI_L2_LAN: case UNI_BLLI_L2_X75: if(ie->h.present & mask) return -1; break; case UNI_BLLI_L2_X25LL: case UNI_BLLI_L2_X25ML: case UNI_BLLI_L2_HDLC_ARM: case UNI_BLLI_L2_HDLC_NRM: case UNI_BLLI_L2_HDLC_ABM: case UNI_BLLI_L2_Q922: case UNI_BLLI_L2_ISO7776: switch(ie->h.present & mask) { default: return -1; case 0: case UNI_BLLI_L2_Q933_P: case UNI_BLLI_L2_Q933_P | UNI_BLLI_L2_WSIZ_P: break; } break; case UNI_BLLI_L2_USER: switch(ie->h.present & mask) { default: return -1; case 0: /* XXX ? */ case UNI_BLLI_L2_USER_P: break; } break; } if(ie->h.present & UNI_BLLI_L2_Q933_P) { if(ie->l2_q933 != 0) return -1; switch(ie->l2_mode) { default: return -1; case UNI_BLLI_L2NORM: case UNI_BLLI_L2EXT: break; } } if(ie->h.present & UNI_BLLI_L2_WSIZ_P) { if(ie->l2_wsiz == 0 || ie->l2_wsiz > 127) return -1; } if(ie->h.present & UNI_BLLI_L2_USER_P) { if(ie->l2_user > 127) return -1; } } if(ie->h.present & UNI_BLLI_L3_P) { static u_int mask = UNI_BLLI_L3_MODE_P | UNI_BLLI_L3_PSIZ_P | UNI_BLLI_L3_WSIZ_P | UNI_BLLI_L3_USER_P | UNI_BLLI_L3_IPI_P | UNI_BLLI_L3_SNAP_P | UNI_BLLI_L3_TTYPE_P | UNI_BLLI_L3_MUX_P; switch(ie->l3) { default: return -1; case UNI_BLLI_L3_X25: case UNI_BLLI_L3_ISO8208: case UNI_BLLI_L3_X223: switch(ie->h.present & mask) { default: return -1; case 0: case UNI_BLLI_L3_MODE_P: case UNI_BLLI_L3_MODE_P | UNI_BLLI_L3_PSIZ_P: case UNI_BLLI_L3_MODE_P | UNI_BLLI_L3_PSIZ_P | UNI_BLLI_L3_WSIZ_P: break; } break; case UNI_BLLI_L3_CLMP: case UNI_BLLI_L3_T70: if(ie->h.present & mask) return -1; break; case UNI_BLLI_L3_TR9577: switch(ie->h.present & mask) { default: return -1; case 0: case UNI_BLLI_L3_IPI_P: case UNI_BLLI_L3_IPI_P | UNI_BLLI_L3_SNAP_P: break; } break; case UNI_BLLI_L3_H310: switch(ie->h.present & mask) { default: return -1; case 0: case UNI_BLLI_L3_TTYPE_P: case UNI_BLLI_L3_TTYPE_P|UNI_BLLI_L3_MUX_P: break; } break; case UNI_BLLI_L3_USER: switch(ie->h.present & mask) { default: return -1; case 0: /* XXX ? */ case UNI_BLLI_L3_USER_P: break; } break; } if(ie->h.present & UNI_BLLI_L3_MODE_P) { switch(ie->l3_mode) { default: return -1; case UNI_BLLI_L3NSEQ: case UNI_BLLI_L3ESEQ: break; } } if(ie->h.present & UNI_BLLI_L3_PSIZ_P) { switch(ie->l3_psiz) { default: return -1; case UNI_BLLI_L3_16: case UNI_BLLI_L3_32: case UNI_BLLI_L3_64: case UNI_BLLI_L3_128: case UNI_BLLI_L3_256: case UNI_BLLI_L3_512: case UNI_BLLI_L3_1024: case UNI_BLLI_L3_2048: case UNI_BLLI_L3_4096: break; } } if(ie->h.present & UNI_BLLI_L3_WSIZ_P) { if(ie->l3_wsiz == 0 || ie->l3_wsiz > 127) return -1; } if(ie->h.present & UNI_BLLI_L3_IPI_P) { if(ie->l3_ipi == UNI_BLLI_L3_SNAP) { if(!(ie->h.present & UNI_BLLI_L3_SNAP_P)) return -1; } else { if(ie->h.present & UNI_BLLI_L3_SNAP_P) return -1; } } if(ie->h.present & UNI_BLLI_L3_USER_P) { if(ie->l3_user > 127) return -1; } if(ie->h.present & UNI_BLLI_L3_SNAP_P) { if(ie->oui >= (1<<24)) return -1; if(ie->pid >= (1<<16)) return -1; } if(ie->h.present & UNI_BLLI_L3_TTYPE_P) { switch(ie->l3_ttype) { default: return -1; case UNI_BLLI_L3_TTYPE_RECV: case UNI_BLLI_L3_TTYPE_SEND: case UNI_BLLI_L3_TTYPE_BOTH: break; } switch(ie->l3_tcap) { default: return -1; case UNI_BLLI_L3_TCAP_NOIND: case UNI_BLLI_L3_TCAP_AAL1: case UNI_BLLI_L3_TCAP_AAL5: case UNI_BLLI_L3_TCAP_AAL15: break; } } if(ie->h.present & UNI_BLLI_L3_MUX_P) { switch(ie->l3_fmux) { default: return -1; case UNI_BLLI_L3_MUX_NOMUX: case UNI_BLLI_L3_MUX_TS: case UNI_BLLI_L3_MUX_TSFEC: case UNI_BLLI_L3_MUX_PS: case UNI_BLLI_L3_MUX_PSFEC: case UNI_BLLI_L3_MUX_H221: break; } switch(ie->l3_bmux) { default: return -1; case UNI_BLLI_L3_MUX_NOMUX: case UNI_BLLI_L3_MUX_TS: case UNI_BLLI_L3_MUX_TSFEC: case UNI_BLLI_L3_MUX_PS: case UNI_BLLI_L3_MUX_PSFEC: case UNI_BLLI_L3_MUX_H221: break; } } } return 0; } DEF_IE_ENCODE(itu, blli) { START_IE(blli, UNI_IE_BLLI, 13); if (IE_ISERROR(*ie)) { APP_BYTE(msg, 0xff); APP_BYTE(msg, 0xff); goto out; } if(ie->h.present & UNI_BLLI_L1_P) APP_BYTE(msg, (UNI_BLLI_L1_ID<<5)|ie->l1|0x80); if(ie->h.present & UNI_BLLI_L2_P) { if(ie->h.present & UNI_BLLI_L2_Q933_P) { APP_BYTE(msg, (UNI_BLLI_L2_ID<<5)|ie->l2); if(ie->h.present & UNI_BLLI_L2_WSIZ_P) { APP_BYTE(msg, (ie->l2_mode<<5)|ie->l2_q933); APP_BYTE(msg, ie->l2_wsiz | 0x80); } else { APP_BYTE(msg, (ie->l2_mode<<5)|ie->l2_q933|0x80); } } else if(ie->h.present & UNI_BLLI_L2_USER_P) { APP_BYTE(msg, (UNI_BLLI_L2_ID<<5)|ie->l2); APP_BYTE(msg, ie->l2_user | 0x80); } else { APP_BYTE(msg, (UNI_BLLI_L2_ID << 5) | ie->l2 | 0x80); } } if(ie->h.present & UNI_BLLI_L3_P) { if(ie->h.present & UNI_BLLI_L3_MODE_P) { if(ie->h.present & UNI_BLLI_L3_PSIZ_P) { if(ie->h.present & UNI_BLLI_L3_WSIZ_P) { APP_BYTE(msg,(UNI_BLLI_L3_ID<<5)|ie->l3); APP_BYTE(msg,(ie->l3_mode<<5)); APP_BYTE(msg,ie->l3_psiz); APP_BYTE(msg,ie->l3_wsiz|0x80); } else { APP_BYTE(msg,(UNI_BLLI_L3_ID<<5)|ie->l3); APP_BYTE(msg,(ie->l3_mode<<5)); APP_BYTE(msg,(ie->l3_psiz|0x80)); } } else { APP_BYTE(msg, (UNI_BLLI_L3_ID<<5)|ie->l3); APP_BYTE(msg, (ie->l3_mode<<5)|0x80); } } else if(ie->h.present & UNI_BLLI_L3_USER_P) { APP_BYTE(msg, (UNI_BLLI_L3_ID<<5)|ie->l3); APP_BYTE(msg,(ie->l3_user|0x80)); } else if(ie->h.present & UNI_BLLI_L3_IPI_P) { APP_BYTE(msg, (UNI_BLLI_L3_ID<<5)|ie->l3); APP_BYTE(msg,((ie->l3_ipi>>1) & 0x7f)); APP_BYTE(msg,(((ie->l3_ipi&1)<<6)|0x80)); if(ie->h.present & UNI_BLLI_L3_SNAP_P) { APP_BYTE(msg, 0x80); APP_BYTE(msg, (ie->oui >> 16)); APP_BYTE(msg, (ie->oui >> 8)); APP_BYTE(msg, (ie->oui >> 0)); APP_BYTE(msg, (ie->pid >> 8)); APP_BYTE(msg, (ie->pid >> 0)); } } else if(ie->h.present & UNI_BLLI_L3_TTYPE_P) { if(ie->h.present & UNI_BLLI_L3_MUX_P) { APP_BYTE(msg, ie->l3_ttype | (ie->l3_tcap << 4)); APP_BYTE(msg, 0x80 | (ie->l3_fmux << 3) | ie->l3_bmux); } else { APP_BYTE(msg, 0x80 | ie->l3_ttype | (ie->l3_tcap << 4)); } } else { APP_BYTE(msg, (UNI_BLLI_L3_ID<<5)|ie->l3|0x80); } } out: SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, blli) { u_char c; IE_START(;); if(ielen > 17) goto rej; while(ielen--) { switch(((c = *msg->b_rptr++) >> 5) & 0x3) { default: goto rej; case UNI_BLLI_L1_ID: ie->h.present |= UNI_BLLI_L1_P; ie->l1 = c & 0x1f; if(!(c & 0x80)) goto rej; break; case UNI_BLLI_L2_ID: ie->h.present |= UNI_BLLI_L2_P; ie->l2 = c & 0x1f; if(!(c & 0x80)) { if(ielen == 0) goto rej; ielen--; c = *msg->b_rptr++; if(ie->l2 == UNI_BLLI_L2_USER) { ie->h.present |= UNI_BLLI_L2_USER_P; ie->l2_user = c & 0x7f; if(!(c & 0x80)) goto rej; } else { ie->h.present |= UNI_BLLI_L2_Q933_P; ie->l2_q933 = c & 0x3; ie->l2_mode = (c >> 5) & 0x3; if(!(c & 0x80)) { if(ielen == 0) goto rej; ielen--; c = *msg->b_rptr++; ie->h.present |= UNI_BLLI_L2_WSIZ_P; ie->l2_wsiz = c & 0x7f; if(!(c & 0x80)) goto rej; } } } break; case UNI_BLLI_L3_ID: ie->h.present |= UNI_BLLI_L3_P; ie->l3 = c & 0x1f; if(!(c & 0x80)) { switch(ie->l3) { default: case UNI_BLLI_L3_CLMP: case UNI_BLLI_L3_T70: goto rej; case UNI_BLLI_L3_X25: case UNI_BLLI_L3_ISO8208: case UNI_BLLI_L3_X223: if(ielen == 0) goto rej; ielen--; c = *msg->b_rptr++; ie->l3_mode = (c >> 5) & 0x3; ie->h.present |= UNI_BLLI_L3_MODE_P; if(c & 0x80) break; if(ielen == 0) goto rej; ielen--; c = *msg->b_rptr++; ie->l3_psiz = c & 0xf; ie->h.present |= UNI_BLLI_L3_PSIZ_P; if(c & 0x80) break; if(ielen == 0) goto rej; ielen--; c = *msg->b_rptr++; ie->l3_wsiz = c & 0x7f; ie->h.present |= UNI_BLLI_L3_WSIZ_P; if(!(c & 0x80)) goto rej; break; case UNI_BLLI_L3_TR9577: if(ielen < 2) goto rej; ielen -= 2; c = *msg->b_rptr++; ie->l3_ipi = (c << 1) & 0xfe; if(c & 0x80) goto rej; c = *msg->b_rptr++; ie->l3_ipi |= c & 1; if(!(c & 0x80)) goto rej; ie->h.present |= UNI_BLLI_L3_IPI_P; if(ie->l3_ipi != UNI_BLLI_L3_SNAP) break; if(ielen < 6) goto rej; ielen -= 6; if(*msg->b_rptr++ != 0x80) goto rej; ie->h.present |= UNI_BLLI_L3_SNAP_P; ie->oui = *msg->b_rptr++ << 16; ie->oui |= *msg->b_rptr++ << 8; ie->oui |= *msg->b_rptr++; ie->pid = *msg->b_rptr++ << 8; ie->pid |= *msg->b_rptr++; break; case UNI_BLLI_L3_H310: if(ielen == 0) goto rej; ielen--; c = *msg->b_rptr++; ie->l3_ttype = c & 0xf; ie->l3_tcap = (c >> 4) & 0x7; ie->h.present |= UNI_BLLI_L3_TTYPE_P; if(c & 0x80) break; if(ielen == 0) goto rej; ielen--; c = *msg->b_rptr++; ie->l3_fmux = (c >> 3) & 7; ie->l3_bmux = c & 7; ie->h.present |= UNI_BLLI_L3_MUX_P; if(!(c & 0x80)) goto rej; break; case UNI_BLLI_L3_USER: if(ielen == 0) goto rej; ielen--; c = *msg->b_rptr++; ie->l3_user = c & 0x7f; ie->h.present |= UNI_BLLI_L3_USER_P; if(!(c & 0x80)) goto rej; break; } } break; } } IE_END(BLLI); } /********************************************************************* * * Broadband locking shift * Broadband non-locking shift. * * References for this IE are: * * Q.2931 pp. 41...42 * UNI4.0 pp. 9 * * Procedure not supported in UNI4.0, but IE's must be recognized. * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, lshift) { if(uni_print_iehdr("locking_shift", &ie->h, cx)) return; uni_print_ieend(cx); } DEF_IE_CHECK(itu, lshift) { UNUSED(cx); UNUSED(ie); return -1; } DEF_IE_ENCODE(itu, lshift) { START_IE(lshift, UNI_IE_LSHIFT, 1); APP_BYTE(msg, 0x80 | ie->set); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, lshift) { u_char c; IE_START(;); if(ielen != 1) goto rej; c = *msg->b_rptr++; if(!(c & 0x80)) goto rej; ie->set = c & 7; IE_END(LSHIFT); } /***********************************************************************/ DEF_IE_PRINT(itu, nlshift) { if(uni_print_iehdr("nonlocking_shift", &ie->h, cx)) return; uni_print_ieend(cx); } DEF_IE_CHECK(itu, nlshift) { UNUSED(cx); UNUSED(ie); return -1; } DEF_IE_ENCODE(itu, nlshift) { START_IE(nlshift, UNI_IE_NLSHIFT, 1); APP_BYTE(msg, 0x80 | ie->set); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, nlshift) { u_char c; IE_START(;); if(ielen != 1) goto rej; c = *msg->b_rptr++; if(!(c & 0x80)) goto rej; ie->set = c & 7; IE_END(NLSHIFT); } /********************************************************************* * * Broadband Sending Complete Indicator * * References for this IE are: * * Q.2931 pp. 74-75 * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, scompl) { if(uni_print_iehdr("sending_complete", &ie->h, cx)) return; uni_print_ieend(cx); } DEF_IE_CHECK(itu, scompl) { UNUSED(ie); UNUSED(cx); return 0; } DEF_IE_ENCODE(itu, scompl) { START_IE(scompl, UNI_IE_SCOMPL, 1); APP_BYTE(msg, 0x80 | 0x21); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, scompl) { IE_START(;); if(ielen != 1) goto rej; if(*msg->b_rptr++ != (0x80 | 0x21)) goto rej; IE_END(SCOMPL); } /********************************************************************* * * Broadband Repeat Indicator * * References for this IE are: * * Q.2931 p. 73 * PNNI1.0 p. 196 * * Q.2931 has table 4-19. Only codepoints 0x2 and 0xa (for PNNI) supported. * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, repeat) { static const struct uni_print_tbl tbl[] = { MKT(UNI_REPEAT_PRIDESC, desc), MKT(UNI_REPEAT_STACK, stack), EOT() }; if(uni_print_iehdr("repeat", &ie->h, cx)) return; uni_print_tbl("type", ie->type, tbl, cx); uni_print_ieend(cx); } DEF_IE_CHECK(itu, repeat) { switch(ie->type) { case UNI_REPEAT_PRIDESC: break; case UNI_REPEAT_STACK: if(!cx->pnni) return -1; break; default: return -1; } return 0; } DEF_IE_ENCODE(itu, repeat) { START_IE(repeat, UNI_IE_REPEAT, 1); APP_BYTE(msg, 0x80 | ie->type); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, repeat) { u_char c; IE_START(;); if(ielen != 1) goto rej; c = *msg->b_rptr++; if(!(c & 0x80)) goto rej; ie->type = c & 0xf; IE_END(REPEAT); } /********************************************************************* * * Transit Network Selection * * References for this IE are: * * Q.2931 pp. 75...76 * UNI4.0 pp. 17 * * According to UNI4.0 this is always National Network Id/Carried Id. * * ITU-T/Net coding allowed. */ DEF_IE_PRINT(itu, tns) { u_int i; if(uni_print_iehdr("tns", &ie->h, cx)) return; uni_print_entry(cx, "net", "%u,\"", ie->len); uni_putc('"', cx); for(i = 0; i < ie->len; i++) { if(ie->net[i] < ' ') uni_printf(cx, "^%c", ie->net[i] + '@'); else if(ie->net[i] < '~') uni_putc(ie->net[i], cx); else uni_printf(cx, "\\%03o", ie->net[i]); } uni_putc('"', cx); uni_print_ieend(cx); } DEF_IE_CHECK(itu, tns) { u_int i; UNUSED(cx); if(ie->len == 0 || ie->len > UNI_TNS_MAXLEN) return -1; for(i = 0; i < ie->len; i++) if(ie->net[i] < ' ' || ie->net[i] > '~') return -1; return 0; } DEF_IE_ENCODE(itu, tns) { START_IE(tns, UNI_IE_TNS, ie->len + 1); APP_BYTE(msg, 0x80 | (0x2 << 4) | 0x1); APP_BUF(msg, ie->net, ie->len); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, tns) { IE_START(;); if(ielen < 2 || ielen > 5) goto rej; if(*msg->b_rptr++ != (0x80 | (0x2 << 4) | 0x1)) goto rej; ielen--; ie->len = 0; while(ielen--) ie->net[ie->len++] = *msg->b_rptr++; IE_END(TNS); } /********************************************************************* * * Restart indicator * * References for this IE are: * * Q.2931 pp. 73...74 * UNI4.0 p. 17 * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, restart) { static const struct uni_print_tbl tbl[] = { MKT(UNI_RESTART_CHANNEL, channel), MKT(UNI_RESTART_PATH, path), MKT(UNI_RESTART_ALL, all), EOT() }; if(uni_print_iehdr("restart", &ie->h, cx)) return; uni_print_tbl("class", ie->rclass, tbl, cx); uni_print_ieend(cx); } DEF_IE_CHECK(itu, restart) { UNUSED(cx); switch(ie->rclass) { default: return -1; case UNI_RESTART_CHANNEL: case UNI_RESTART_PATH: case UNI_RESTART_ALL: break; } return 0; } DEF_IE_ENCODE(itu, restart) { START_IE(restart, UNI_IE_RESTART, 1); APP_BYTE(msg, 0x80 | ie->rclass); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, restart) { u_char c; IE_START(;); if(ielen != 1) goto rej; ie->rclass = (c = *msg->b_rptr++) & 0x7; if(!(c & 0x80)) goto rej; IE_END(RESTART); } /********************************************************************* * * User-to-user info. * * References for this IE are: * * Q.2957 * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, uu) { u_int i; if(uni_print_iehdr("uu", &ie->h, cx)) return; uni_print_entry(cx, "len", "%u", ie->len); uni_print_entry(cx, "info", "("); for(i = 0; i < ie->len; i++) uni_printf(cx, "%s0x%02x", i == 0 ? "" : " ", ie->uu[i]); uni_printf(cx, ")"); uni_print_ieend(cx); } DEF_IE_CHECK(itu, uu) { UNUSED(cx); if(ie->len > UNI_UU_MAXLEN) return -1; return 0; } DEF_IE_ENCODE(itu, uu) { START_IE(uu, UNI_IE_UU, ie->len); APP_BUF(msg, ie->uu, ie->len); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, uu) { IE_START(;); if(ielen > UNI_UU_MAXLEN || ielen < 1) goto rej; ie->len = ielen; ielen = 0; (void)memcpy(ie->uu, msg->b_rptr, ie->len); msg->b_rptr += ie->len; IE_END(UU); } /********************************************************************* * * Generic Identifier Transport * * References for this IE are: * * UNI4.0 pp. 26...28 * * UNI4.0 prescribes a fixed format for this IE. We have a flag in the * context structur, which tells us whether the check of this IE should be * hard or soft. Probably it should be hard for end systems and soft for * network nodes. * * Only Net Coding allowed. (XXX) */ DEF_IE_PRINT(net, git) { static const struct uni_print_tbl std_tbl[] = { MKT(UNI_GIT_STD_DSMCC, dsmcc), MKT(UNI_GIT_STD_H245, H.245), EOT() }; static const struct uni_print_tbl type_tbl[] = { MKT(UNI_GIT_TYPE_SESS, sess), MKT(UNI_GIT_TYPE_RES, res), EOT() }; u_int i, j; char buf[20]; if(uni_print_iehdr("git", &ie->h, cx)) return; uni_print_tbl("std", ie->std, std_tbl, cx); uni_print_eol(cx); uni_print_push_prefix("id", cx); cx->indent++; for(i = 0; i < ie->numsub; i++) { sprintf(buf, "%u", i); uni_print_entry(cx, buf, "("); uni_print_tbl(NULL, ie->sub[i].type, type_tbl, cx); for(j = 0; j < ie->sub[i].len; j++) uni_printf(cx, ",0x%02x", ie->sub[i].val[j]); uni_printf(cx, ")"); uni_print_eol(cx); } cx->indent--; uni_print_pop_prefix(cx); uni_print_ieend(cx); } DEF_IE_CHECK(net, git) { u_int i; if(cx->git_hard) { switch(ie->std) { case UNI_GIT_STD_DSMCC: case UNI_GIT_STD_H245: break; default: return -1; } if(ie->numsub != 2) return -1; if(ie->sub[0].type != UNI_GIT_TYPE_SESS) return -1; if(ie->sub[0].len > UNI_GIT_MAXSESS) return -1; if(ie->sub[1].type != UNI_GIT_TYPE_RES) return -1; if(ie->sub[1].len > UNI_GIT_MAXRES) return -1; } else { if(ie->numsub > UNI_GIT_MAXSUB) return -1; for(i = 0; i < ie->numsub; i++) if(ie->sub[i].len > UNI_GIT_MAXVAL) return -1; } return 0; } DEF_IE_ENCODE(net, git) { u_int i; START_IE(git, UNI_IE_GIT, 1 + ie->numsub * (1 + UNI_GIT_MAXVAL)); APP_BYTE(msg, ie->std); for(i = 0; i < ie->numsub; i++) { APP_BYTE(msg, ie->sub[i].type); APP_BYTE(msg, ie->sub[i].len); APP_BUF(msg, ie->sub[i].val, ie->sub[i].len); } SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(net, git) { IE_START(;); if(ielen > 1 + UNI_GIT_MAXSUB * (1 + UNI_GIT_MAXVAL) || ielen < 1) goto rej; ie->std = *msg->b_rptr++; ielen--; ie->numsub = 0; while(ielen > 0) { if(ie->numsub >= UNI_GIT_MAXSUB) goto rej; ie->sub[ie->numsub].type = *msg->b_rptr++; ielen--; if(ielen == 0) goto rej; ie->sub[ie->numsub].len = *msg->b_rptr++; ielen--; if(ie->sub[ie->numsub].len > UNI_GIT_MAXVAL) goto rej; if(ie->sub[ie->numsub].len > (u_int)ielen) goto rej; (void)memcpy(ie->sub[ie->numsub].val, msg->b_rptr, ie->sub[ie->numsub].len); ielen -= ie->sub[ie->numsub].len; msg->b_rptr += ie->sub[ie->numsub].len; ie->numsub++; } IE_END(GIT); } /********************************************************************* * * Additional ABR Parameters * ABR Setup parameters * * References for this IE are: * * UNI4.0 pp. 78...82 * PNNI1.0 p. 195 * * Notes: * Only NET coding. */ static void print_abr_rec(struct unicx *cx, struct uni_abr_rec *rec) { if(rec->present & UNI_ABR_REC_NRM_P) uni_print_entry(cx, "nrm", "%d", rec->nrm); if(rec->present & UNI_ABR_REC_TRM_P) uni_print_entry(cx, "trm", "%d", rec->trm); if(rec->present & UNI_ABR_REC_CDF_P) uni_print_entry(cx, "cdf", "%d", rec->cdf); if(rec->present & UNI_ABR_REC_ADTF_P) uni_print_entry(cx, "adtf", "%d", rec->adtf); } DEF_IE_PRINT(net, abradd) { if(uni_print_iehdr("abradd", &ie->h, cx)) return; uni_print_push_prefix("fwd", cx); print_abr_rec(cx, &ie->fwd); uni_print_pop_prefix(cx); uni_print_push_prefix("bwd", cx); print_abr_rec(cx, &ie->bwd); uni_print_pop_prefix(cx); uni_print_ieend(cx); } DEF_IE_CHECK(net, abradd) { UNUSED(cx); UNUSED(ie); return 0; } static u_int encode_abr_rec(struct uni_abr_rec *rec) { u_int ret = rec->present & 0xf000; if(ret & UNI_ABR_REC_NRM_P) ret |= (rec->nrm & 0x7) << 25; if(ret & UNI_ABR_REC_TRM_P) ret |= (rec->trm & 0x7) << 22; if(ret & UNI_ABR_REC_CDF_P) ret |= (rec->cdf & 0x7) << 19; if(ret & UNI_ABR_REC_ADTF_P) ret |= (rec->adtf & 0x3ff) << 9; return ret; } DEF_IE_ENCODE(net, abradd) { START_IE(abradd, UNI_IE_ABRADD, 10); APP_SUB_32BIT(msg, UNI_ABRADD_FADD_ID, encode_abr_rec(&ie->fwd)); APP_SUB_32BIT(msg, UNI_ABRADD_BADD_ID, encode_abr_rec(&ie->bwd)); SET_IE_LEN(msg); return 0; } static int decode_abr_rec(struct uni_msg *msg, struct uni_abr_rec *rec) { u_int val; val = *msg->b_rptr++ << 24; val |= *msg->b_rptr++ << 16; val |= *msg->b_rptr++ << 8; val |= *msg->b_rptr++ << 0; rec->present = val & 0xf000; rec->nrm = (val & UNI_ABR_REC_NRM_P) ? ((val >> 25) & 0x7) : 0; rec->trm = (val & UNI_ABR_REC_TRM_P) ? ((val >> 22) & 0x7) : 0; rec->cdf = (val & UNI_ABR_REC_CDF_P) ? ((val >> 19) & 0x7) : 0; rec->adtf = (val & UNI_ABR_REC_ADTF_P)? ((val >> 9) & 0x3ff) : 0; return 0; } DEF_IE_DECODE(net, abradd) { IE_START(;); if(ielen != 10) goto rej; while(ielen--) { switch(*msg->b_rptr++) { default: goto rej; case UNI_ABRADD_FADD_ID: if(decode_abr_rec(msg, &ie->fwd)) goto rej; ielen -= 4; break; case UNI_ABRADD_BADD_ID: if(decode_abr_rec(msg, &ie->bwd)) goto rej; ielen -= 4; break; } } IE_END(ABRADD); } /*********************************************************************/ DEF_IE_PRINT(net, abrsetup) { if(uni_print_iehdr("abrsetup", &ie->h, cx)) return; uni_print_entry(cx, "rm_frt", "%d", ie->rmfrt); uni_print_push_prefix("fwd", cx); if(ie->h.present & UNI_ABRSETUP_FICR_P) uni_print_entry(cx, "icr", "%d", ie->ficr); if(ie->h.present & UNI_ABRSETUP_FTBE_P) uni_print_entry(cx, "tbe", "%d", ie->ftbe); if(ie->h.present & UNI_ABRSETUP_FRIF_P) uni_print_entry(cx, "rif", "%d", ie->frif); if(ie->h.present & UNI_ABRSETUP_FRDF_P) uni_print_entry(cx, "rdf", "%d", ie->frdf); uni_print_pop_prefix(cx); uni_print_push_prefix("bwd", cx); if(ie->h.present & UNI_ABRSETUP_BICR_P) uni_print_entry(cx, "icr", "%d", ie->bicr); if(ie->h.present & UNI_ABRSETUP_BTBE_P) uni_print_entry(cx, "tbe", "%d", ie->btbe); if(ie->h.present & UNI_ABRSETUP_BRIF_P) uni_print_entry(cx, "rif", "%d", ie->brif); if(ie->h.present & UNI_ABRSETUP_BRDF_P) uni_print_entry(cx, "rdf", "%d", ie->brdf); uni_print_pop_prefix(cx); uni_print_ieend(cx); } DEF_IE_CHECK(net, abrsetup) { if(cx->pnni) { if(!(ie->h.present & UNI_ABRSETUP_FICR_P)) return -1; if(!(ie->h.present & UNI_ABRSETUP_BICR_P)) return -1; if(!(ie->h.present & UNI_ABRSETUP_FTBE_P)) return -1; if(!(ie->h.present & UNI_ABRSETUP_BTBE_P)) return -1; if(!(ie->h.present & UNI_ABRSETUP_FRIF_P)) return -1; if(!(ie->h.present & UNI_ABRSETUP_BRIF_P)) return -1; if(!(ie->h.present & UNI_ABRSETUP_FRDF_P)) return -1; if(!(ie->h.present & UNI_ABRSETUP_BRDF_P)) return -1; if(!(ie->h.present & UNI_ABRSETUP_RMFRT_P)) return -1; } if(!(ie->h.present & UNI_ABRSETUP_RMFRT_P)) return -1; if(ie->h.present & UNI_ABRSETUP_FICR_P) if(ie->ficr >= 1 << 24) return -1; if(ie->h.present & UNI_ABRSETUP_BICR_P) if(ie->bicr >= 1 << 24) return -1; if(ie->h.present & UNI_ABRSETUP_FTBE_P) if(ie->ftbe >= 1 << 24 || ie->ftbe == 0) return -1; if(ie->h.present & UNI_ABRSETUP_BTBE_P) if(ie->btbe >= 1 << 24 || ie->btbe == 0) return -1; if(ie->rmfrt >= 1 << 24) return -1; if(ie->h.present & UNI_ABRSETUP_FRIF_P) if(ie->frif > 15) return -1; if(ie->h.present & UNI_ABRSETUP_FRDF_P) if(ie->frdf > 15) return -1; if(ie->h.present & UNI_ABRSETUP_BRIF_P) if(ie->brif > 15) return -1; if(ie->h.present & UNI_ABRSETUP_BRDF_P) if(ie->brdf > 15) return -1; return 0; } DEF_IE_ENCODE(net, abrsetup) { START_IE(abrsetup, UNI_IE_ABRSETUP, 32); APP_OPT_24BIT(msg, ie->h.present, UNI_ABRSETUP_FICR_P, UNI_ABRSETUP_FICR_ID, ie->ficr); APP_OPT_24BIT(msg, ie->h.present, UNI_ABRSETUP_BICR_P, UNI_ABRSETUP_BICR_ID, ie->bicr); APP_OPT_24BIT(msg, ie->h.present, UNI_ABRSETUP_FTBE_P, UNI_ABRSETUP_FTBE_ID, ie->ftbe); APP_OPT_24BIT(msg, ie->h.present, UNI_ABRSETUP_BTBE_P, UNI_ABRSETUP_BTBE_ID, ie->btbe); APP_SUB_24BIT(msg, UNI_ABRSETUP_RMFRT_ID, ie->rmfrt); APP_OPT_BYTE(msg, ie->h.present, UNI_ABRSETUP_FRIF_P, UNI_ABRSETUP_FRIF_ID, ie->frif); APP_OPT_BYTE(msg, ie->h.present, UNI_ABRSETUP_BRIF_P, UNI_ABRSETUP_BRIF_ID, ie->brif); APP_OPT_BYTE(msg, ie->h.present, UNI_ABRSETUP_FRDF_P, UNI_ABRSETUP_FRDF_ID, ie->frdf); APP_OPT_BYTE(msg, ie->h.present, UNI_ABRSETUP_BRDF_P, UNI_ABRSETUP_BRDF_ID, ie->brdf); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(net, abrsetup) { IE_START(;); if(ielen < 4 || ielen > 32) goto rej; while(ielen--) { switch(*msg->b_rptr++) { default: goto rej; DEC_GETF3(ABRSETUP_FICR, ficr, ie->h.present); DEC_GETF3(ABRSETUP_BICR, bicr, ie->h.present); DEC_GETF3(ABRSETUP_FTBE, ftbe, ie->h.present); DEC_GETF3(ABRSETUP_BTBE, btbe, ie->h.present); DEC_GETF1(ABRSETUP_FRIF, frif, ie->h.present); DEC_GETF1(ABRSETUP_BRIF, brif, ie->h.present); DEC_GETF1(ABRSETUP_FRDF, frdf, ie->h.present); DEC_GETF1(ABRSETUP_BRDF, brdf, ie->h.present); DEC_GETF3(ABRSETUP_RMFRT, frif, ie->h.present); } } IE_END(ABRSETUP); } /********************************************************************* * * Broadband report type * * References for this IE are: * * Q.2963.1 pp. 7...8 * * Only ITU-T coding allowed. */ DEF_IE_PRINT(itu, report) { static const struct uni_print_tbl tbl[] = { MKT(UNI_REPORT_MODCONF, modconf), MKT(UNI_REPORT_CLOCK, clock), MKT(UNI_REPORT_EEAVAIL, eeavail), MKT(UNI_REPORT_EEREQ, eereq), MKT(UNI_REPORT_EECOMPL, eecompl), EOT() }; if(uni_print_iehdr("report", &ie->h, cx)) return; uni_print_tbl("type", ie->report, tbl, cx); uni_print_ieend(cx); } DEF_IE_CHECK(itu, report) { UNUSED(cx); switch(ie->report) { default: return -1; case UNI_REPORT_MODCONF: case UNI_REPORT_CLOCK: case UNI_REPORT_EEAVAIL: case UNI_REPORT_EEREQ: case UNI_REPORT_EECOMPL: break; } return 0; } DEF_IE_ENCODE(itu, report) { START_IE(report, UNI_IE_REPORT, 1); APP_BYTE(msg, ie->report); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(itu, report) { IE_START(;); if(ielen != 1) goto rej; ie->report = *msg->b_rptr++; IE_END(REPORT); } /********************************************************************* * * Soft PVPC/PVCC * * References for this IE are: * * PNNI1.0 pp. 201...203 * * Only NET coding allowed. */ DEF_IE_PRINT(net, calling_soft) { if(uni_print_iehdr("calling_soft", &ie->h, cx)) return; uni_print_entry(cx, "vpi", "%d", ie->vpi); if(ie->h.present & UNI_CALLING_SOFT_VCI_P) uni_print_entry(cx, "vci", "%d", ie->vci); uni_print_ieend(cx); } DEF_IE_PRINT(net, called_soft) { static const struct uni_print_tbl tab[] = { MKT(UNI_SOFT_SEL_ANY, any), MKT(UNI_SOFT_SEL_REQ, required), MKT(UNI_SOFT_SEL_ASS, assigned), EOT() }; if(uni_print_iehdr("called_soft", &ie->h, cx)) return; uni_print_tbl("selection", ie->sel, tab, cx); if(ie->h.present & UNI_CALLED_SOFT_VPI_P) uni_print_entry(cx, "vpi", "%d", ie->vpi); if(ie->h.present & UNI_CALLED_SOFT_VCI_P) uni_print_entry(cx, "vci", "%d", ie->vci); uni_print_ieend(cx); } DEF_IE_CHECK(net, calling_soft) { UNUSED(cx); if(ie->vpi >= 1 << 12) return -1; return 0; } DEF_IE_CHECK(net, called_soft) { UNUSED(cx); switch(ie->sel) { case UNI_SOFT_SEL_ANY: case UNI_SOFT_SEL_REQ: case UNI_SOFT_SEL_ASS: break; default: return -1; } if(ie->h.present & UNI_CALLED_SOFT_VPI_P) { if(ie->vpi >= 1 << 12) return -1; } else { if(ie->sel != UNI_SOFT_SEL_ANY) return -1; } if(ie->h.present & UNI_CALLED_SOFT_VCI_P) if(!(ie->h.present & UNI_CALLED_SOFT_VPI_P)) return -1; return 0; } DEF_IE_ENCODE(net, calling_soft) { START_IE(calling_soft, UNI_IE_CALLING_SOFT, 6); APP_BYTE(msg, 0x81); APP_16BIT(msg, ie->vpi); if(ie->h.present & UNI_CALLING_SOFT_VCI_P) { APP_BYTE(msg, 0x82); APP_16BIT(msg, ie->vci); } SET_IE_LEN(msg); return 0; } DEF_IE_ENCODE(net, called_soft) { START_IE(called_soft, UNI_IE_CALLED_SOFT, 7); APP_BYTE(msg, ie->sel); if(ie->h.present & UNI_CALLED_SOFT_VPI_P) { APP_BYTE(msg, 0x81); APP_16BIT(msg, ie->vpi); } if(ie->h.present & UNI_CALLED_SOFT_VCI_P) { APP_BYTE(msg, 0x82); APP_16BIT(msg, ie->vci); } SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(net, calling_soft) { int vci_seen, vpi_seen; IE_START(;); if(ielen < 3) goto rej; vci_seen = 0; vpi_seen = 0; while(ielen) { switch(*msg->b_rptr++) { case 0x81: if(!vpi_seen) { ie->vpi = *msg->b_rptr++ << 8; ie->vpi |= *msg->b_rptr++; } else { msg->b_rptr += 2; } ielen -= 3; break; case 0x82: if(!vci_seen) { ie->vci = *msg->b_rptr++ << 8; ie->vci |= *msg->b_rptr++; } else { msg->b_rptr += 2; } ie->h.present |= UNI_CALLING_SOFT_VCI_P; ielen -= 3; break; default: goto rej; } } if(!vpi_seen) goto rej; IE_END(CALLING_SOFT); } DEF_IE_DECODE(net, called_soft) { int vci_seen, vpi_seen; IE_START(;); if(ielen < 3) goto rej; vci_seen = 0; vpi_seen = 0; while(ielen) { switch(*msg->b_rptr++) { case 0x81: if(!vpi_seen) { ie->vpi = *msg->b_rptr++ << 8; ie->vpi |= *msg->b_rptr++; vpi_seen = 1; } else { msg->b_rptr += 2; } ielen -= 3; ie->h.present |= UNI_CALLED_SOFT_VCI_P; break; case 0x82: if(!vci_seen) { ie->vci = *msg->b_rptr++ << 8; ie->vci |= *msg->b_rptr++; vci_seen = 1; } else { msg->b_rptr += 2; } ie->h.present |= UNI_CALLED_SOFT_VCI_P; ielen -= 3; break; default: goto rej; } } IE_END(CALLED_SOFT); } /********************************************************************* * * Crankback * * References for this IE are: * * PNNI1.0 pp. 203...206 * * Only NET coding allowed. */ DEF_IE_PRINT(net, crankback) { u_int j; if(uni_print_iehdr("crankback", &ie->h, cx)) return; uni_print_entry(cx, "level", "%d", ie->level); switch(ie->type) { case UNI_CRANKBACK_IF: uni_print_entry(cx, "type", "interface"); break; case UNI_CRANKBACK_NODE: uni_print_entry(cx, "type", "node"); uni_print_entry(cx, "node", "{%d/", ie->id.node.level); for(j = 0; j < 21; j++) uni_printf(cx, "%02x", ie->id.node.id[j]); uni_printf(cx, "}"); uni_print_eol(cx); break; case UNI_CRANKBACK_LINK: uni_print_entry(cx, "type", "link"); uni_print_push_prefix("link", cx); cx->indent++; uni_print_entry(cx, "prec", "{%d/", ie->id.link.plevel); for(j = 0; j < 21; j++) uni_printf(cx, "%02x", ie->id.link.pid[j]); uni_printf(cx, "}"); uni_print_eol(cx); uni_print_entry(cx, "port", "0x%04x", ie->id.link.port); uni_print_eol(cx); uni_print_entry(cx, "succ", "{%d/", ie->id.link.slevel); for(j = 0; j < 21; j++) uni_printf(cx, "%02x", ie->id.link.sid[j]); uni_printf(cx, "}"); uni_print_eol(cx); cx->indent--; uni_print_pop_prefix(cx); break; default: uni_print_entry(cx, "type", "0x%02x", ie->type); break; } uni_print_entry(cx, "cause", "0x%02x", ie->cause); if(ie->h.present & UNI_CRANKBACK_TOP_P) { uni_print_push_prefix("topol", cx); uni_print_entry(cx, "dir", "%d", ie->diag.top.dir); uni_print_entry(cx, "port", "0x%04x", ie->diag.top.port); uni_print_entry(cx, "avcr", "%u", ie->diag.top.avcr); if(ie->h.present & UNI_CRANKBACK_TOPX_P) { uni_print_entry(cx, "crm", "%u", ie->diag.top.crm); uni_print_entry(cx, "vf", "%u", ie->diag.top.vf); } uni_print_pop_prefix(cx); uni_print_eol(cx); } if(ie->h.present & UNI_CRANKBACK_QOS_P) { uni_print_push_prefix("qos", cx); uni_print_entry(cx, "ctd", "%savail", ie->diag.qos.ctd ? "" : "un"); uni_print_entry(cx, "cdv", "%savail", ie->diag.qos.cdv ? "" : "un"); uni_print_entry(cx, "clr", "%savail", ie->diag.qos.clr ? "" : "un"); uni_print_entry(cx, "other", "%savail", ie->diag.qos.other ? "" : "un"); uni_print_pop_prefix(cx); uni_print_eol(cx); } uni_print_eol(cx); uni_print_ieend(cx); } DEF_IE_CHECK(net, crankback) { UNUSED(cx); if(ie->level > 104) return -1; switch(ie->type) { case UNI_CRANKBACK_IF: break; case UNI_CRANKBACK_NODE: if(ie->id.node.level > 104) return -1; break; case UNI_CRANKBACK_LINK: if(ie->id.link.plevel > 104) return -1; if(ie->id.link.slevel > 104) return -1; break; default: return -1; } if(ie->h.present & UNI_CRANKBACK_TOP_P) { if(ie->h.present & UNI_CRANKBACK_QOS_P) return -1; if(ie->cause != UNI_CAUSE_CRATE_NAVL) return -1; switch(ie->diag.top.dir) { case 0x00: case 0x01: break; default: return -1; } } if(ie->h.present & UNI_CRANKBACK_QOS_P) { if(ie->cause != UNI_CAUSE_QOS_NAVL) return -1; } return 0; } DEF_IE_ENCODE(net, crankback) { START_IE(crankback, UNI_IE_CRANKBACK, 72); APP_BYTE(msg, ie->level); APP_BYTE(msg, ie->type); switch(ie->type) { case UNI_CRANKBACK_IF: break; case UNI_CRANKBACK_NODE: APP_BYTE(msg, ie->id.node.level); APP_BUF(msg, ie->id.node.id, 21); break; case UNI_CRANKBACK_LINK: APP_BYTE(msg, ie->id.link.plevel); APP_BUF(msg, ie->id.link.pid, 21); APP_32BIT(msg, ie->id.link.port); APP_BYTE(msg, ie->id.link.slevel); APP_BUF(msg, ie->id.link.sid, 21); break; } APP_BYTE(msg, ie->cause); if(ie->h.present & UNI_CRANKBACK_TOP_P) { APP_BYTE(msg, ie->diag.top.dir); APP_32BIT(msg, ie->diag.top.port); APP_32BIT(msg, ie->diag.top.avcr); if(ie->h.present & UNI_CRANKBACK_TOPX_P) { APP_32BIT(msg, ie->diag.top.crm); APP_32BIT(msg, ie->diag.top.vf); } } if(ie->h.present & UNI_CRANKBACK_QOS_P) { APP_BYTE(msg, (ie->diag.qos.ctd << 3) |(ie->diag.qos.cdv << 2) |(ie->diag.qos.clr << 1) |(ie->diag.qos.other)); } SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(net, crankback) { IE_START(;); if(ielen < 3) goto rej; ie->level = *msg->b_rptr++; ielen--; ie->type = *msg->b_rptr++; ielen--; switch(ie->type) { default: goto rej; case UNI_CRANKBACK_IF: break; case UNI_CRANKBACK_NODE: if(ielen < 22) goto rej; ie->id.node.level = *msg->b_rptr++; (void)memcpy(ie->id.node.id, msg->b_rptr, 21); msg->b_rptr += 21; ielen -= 22; break; case UNI_CRANKBACK_LINK: if(ielen < 48) goto rej; ie->id.link.plevel = *msg->b_rptr++; (void)memcpy(ie->id.link.pid, msg->b_rptr, 21); msg->b_rptr += 21; ielen -= 22; ie->id.link.port = *msg->b_rptr++ << 24; ie->id.link.port |= *msg->b_rptr++ << 16; ie->id.link.port |= *msg->b_rptr++ << 8; ie->id.link.port |= *msg->b_rptr++ << 0; ielen -= 4; ie->id.link.slevel = *msg->b_rptr++; (void)memcpy(ie->id.link.sid, msg->b_rptr, 21); msg->b_rptr += 21; ielen -= 22; break; } if(ielen < 1) goto rej; ie->cause = *msg->b_rptr++; ielen--; if(ie->cause == UNI_CAUSE_CRATE_NAVL) { if(ielen > 0) { if(ielen != 9 && ielen != 17) goto rej; ie->diag.top.dir = *msg->b_rptr++; ie->diag.top.port = *msg->b_rptr++ << 24; ie->diag.top.port |= *msg->b_rptr++ << 16; ie->diag.top.port |= *msg->b_rptr++ << 8; ie->diag.top.port |= *msg->b_rptr++ << 0; ie->diag.top.avcr = *msg->b_rptr++ << 24; ie->diag.top.avcr |= *msg->b_rptr++ << 16; ie->diag.top.avcr |= *msg->b_rptr++ << 8; ie->diag.top.avcr |= *msg->b_rptr++ << 0; ielen -= 9; ie->h.present |= UNI_CRANKBACK_TOP_P; if(ielen > 0) { ie->diag.top.crm = *msg->b_rptr++ << 24; ie->diag.top.crm |= *msg->b_rptr++ << 16; ie->diag.top.crm |= *msg->b_rptr++ << 8; ie->diag.top.crm |= *msg->b_rptr++ << 0; ie->diag.top.vf = *msg->b_rptr++ << 24; ie->diag.top.vf |= *msg->b_rptr++ << 16; ie->diag.top.vf |= *msg->b_rptr++ << 8; ie->diag.top.vf |= *msg->b_rptr++ << 0; ie->h.present |= UNI_CRANKBACK_TOPX_P; ielen -= 8; } } } else if(ie->cause == UNI_CAUSE_QOS_NAVL) { if(ielen > 0) { if(ielen != 1) goto rej; ie->diag.qos.ctd = *msg->b_rptr >> 3; ie->diag.qos.cdv = *msg->b_rptr >> 2; ie->diag.qos.clr = *msg->b_rptr >> 1; ie->diag.qos.other = *msg->b_rptr >> 0; ie->h.present |= UNI_CRANKBACK_QOS_P; ielen -= 1; } } else { if(ielen > 0) goto rej; } IE_END(CRANKBACK); } /********************************************************************* * * Designated transit list * * References for this IE are: * * PNNI1.0 pp. 206...208 * * Only NET coding allowed. */ DEF_IE_PRINT(net, dtl) { u_int i, j; char buf[10]; if(uni_print_iehdr("dtl", &ie->h, cx)) return; uni_print_entry(cx, "ptr", "%d(%d)", ie->ptr, ie->ptr / UNI_DTL_LOGNP_SIZE); uni_print_push_prefix("dtl", cx); cx->indent++; uni_printf(cx, "{"); for(i = 0; i < ie->num; i++) { sprintf(buf, "%d", i); uni_print_entry(cx, buf, "{%d/", ie->dtl[i].node_level); for(j = 0; j < 21; j++) uni_printf(cx, "%02x", ie->dtl[i].node_id[j]); uni_printf(cx, ",%04x}", ie->dtl[i].port_id); uni_print_eol(cx); } cx->indent--; uni_print_pop_prefix(cx); uni_print_ieend(cx); } DEF_IE_CHECK(net, dtl) { u_int i; UNUSED(cx); if(ie->ptr % UNI_DTL_LOGNP_SIZE != 0) return -1; if(ie->ptr / UNI_DTL_LOGNP_SIZE > UNI_DTL_MAXNUM) return -1; if(ie->num > UNI_DTL_MAXNUM) return -1; for(i = 0; i < ie->num; i++) if(ie->dtl[i].node_level > 104) return -1; return 0; } DEF_IE_ENCODE(net, dtl) { u_int i; START_IE(dtl, UNI_IE_DTL, 2 + UNI_DTL_LOGNP_SIZE * ie->num); APP_16BIT(msg, ie->ptr); for(i = 0; i < ie->num; i++) { APP_BYTE(msg, UNI_DTL_LOGNP); APP_BYTE(msg, ie->dtl[i].node_level); APP_BUF(msg, ie->dtl[i].node_id, 21); APP_32BIT(msg, ie->dtl[i].port_id); } SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(net, dtl) { IE_START(;); if(ielen < 2) goto rej; ie->ptr = *msg->b_rptr++ << 8; ie->ptr |= *msg->b_rptr++; ielen -= 2; if(ielen % UNI_DTL_LOGNP_SIZE != 0) goto rej; if(ielen / UNI_DTL_LOGNP_SIZE > UNI_DTL_MAXNUM) goto rej; ie->num = 0; while(ielen) { if(*msg->b_rptr++ != UNI_DTL_LOGNP) goto rej; ielen--; ie->dtl[ie->num].node_level = *msg->b_rptr++; ielen--; (void)memcpy(ie->dtl[ie->num].node_id, msg->b_rptr, 21); msg->b_rptr += 21; ielen -= 21; ie->dtl[ie->num].port_id = *msg->b_rptr++ << 24; ie->dtl[ie->num].port_id |= *msg->b_rptr++ << 16; ie->dtl[ie->num].port_id |= *msg->b_rptr++ << 8; ie->dtl[ie->num].port_id |= *msg->b_rptr++ << 0; ielen -= 4; ie->num++; } IE_END(DTL); } /********************************************************************* * * Leaf initiated join call identifier. * Leaf initiated join parameters. * Leaf initiated join sequence number. * * References for this IE are: * * UNI4.0 pp. 46...48 * * Only NET coding allowed. */ /**********************************************************************/ DEF_IE_PRINT(net, lij_callid) { static const struct uni_print_tbl type_tbl[] = { MKT(UNI_LIJ_IDTYPE_ROOT, root), EOT() }; if(uni_print_iehdr("lij_callid", &ie->h, cx)) return; uni_print_tbl("type", ie->type, type_tbl, cx); uni_print_entry(cx, "id", "0x%x", ie->callid); uni_print_ieend(cx); } DEF_IE_CHECK(net, lij_callid) { UNUSED(cx); switch(ie->type) { case UNI_LIJ_IDTYPE_ROOT: break; default: return -1; } return 0; } DEF_IE_ENCODE(net, lij_callid) { START_IE(lij_callid, UNI_IE_LIJ_CALLID, 5); APP_BYTE(msg, 0x80 | ie->type); APP_32BIT(msg, ie->callid); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(net, lij_callid) { IE_START(;); if(ielen != 5) goto rej; ie->type = *msg->b_rptr++ & 0xf; ie->callid = *msg->b_rptr++ << 24; ie->callid |= *msg->b_rptr++ << 16; ie->callid |= *msg->b_rptr++ << 8; ie->callid |= *msg->b_rptr++ << 0; IE_END(LIJ_CALLID); } /**********************************************************************/ DEF_IE_PRINT(net, lij_param) { static const struct uni_print_tbl lscreen_tbl[] = { MKT(UNI_LIJ_SCREEN_NETJOIN, netjoin), EOT() }; if(uni_print_iehdr("lij_param", &ie->h, cx)) return; uni_print_tbl("screen", ie->screen, lscreen_tbl, cx); uni_print_ieend(cx); } DEF_IE_CHECK(net, lij_param) { UNUSED(cx); switch(ie->screen) { case UNI_LIJ_SCREEN_NETJOIN: break; default: return -1; } return 0; } DEF_IE_ENCODE(net, lij_param) { START_IE(lij_param, UNI_IE_LIJ_PARAM, 1); APP_BYTE(msg, 0x80 | ie->screen); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(net, lij_param) { IE_START(;); if(ielen != 1) goto rej; ie->screen = *msg->b_rptr++ & 0xf; IE_END(LIJ_PARAM); } /**********************************************************************/ DEF_IE_PRINT(net, lij_seqno) { if(uni_print_iehdr("lij_seqno", &ie->h, cx)) return; uni_print_entry(cx, "seqno", "0x%x", ie->seqno); uni_print_ieend(cx); } DEF_IE_CHECK(net, lij_seqno) { UNUSED(cx); UNUSED(ie); return 0; } DEF_IE_ENCODE(net, lij_seqno) { START_IE(lij_seqno, UNI_IE_LIJ_SEQNO, 4); APP_32BIT(msg, ie->seqno); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(net, lij_seqno) { IE_START(;); if(ielen != 4) goto rej; ie->seqno = *msg->b_rptr++ << 24; ie->seqno |= *msg->b_rptr++ << 16; ie->seqno |= *msg->b_rptr++ << 8; ie->seqno |= *msg->b_rptr++ << 0; IE_END(LIJ_SEQNO); } /********************************************************************* * * Connection scope * * References for this IE are: * * UNI4.0 pp. 57...58 * * Only NET coding allowed. */ DEF_IE_PRINT(net, cscope) { static const struct uni_print_tbl type_tbl[] = { MKT(UNI_CSCOPE_ORG, org), EOT() }; static const struct uni_print_tbl scope_tbl[] = { MKT(UNI_CSCOPE_ORG_LOC, local_network), MKT(UNI_CSCOPE_ORG_LOC_P1, local_network_plus_one), MKT(UNI_CSCOPE_ORG_LOC_P2, local_network_plus_two), MKT(UNI_CSCOPE_ORG_SITE_M1, site_minus_one), MKT(UNI_CSCOPE_ORG_SITE, intra_site), MKT(UNI_CSCOPE_ORG_SITE_P1, site_plus_one), MKT(UNI_CSCOPE_ORG_ORG_M1, organisation_minus_one), MKT(UNI_CSCOPE_ORG_ORG, intra_organisation), MKT(UNI_CSCOPE_ORG_ORG_P1, organisation_plus_one), MKT(UNI_CSCOPE_ORG_COMM_M1, community_minus_one), MKT(UNI_CSCOPE_ORG_COMM, intra_community), MKT(UNI_CSCOPE_ORG_COMM_P1, community_plus_one), MKT(UNI_CSCOPE_ORG_REG, regional), MKT(UNI_CSCOPE_ORG_INTER, inter_regional), MKT(UNI_CSCOPE_ORG_GLOBAL, global), EOT() }; if(uni_print_iehdr("cscope", &ie->h, cx)) return; uni_print_tbl("type", ie->type, type_tbl, cx); if(ie->type == UNI_CSCOPE_ORG) uni_print_tbl("scope", (u_int)ie->scope, scope_tbl, cx); else uni_print_entry(cx, "scope", "0x%02x", ie->scope); uni_print_ieend(cx); } DEF_IE_CHECK(net, cscope) { UNUSED(cx); switch(ie->type) { default: return -1; case UNI_CSCOPE_ORG: switch(ie->scope) { default: return -1; case UNI_CSCOPE_ORG_LOC: case UNI_CSCOPE_ORG_LOC_P1: case UNI_CSCOPE_ORG_LOC_P2: case UNI_CSCOPE_ORG_SITE_M1: case UNI_CSCOPE_ORG_SITE: case UNI_CSCOPE_ORG_SITE_P1: case UNI_CSCOPE_ORG_ORG_M1: case UNI_CSCOPE_ORG_ORG: case UNI_CSCOPE_ORG_ORG_P1: case UNI_CSCOPE_ORG_COMM_M1: case UNI_CSCOPE_ORG_COMM: case UNI_CSCOPE_ORG_COMM_P1: case UNI_CSCOPE_ORG_REG: case UNI_CSCOPE_ORG_INTER: case UNI_CSCOPE_ORG_GLOBAL: break; } break; } return 0; } DEF_IE_ENCODE(net, cscope) { START_IE(cscope, UNI_IE_CSCOPE, 2); APP_BYTE(msg, ie->type | 0x80); APP_BYTE(msg, ie->scope); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(net, cscope) { IE_START(;); if(ielen != 2) goto rej; if((*msg->b_rptr & 0xf0) != 0x80) goto rej; ie->type = *msg->b_rptr++ & 0xf; ie->scope = *msg->b_rptr++; IE_END(CSCOPE); } /********************************************************************* * * Extended Quality of Service * * References for this IE are: * * UNI4.0 pp. 70...72 * * Notes: * Only NET coding. */ DEF_IE_PRINT(net, exqos) { static const struct uni_print_tbl tab[] = { MKT(UNI_EXQOS_USER, user), MKT(UNI_EXQOS_NET, net), EOT() }; if(uni_print_iehdr("exqos", &ie->h, cx)) return; uni_print_tbl("origin", ie->origin, tab, cx); uni_print_entry(cx, "acceptable", "("); if(ie->h.present & UNI_EXQOS_FACC_P) { if(ie->facc == UNI_EXQOS_ANY_CDV) uni_printf(cx, "ANY"); else uni_printf(cx, "%d", ie->facc); } uni_putc(',', cx); if(ie->h.present & UNI_EXQOS_BACC_P) { if(ie->bacc == UNI_EXQOS_ANY_CDV) uni_printf(cx, "ANY"); else uni_printf(cx, "%d", ie->bacc); } uni_putc(')', cx); uni_print_entry(cx, "cumulative", "("); if(ie->h.present & UNI_EXQOS_FCUM_P) uni_printf(cx, "%d", ie->fcum); uni_putc(',', cx); if(ie->h.present & UNI_EXQOS_BCUM_P) uni_printf(cx, "%d", ie->bcum); uni_putc(')', cx); uni_print_entry(cx, "clrid", "("); if(ie->h.present & UNI_EXQOS_FCLR_P) { if(ie->fclr == UNI_EXQOS_ANY_CLR) uni_printf(cx, "ANY"); else uni_printf(cx, "%d", ie->fclr); } uni_putc(',', cx); if(ie->h.present & UNI_EXQOS_BCLR_P) { if(ie->bclr == UNI_EXQOS_ANY_CLR) uni_printf(cx, "ANY"); else uni_printf(cx, "%d", ie->bclr); } uni_putc(')', cx); uni_print_ieend(cx); } DEF_IE_CHECK(net, exqos) { UNUSED(cx); switch(ie->origin) { case UNI_EXQOS_USER: case UNI_EXQOS_NET: break; default: return -1; } if(ie->h.present & UNI_EXQOS_FACC_P) if(!(ie->h.present & UNI_EXQOS_FCUM_P)) return -1; if(ie->h.present & UNI_EXQOS_BACC_P) if(!(ie->h.present & UNI_EXQOS_BCUM_P)) return -1; if(ie->h.present & UNI_EXQOS_FACC_P) if(ie->facc >= 1 << 24) return -1; if(ie->h.present & UNI_EXQOS_BACC_P) if(ie->bacc >= 1 << 24) return -1; if(ie->h.present & UNI_EXQOS_FCUM_P) if(ie->fcum >= 1 << 24) return -1; if(ie->h.present & UNI_EXQOS_BCUM_P) if(ie->bcum >= 1 << 24) return -1; if(ie->h.present & UNI_EXQOS_FCLR_P) if(ie->fclr==0 || (ie->fclr>15 && ie->fclr!=UNI_EXQOS_ANY_CLR)) return -1; if(ie->h.present & UNI_EXQOS_BCLR_P) if(ie->bclr==0 || (ie->bclr>15 && ie->bclr!=UNI_EXQOS_ANY_CLR)) return -1; return 0; } DEF_IE_ENCODE(net, exqos) { START_IE(exqos, UNI_IE_EXQOS, 21); APP_BYTE(msg, ie->origin); APP_OPT_24BIT(msg, ie->h.present, UNI_EXQOS_FACC_P, UNI_EXQOS_FACC_ID, ie->facc); APP_OPT_24BIT(msg, ie->h.present, UNI_EXQOS_BACC_P, UNI_EXQOS_BACC_ID, ie->bacc); APP_OPT_24BIT(msg, ie->h.present, UNI_EXQOS_FCUM_P, UNI_EXQOS_FCUM_ID, ie->fcum); APP_OPT_24BIT(msg, ie->h.present, UNI_EXQOS_BCUM_P, UNI_EXQOS_BCUM_ID, ie->bcum); APP_OPT_BYTE(msg, ie->h.present, UNI_EXQOS_FCLR_P, UNI_EXQOS_FCLR_ID, ie->fclr); APP_OPT_BYTE(msg, ie->h.present, UNI_EXQOS_BCLR_P, UNI_EXQOS_BCLR_ID, ie->bclr); SET_IE_LEN(msg); return 0; } DEF_IE_DECODE(net, exqos) { IE_START(;); if(ielen < 1 || ielen > 21) goto rej; ie->origin = *msg->b_rptr++; ielen--; while(ielen--) { switch(*msg->b_rptr++) { default: goto rej; DEC_GETF3(EXQOS_FACC, facc, ie->h.present); DEC_GETF3(EXQOS_BACC, bacc, ie->h.present); DEC_GETF3(EXQOS_FCUM, fcum, ie->h.present); DEC_GETF3(EXQOS_BCUM, bcum, ie->h.present); DEC_GETF1(EXQOS_FCLR, fclr, ie->h.present); DEC_GETF1(EXQOS_BCLR, bclr, ie->h.present); } } IE_END(EXQOS); } /************************************************************** * * Free form IE (for testing mainly) */ DEF_IE_PRINT(itu, unrec) { u_int i; if (uni_print_iehdr("unrec", &ie->h, cx)) return; uni_print_entry(cx, "len", "%u", ie->len); uni_print_entry(cx, "data", "("); for (i = 0; i < ie->len; i++) uni_printf(cx, "%s0x%02x", i == 0 ? "" : " ", ie->data[i]); uni_printf(cx, ")"); uni_print_ieend(cx); } DEF_IE_CHECK(itu, unrec) { UNUSED(cx); if (ie->len > sizeof(ie->data)) return (-1); return (0); } DEF_IE_ENCODE(itu, unrec) { START_IE2(unrec, UNI_IE_UNREC, ie->len, ie->id); APP_BUF(msg, ie->data, ie->len); SET_IE_LEN(msg); return (0); } DEF_IE_DECODE(itu, unrec) { IE_START(;); if (ielen > sizeof(ie->data) / sizeof(ie->data[0]) || ielen < 1) goto rej; ie->len = ielen; ielen = 0; (void)memcpy(ie->data, msg->b_rptr, ie->len); msg->b_rptr += ie->len; IE_END(UNREC); }