-FROM nexus3.o-ran-sc.org:10004/bldr-ubuntu16-c-go:3-u16.04-nng as ubuntu
+FROM nexus3.o-ran-sc.org:10004/bldr-ubuntu18-c-go:6-u18.04-nng as ubuntu
ADD . /opt/o-du-l2
WORKDIR /opt/o-du-l2
-FROM nexus3.o-ran-sc.org:10004/bldr-ubuntu16-c-go:3-u16.04-nng as ubuntu
+FROM nexus3.o-ran-sc.org:10004/bldr-ubuntu18-c-go:6-u18.04-nng as ubuntu
ADD . /opt/o-du-l2
WORKDIR /opt/o-du-l2
-FROM nexus3.o-ran-sc.org:10004/bldr-ubuntu16-c-go:3-u16.04-nng as ubuntu
+FROM nexus3.o-ran-sc.org:10004/bldr-ubuntu18-c-go:6-u18.04-nng as ubuntu
ADD . /opt/o-du-l2
WORKDIR /opt/o-du-l2
SRC_DIR=$(ROOT_DIR)/src/codec_utils/E2AP
C_SRCS=$(wildcard $(SRC_DIR)/*.c)
C_OBJS=$(patsubst $(SRC_DIR)/%.c,$(OBJ_DIR)/%.o,$(C_SRCS))
-LOG_FILES=$(patsubst $(SRC_DIR)/%.c,$(OBJ_DIR)/%.i,$(C_SRCS))
-BAK_FILES=$(patsubst $(SRC_DIR)/%.c,$(OBJ_DIR)/%.i.bak,$(C_SRCS))
-DB_FILES =$(patsubst $(SRC_DIR)/%.c,$(OBJ_DIR)/%.i.db,$(C_SRCS))
lib: $(LIB_DIR)/libasn_e2ap.a
include $(COM_BUILD_DIR)/compile.mak
@echo $(SRC_DIR) $(CM_DIR)
$(Q)\rm -f $(LIB_DIR)/libasn_e2ap.a $(C_OBJS) $(C_WO_PED_OBJS) $(LOG_FILES) $(BAK_FILES)
+#-------------------------------------------------------------#
+#End of File
+#-------------------------------------------------------------#
+
+++ /dev/null
-################################################################################
-# Copyright (c) [2017-2019] [Radisys] #
-# #
-# Licensed under the Apache License, Version 2.0 (the "License"); #
-# you may not use this file except in compliance with the License. #
-# You may obtain a copy of the License at #
-# #
-# http://www.apache.org/licenses/LICENSE-2.0 #
-# #
-# Unless required by applicable law or agreed to in writing, software #
-# distributed under the License is distributed on an "AS IS" BASIS, #
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. #
-# See the License for the specific language governing permissions and #
-# limitations under the License. #
-################################################################################
-
-# This is makefile for E2 APP
-
-include ../common/rsys_fancy.mak
-include ../common/env.mak
-COLOR=$(COLOR_RED)
-
-SRC_DIR=$(ROOT_DIR)/src/du_app/E2AP
-C_SRCS=$(wildcard $(SRC_DIR)/*.c)
-C_OBJS=$(patsubst $(SRC_DIR)/%.c,$(OBJ_DIR)/%.o,$(C_SRCS))
-LOG_FILES=$(patsubst $(SRC_DIR)/%.c,$(OBJ_DIR)/%.i,$(C_SRCS))
-BAK_FILES=$(patsubst $(SRC_DIR)/%.c,$(OBJ_DIR)/%.i.bak,$(C_SRCS))
-DB_FILES =$(patsubst $(SRC_DIR)/%.c,$(OBJ_DIR)/%.i.db,$(C_SRCS))
-
-# prepare the list of common header files
-HDR_FILES+=$(wildcard $(CM_DIR)/env*.[hx])
-HDR_FILES+=$(wildcard $(CM_DIR)/gen*.[hx])
-HDR_FILES+=$(wildcard $(CM_DIR)/ssi*.[hx])
-HDR_FILES+=$(wildcard $(CM_DIR)/cm*.[hx])
-HDR_FILES+=$(wildcard $(CM_DIR)/lkw*.[hx])
-HDR_FILES+=$(wildcard $(CM_DIR)/lrg*.[hx])
-
-
-lib: $(LIB_DIR)/libe2ap.a
-include $(COM_BUILD_DIR)/compile.mak
-
-I_OPTS+=-I$(ROOT_DIR)/src/mt
-I_OPTS+=-I$(ROOT_DIR)/src/du_app
-I_OPTS+=-I$(ROOT_DIR)/src/ric_stub #TODO: Remove this dependency
-I_OPTS+=-I$(ROOT_DIR)/src/du_app/E2AP/asn
-
-
-#-------------------------------------------------------------#
-#Linker macros
-#-------------------------------------------------------------#
-$(LIB_DIR)/libf1ap.a:$(C_OBJS) $(C_WO_PED_OBJS)
- @echo -e "Creating Archive $(COLOR) $@ $(REVERT_COLOR)"
- $(Q)ar -cr $(LIB_DIR)/libf1ap.a $(C_OBJS) $(C_WO_PED_OBJS)
-
-#-------------------------------------------------------------#
-#Clean macros
-#-------------------------------------------------------------#
-clean:
- @echo -e "$(COLOR_RED)Cleaning F1AP$(REVERT_COLOR)"
- @echo $(SRC_DIR) $(CM_DIR)
- $(Q)\rm -f $(LIB_DIR)/libf1ap.a $(C_OBJS) $(C_WO_PED_OBJS) $(LOG_FILES) $(BAK_FILES)
-
$(Q)$(MAKE) -f $(COM_BUILD_DIR)/ric_stub.mak OBJ_DIR=$(OBJ_ROOT)/ric_stub LIB_DIR=$(LIB_ROOT)/ric_stub LOG_DIR=$(LOG_ROOT)/ric_stub CC='$(CC1)'
$(Q)$(MAKE) -f $(COM_BUILD_DIR)/asn_common.mak OBJ_DIR=$(OBJ_ROOT)/ric_stub LIB_DIR=$(LIB_ROOT)/ric_stub LOG_DIR=$(LOG_ROOT)/ric_stub CC='$(CC1)'
$(Q)$(MAKE) -f $(COM_BUILD_DIR)/asn_e2ap.mak OBJ_DIR=$(OBJ_ROOT)/ric_stub LIB_DIR=$(LIB_ROOT)/ric_stub LOG_DIR=$(LOG_ROOT)/ric_stub CC='$(CC1)'
- $(Q)$(MAKE) -f $(COM_BUILD_DIR)/asn_sysinfo.mak OBJ_DIR=$(OBJ_ROOT)/ric_stub LIB_DIR=$(LIB_ROOT)/ric_stub LOG_DIR=$(LOG_ROOT)/ric_stub CC='$(CC1)'
$(Q)$(MAKE) -f $(COM_BUILD_DIR)/cm.mak OBJ_DIR=$(OBJ_ROOT)/ric_stub LIB_DIR=$(LIB_ROOT)/ric_stub LOG_DIR=$(LOG_ROOT)/ric_stub CC='$(CC1)'
$(Q)$(MAKE) -f $(COM_BUILD_DIR)/mt.mak OBJ_DIR=$(OBJ_ROOT)/ric_stub LIB_DIR=$(LIB_ROOT)/ric_stub LOG_DIR=$(LOG_ROOT)/ric_stub CC='$(CC1)'
+++ /dev/null
-/*-
- * Copyright (c) 2003, 2004 Lev Walkin <vlm@lionet.info>. All rights reserved.
- * Redistribution and modifications are permitted subject to BSD license.
- */
-#include <asn_internal.h>
-#include <BIT_STRING.h>
-#include <asn_internal.h>
-
-/*
- * BIT STRING basic type description.
- */
-static const ber_tlv_tag_t asn_DEF_BIT_STRING_tags[] = {
- (ASN_TAG_CLASS_UNIVERSAL | (3 << 2))
-};
-asn_OCTET_STRING_specifics_t asn_SPC_BIT_STRING_specs = {
- sizeof(BIT_STRING_t),
- offsetof(BIT_STRING_t, _asn_ctx),
- ASN_OSUBV_BIT
-};
-asn_TYPE_operation_t asn_OP_BIT_STRING = {
- OCTET_STRING_free, /* Implemented in terms of OCTET STRING */
- BIT_STRING_print,
- BIT_STRING_compare,
- OCTET_STRING_decode_ber, /* Implemented in terms of OCTET STRING */
- OCTET_STRING_encode_der, /* Implemented in terms of OCTET STRING */
- OCTET_STRING_decode_xer_binary,
- BIT_STRING_encode_xer,
-#ifdef ASN_DISABLE_OER_SUPPORT
- 0,
- 0,
-#else
- BIT_STRING_decode_oer,
- BIT_STRING_encode_oer,
-#endif /* ASN_DISABLE_OER_SUPPORT */
-#ifdef ASN_DISABLE_PER_SUPPORT
- 0,
- 0,
- 0,
- 0,
-#else
- BIT_STRING_decode_uper, /* Unaligned PER decoder */
- BIT_STRING_encode_uper, /* Unaligned PER encoder */
- OCTET_STRING_decode_aper, /* Aligned PER decoder */
- OCTET_STRING_encode_aper, /* Aligned PER encoder */
-#endif /* ASN_DISABLE_PER_SUPPORT */
- BIT_STRING_random_fill,
- 0 /* Use generic outmost tag fetcher */
-};
-asn_TYPE_descriptor_t asn_DEF_BIT_STRING = {
- "BIT STRING",
- "BIT_STRING",
- &asn_OP_BIT_STRING,
- asn_DEF_BIT_STRING_tags,
- sizeof(asn_DEF_BIT_STRING_tags)
- / sizeof(asn_DEF_BIT_STRING_tags[0]),
- asn_DEF_BIT_STRING_tags, /* Same as above */
- sizeof(asn_DEF_BIT_STRING_tags)
- / sizeof(asn_DEF_BIT_STRING_tags[0]),
- { 0, 0, BIT_STRING_constraint },
- 0, 0, /* No members */
- &asn_SPC_BIT_STRING_specs
-};
-
-/*
- * BIT STRING generic constraint.
- */
-int
-BIT_STRING_constraint(const asn_TYPE_descriptor_t *td, const void *sptr,
- asn_app_constraint_failed_f *ctfailcb, void *app_key) {
- const BIT_STRING_t *st = (const BIT_STRING_t *)sptr;
-
- if(st && st->buf) {
- if((st->size == 0 && st->bits_unused)
- || st->bits_unused < 0 || st->bits_unused > 7) {
- ASN__CTFAIL(app_key, td, sptr,
- "%s: invalid padding byte (%s:%d)",
- td->name, __FILE__, __LINE__);
- return -1;
- }
- } else {
- ASN__CTFAIL(app_key, td, sptr,
- "%s: value not given (%s:%d)",
- td->name, __FILE__, __LINE__);
- return -1;
- }
-
- return 0;
-}
-
-static const char *_bit_pattern[16] = {
- "0000", "0001", "0010", "0011", "0100", "0101", "0110", "0111",
- "1000", "1001", "1010", "1011", "1100", "1101", "1110", "1111"
-};
-
-asn_enc_rval_t
-BIT_STRING_encode_xer(const asn_TYPE_descriptor_t *td, const void *sptr,
- int ilevel, enum xer_encoder_flags_e flags,
- asn_app_consume_bytes_f *cb, void *app_key) {
- asn_enc_rval_t er = {0, 0, 0};
- char scratch[128];
- char *p = scratch;
- char *scend = scratch + (sizeof(scratch) - 10);
- const BIT_STRING_t *st = (const BIT_STRING_t *)sptr;
- int xcan = (flags & XER_F_CANONICAL);
- uint8_t *buf;
- uint8_t *end;
-
- if(!st || !st->buf)
- ASN__ENCODE_FAILED;
-
- er.encoded = 0;
-
- buf = st->buf;
- end = buf + st->size - 1; /* Last byte is special */
-
- /*
- * Binary dump
- */
- for(; buf < end; buf++) {
- int v = *buf;
- int nline = xcan?0:(((buf - st->buf) % 8) == 0);
- if(p >= scend || nline) {
- ASN__CALLBACK(scratch, p - scratch);
- p = scratch;
- if(nline) ASN__TEXT_INDENT(1, ilevel);
- }
- memcpy(p + 0, _bit_pattern[v >> 4], 4);
- memcpy(p + 4, _bit_pattern[v & 0x0f], 4);
- p += 8;
- }
-
- if(!xcan && ((buf - st->buf) % 8) == 0)
- ASN__TEXT_INDENT(1, ilevel);
- ASN__CALLBACK(scratch, p - scratch);
- p = scratch;
-
- if(buf == end) {
- int v = *buf;
- int ubits = st->bits_unused;
- int i;
- for(i = 7; i >= ubits; i--)
- *p++ = (v & (1 << i)) ? 0x31 : 0x30;
- ASN__CALLBACK(scratch, p - scratch);
- }
-
- if(!xcan) ASN__TEXT_INDENT(1, ilevel - 1);
-
- ASN__ENCODED_OK(er);
-cb_failed:
- ASN__ENCODE_FAILED;
-}
-
-
-/*
- * BIT STRING specific contents printer.
- */
-int
-BIT_STRING_print(const asn_TYPE_descriptor_t *td, const void *sptr, int ilevel,
- asn_app_consume_bytes_f *cb, void *app_key) {
- const char * const h2c = "0123456789ABCDEF";
- char scratch[64];
- const BIT_STRING_t *st = (const BIT_STRING_t *)sptr;
- uint8_t *buf;
- uint8_t *end;
- char *p = scratch;
-
- (void)td; /* Unused argument */
-
- if(!st || !st->buf)
- return (cb("<absent>", 8, app_key) < 0) ? -1 : 0;
-
- ilevel++;
- buf = st->buf;
- end = buf + st->size;
-
- /*
- * Hexadecimal dump.
- */
- for(; buf < end; buf++) {
- if((buf - st->buf) % 16 == 0 && (st->size > 16)
- && buf != st->buf) {
- _i_INDENT(1);
- /* Dump the string */
- if(cb(scratch, p - scratch, app_key) < 0) return -1;
- p = scratch;
- }
- *p++ = h2c[*buf >> 4];
- *p++ = h2c[*buf & 0x0F];
- *p++ = 0x20;
- }
-
- if(p > scratch) {
- p--; /* Eat the tailing space */
-
- if((st->size > 16)) {
- _i_INDENT(1);
- }
-
- /* Dump the incomplete 16-bytes row */
- if(cb(scratch, p - scratch, app_key) < 0)
- return -1;
- }
-
- if(st->bits_unused) {
- int ret = snprintf(scratch, sizeof(scratch), " (%d bit%s unused)",
- st->bits_unused, st->bits_unused == 1 ? "" : "s");
- assert(ret > 0 && ret < (ssize_t)sizeof(scratch));
- if(ret > 0 && ret < (ssize_t)sizeof(scratch)
- && cb(scratch, ret, app_key) < 0)
- return -1;
- }
-
- return 0;
-}
-
-/*
- * Non-destructively remove the trailing 0-bits from the given bit string.
- */
-static const BIT_STRING_t *
-BIT_STRING__compactify(const BIT_STRING_t *st, BIT_STRING_t *tmp) {
- const uint8_t *b;
- union {
- const uint8_t *c_buf;
- uint8_t *nc_buf;
- } unconst;
-
- if(st->size == 0) {
- assert(st->bits_unused == 0);
- return st;
- } else {
- for(b = &st->buf[st->size - 1]; b > st->buf && *b == 0; b--) {
- ;
- }
- /* b points to the last byte which may contain data */
- if(*b) {
- int unused = 7;
- uint8_t v = *b;
- v &= -(int8_t)v;
- if(v & 0x0F) unused -= 4;
- if(v & 0x33) unused -= 2;
- if(v & 0x55) unused -= 1;
- tmp->size = b-st->buf + 1;
- tmp->bits_unused = unused;
- } else {
- tmp->size = b-st->buf;
- tmp->bits_unused = 0;
- }
-
- assert(b >= st->buf);
- }
-
- unconst.c_buf = st->buf;
- tmp->buf = unconst.nc_buf;
- return tmp;
-}
-
-/*
- * Lexicographically compare the common prefix of both strings,
- * and if it is the same return -1 for the smallest string.
- */
-int
-BIT_STRING_compare(const asn_TYPE_descriptor_t *td, const void *aptr,
- const void *bptr) {
- /*
- * Remove information about trailing bits, since
- * X.680 (08/2015) #22.7 "ensure that different semantics are not"
- * "associated with [values that differ only in] the trailing 0 bits."
- */
- BIT_STRING_t compact_a, compact_b;
- const BIT_STRING_t *a = BIT_STRING__compactify(aptr, &compact_a);
- const BIT_STRING_t *b = BIT_STRING__compactify(bptr, &compact_b);
- const asn_OCTET_STRING_specifics_t *specs = td->specifics;
-
- assert(specs && specs->subvariant == ASN_OSUBV_BIT);
-
- if(a && b) {
- size_t common_prefix_size = a->size <= b->size ? a->size : b->size;
- int ret = memcmp(a->buf, b->buf, common_prefix_size);
- if(ret == 0) {
- /* Figure out which string with equal prefixes is longer. */
- if(a->size < b->size) {
- return -1;
- } else if(a->size > b->size) {
- return 1;
- } else {
- /* Figure out how many unused bits */
- if(a->bits_unused > b->bits_unused) {
- return -1;
- } else if(a->bits_unused < b->bits_unused) {
- return 1;
- } else {
- return 0;
- }
- }
- } else {
- return ret;
- }
- } else if(!a && !b) {
- return 0;
- } else if(!a) {
- return -1;
- } else {
- return 1;
- }
-}
-
-#ifndef ASN_DISABLE_PER_SUPPORT
-
-#undef RETURN
-#define RETURN(_code) \
- do { \
- asn_dec_rval_t tmprval; \
- tmprval.code = _code; \
- tmprval.consumed = consumed_myself; \
- return tmprval; \
- } while(0)
-
-static asn_per_constraint_t asn_DEF_BIT_STRING_constraint_size = {
- APC_SEMI_CONSTRAINED, -1, -1, 0, 0};
-
-asn_dec_rval_t
-BIT_STRING_decode_uper(const asn_codec_ctx_t *opt_codec_ctx,
- const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints, void **sptr,
- asn_per_data_t *pd) {
- const asn_OCTET_STRING_specifics_t *specs = td->specifics
- ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_BIT_STRING_specs;
- const asn_per_constraints_t *pc =
- constraints ? constraints : td->encoding_constraints.per_constraints;
- const asn_per_constraint_t *csiz;
- asn_dec_rval_t rval = { RC_OK, 0 };
- BIT_STRING_t *st = (BIT_STRING_t *)*sptr;
- ssize_t consumed_myself = 0;
- int repeat;
-
- (void)opt_codec_ctx;
-
- if(pc) {
- csiz = &pc->size;
- } else {
- csiz = &asn_DEF_BIT_STRING_constraint_size;
- }
-
- if(specs->subvariant != ASN_OSUBV_BIT) {
- ASN_DEBUG("Subvariant %d is not BIT OSUBV_BIT", specs->subvariant);
- RETURN(RC_FAIL);
- }
-
- /*
- * Allocate the string.
- */
- if(!st) {
- st = (BIT_STRING_t *)(*sptr = CALLOC(1, specs->struct_size));
- if(!st) RETURN(RC_FAIL);
- }
-
- ASN_DEBUG("PER Decoding %s size %ld .. %ld bits %d",
- csiz->flags & APC_EXTENSIBLE ? "extensible" : "non-extensible",
- csiz->lower_bound, csiz->upper_bound, csiz->effective_bits);
-
- if(csiz->flags & APC_EXTENSIBLE) {
- int inext = per_get_few_bits(pd, 1);
- if(inext < 0) RETURN(RC_WMORE);
- if(inext) {
- csiz = &asn_DEF_BIT_STRING_constraint_size;
- }
- }
-
- if(csiz->effective_bits >= 0) {
- FREEMEM(st->buf);
- st->size = (csiz->upper_bound + 7) >> 3;
- st->buf = (uint8_t *)MALLOC(st->size + 1);
- if(!st->buf) { st->size = 0; RETURN(RC_FAIL); }
- }
-
- /* X.691, #16.5: zero-length encoding */
- /* X.691, #16.6: short fixed length encoding (up to 2 octets) */
- /* X.691, #16.7: long fixed length encoding (up to 64K octets) */
- if(csiz->effective_bits == 0) {
- int ret;
- ASN_DEBUG("Encoding BIT STRING size %ld", csiz->upper_bound);
- ret = per_get_many_bits(pd, st->buf, 0, csiz->upper_bound);
- if(ret < 0) RETURN(RC_WMORE);
- consumed_myself += csiz->upper_bound;
- st->buf[st->size] = 0;
- st->bits_unused = (8 - (csiz->upper_bound & 0x7)) & 0x7;
- RETURN(RC_OK);
- }
-
- st->size = 0;
- do {
- ssize_t raw_len;
- ssize_t len_bytes;
- ssize_t len_bits;
- void *p;
- int ret;
-
- /* Get the PER length */
- raw_len = uper_get_length(pd, csiz->effective_bits, csiz->lower_bound,
- &repeat);
- if(raw_len < 0) RETURN(RC_WMORE);
- if(raw_len == 0 && st->buf) break;
-
- ASN_DEBUG("Got PER length eb %ld, len %ld, %s (%s)",
- (long)csiz->effective_bits, (long)raw_len,
- repeat ? "repeat" : "once", td->name);
- len_bits = raw_len;
- len_bytes = (len_bits + 7) >> 3;
- if(len_bits & 0x7) st->bits_unused = 8 - (len_bits & 0x7);
- /* len_bits be multiple of 16K if repeat is set */
- p = REALLOC(st->buf, st->size + len_bytes + 1);
- if(!p) RETURN(RC_FAIL);
- st->buf = (uint8_t *)p;
-
- ret = per_get_many_bits(pd, &st->buf[st->size], 0, len_bits);
- if(ret < 0) RETURN(RC_WMORE);
- st->size += len_bytes;
- } while(repeat);
- st->buf[st->size] = 0; /* nul-terminate */
-
- return rval;
-}
-
-asn_enc_rval_t
-BIT_STRING_encode_uper(const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints,
- const void *sptr, asn_per_outp_t *po) {
- const asn_OCTET_STRING_specifics_t *specs =
- td->specifics ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_BIT_STRING_specs;
- const asn_per_constraints_t *pc =
- constraints ? constraints : td->encoding_constraints.per_constraints;
- const asn_per_constraint_t *csiz;
- const BIT_STRING_t *st = (const BIT_STRING_t *)sptr;
- BIT_STRING_t compact_bstr; /* Do not modify this directly! */
- asn_enc_rval_t er = { 0, 0, 0 };
- int inext = 0; /* Lies not within extension root */
- size_t size_in_bits;
- const uint8_t *buf;
- int ret;
- int ct_extensible;
-
- if(!st || (!st->buf && st->size))
- ASN__ENCODE_FAILED;
-
- if(specs->subvariant == ASN_OSUBV_BIT) {
- if((st->size == 0 && st->bits_unused) || (st->bits_unused & ~7))
- ASN__ENCODE_FAILED;
- } else {
- ASN__ENCODE_FAILED;
- }
-
- if(pc) {
- csiz = &pc->size;
- } else {
- csiz = &asn_DEF_BIT_STRING_constraint_size;
- }
- ct_extensible = csiz->flags & APC_EXTENSIBLE;
-
- /* Figure out the size without the trailing bits */
- st = BIT_STRING__compactify(st, &compact_bstr);
- size_in_bits = 8 * st->size - st->bits_unused;
-
- ASN_DEBUG(
- "Encoding %s into %" ASN_PRI_SIZE " bits"
- " (%ld..%ld, effective %d)%s",
- td->name, size_in_bits, csiz->lower_bound, csiz->upper_bound,
- csiz->effective_bits, ct_extensible ? " EXT" : "");
-
- /* Figure out whether size lies within PER visible constraint */
-
- if(csiz->effective_bits >= 0) {
- if((ssize_t)size_in_bits > csiz->upper_bound) {
- if(ct_extensible) {
- csiz = &asn_DEF_BIT_STRING_constraint_size;
- inext = 1;
- } else {
- ASN__ENCODE_FAILED;
- }
- }
- } else {
- inext = 0;
- }
-
- if(ct_extensible) {
- /* Declare whether length is [not] within extension root */
- if(per_put_few_bits(po, inext, 1))
- ASN__ENCODE_FAILED;
- }
-
- if(csiz->effective_bits >= 0 && !inext) {
- int add_trailer = (ssize_t)size_in_bits < csiz->lower_bound;
- ASN_DEBUG(
- "Encoding %" ASN_PRI_SIZE " bytes (%ld), length (in %d bits) trailer %d; actual "
- "value %" ASN_PRI_SSIZE "",
- st->size, size_in_bits - csiz->lower_bound, csiz->effective_bits,
- add_trailer,
- add_trailer ? 0 : (ssize_t)size_in_bits - csiz->lower_bound);
- ret = per_put_few_bits(
- po, add_trailer ? 0 : (ssize_t)size_in_bits - csiz->lower_bound,
- csiz->effective_bits);
- if(ret) ASN__ENCODE_FAILED;
- ret = per_put_many_bits(po, st->buf, size_in_bits);
- if(ret) ASN__ENCODE_FAILED;
- if(add_trailer) {
- static const uint8_t zeros[16];
- size_t trailing_zero_bits = csiz->lower_bound - size_in_bits;
- while(trailing_zero_bits > 0) {
- if(trailing_zero_bits > 8 * sizeof(zeros)) {
- ret = per_put_many_bits(po, zeros, 8 * sizeof(zeros));
- trailing_zero_bits -= 8 * sizeof(zeros);
- } else {
- ret = per_put_many_bits(po, zeros, trailing_zero_bits);
- trailing_zero_bits = 0;
- }
- if(ret) ASN__ENCODE_FAILED;
- }
- }
- ASN__ENCODED_OK(er);
- }
-
- ASN_DEBUG("Encoding %" ASN_PRI_SIZE " bytes", st->size);
-
- buf = st->buf;
- do {
- int need_eom = 0;
- ssize_t maySave = uper_put_length(po, size_in_bits, &need_eom);
- if(maySave < 0) ASN__ENCODE_FAILED;
-
- ASN_DEBUG("Encoding %" ASN_PRI_SSIZE " of %" ASN_PRI_SIZE "", maySave, size_in_bits);
-
- ret = per_put_many_bits(po, buf, maySave);
- if(ret) ASN__ENCODE_FAILED;
-
- buf += maySave >> 3;
- size_in_bits -= maySave;
- assert(!(maySave & 0x07) || !size_in_bits);
- if(need_eom && uper_put_length(po, 0, 0))
- ASN__ENCODE_FAILED; /* End of Message length */
- } while(size_in_bits);
-
- ASN__ENCODED_OK(er);
-}
-
-#endif /* ASN_DISABLE_PER_SUPPORT */
-
-asn_random_fill_result_t
-BIT_STRING_random_fill(const asn_TYPE_descriptor_t *td, void **sptr,
- const asn_encoding_constraints_t *constraints,
- size_t max_length) {
- const asn_OCTET_STRING_specifics_t *specs =
- td->specifics ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_BIT_STRING_specs;
- asn_random_fill_result_t result_ok = {ARFILL_OK, 1};
- asn_random_fill_result_t result_failed = {ARFILL_FAILED, 0};
- asn_random_fill_result_t result_skipped = {ARFILL_SKIPPED, 0};
- static unsigned lengths[] = {0, 1, 2, 3, 4, 8,
- 126, 127, 128, 16383, 16384, 16385,
- 65534, 65535, 65536, 65537};
- uint8_t *buf;
- uint8_t *bend;
- uint8_t *b;
- size_t rnd_bits, rnd_len;
- BIT_STRING_t *st;
-
- if(max_length == 0) return result_skipped;
-
- switch(specs->subvariant) {
- case ASN_OSUBV_ANY:
- return result_failed;
- case ASN_OSUBV_BIT:
- break;
- default:
- break;
- }
-
- /* Figure out how far we should go */
- rnd_bits = lengths[asn_random_between(
- 0, sizeof(lengths) / sizeof(lengths[0]) - 1)];
- if(!constraints || !constraints->per_constraints)
- constraints = &td->encoding_constraints;
- if(constraints->per_constraints) {
- const asn_per_constraint_t *pc = &constraints->per_constraints->size;
- if(pc->flags & APC_CONSTRAINED) {
- long suggested_upper_bound = pc->upper_bound < (ssize_t)max_length
- ? pc->upper_bound
- : (ssize_t)max_length;
- if(max_length < (size_t)pc->lower_bound) {
- return result_skipped;
- }
- if(pc->flags & APC_EXTENSIBLE) {
- switch(asn_random_between(0, 5)) {
- case 0:
- if(pc->lower_bound > 0) {
- rnd_bits = pc->lower_bound - 1;
- break;
- }
- /* Fall through */
- case 1:
- rnd_bits = pc->upper_bound + 1;
- break;
- case 2:
- /* Keep rnd_bits from the table */
- if(rnd_bits < max_length) {
- break;
- }
- /* Fall through */
- default:
- rnd_bits = asn_random_between(pc->lower_bound,
- suggested_upper_bound);
- }
- } else {
- rnd_bits =
- asn_random_between(pc->lower_bound, suggested_upper_bound);
- }
- } else {
- rnd_bits = asn_random_between(0, max_length - 1);
- }
- } else if(rnd_bits >= max_length) {
- rnd_bits = asn_random_between(0, max_length - 1);
- }
-
- rnd_len = (rnd_bits + 7) / 8;
- buf = CALLOC(1, rnd_len + 1);
- if(!buf) return result_failed;
-
- bend = &buf[rnd_len];
-
- for(b = buf; b < bend; b++) {
- *(uint8_t *)b = asn_random_between(0, 255);
- }
- *b = 0; /* Zero-terminate just in case. */
-
- if(*sptr) {
- st = *sptr;
- FREEMEM(st->buf);
- } else {
- st = (BIT_STRING_t *)(*sptr = CALLOC(1, specs->struct_size));
- if(!st) {
- FREEMEM(buf);
- return result_failed;
- }
- }
-
- st->buf = buf;
- st->size = rnd_len;
- st->bits_unused = (8 - (rnd_bits & 0x7)) & 0x7;
- if(st->bits_unused) {
- assert(st->size > 0);
- st->buf[st->size-1] &= 0xff << st->bits_unused;
- }
-
- result_ok.length = st->size;
- return result_ok;
-}
+++ /dev/null
-/*-
- * Copyright (c) 2003-2017 Lev Walkin <vlm@lionet.info>. All rights reserved.
- * Redistribution and modifications are permitted subject to BSD license.
- */
-#ifndef _BIT_STRING_H_
-#define _BIT_STRING_H_
-
-#include <OCTET_STRING.h> /* Some help from OCTET STRING */
-
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-typedef struct BIT_STRING_s {
- uint8_t *buf; /* BIT STRING body */
- size_t size; /* Size of the above buffer */
-
- int bits_unused;/* Unused trailing bits in the last octet (0..7) */
-
- asn_struct_ctx_t _asn_ctx; /* Parsing across buffer boundaries */
-} BIT_STRING_t;
-
-extern asn_TYPE_descriptor_t asn_DEF_BIT_STRING;
-extern asn_TYPE_operation_t asn_OP_BIT_STRING;
-extern asn_OCTET_STRING_specifics_t asn_SPC_BIT_STRING_specs;
-
-asn_struct_print_f BIT_STRING_print; /* Human-readable output */
-asn_struct_compare_f BIT_STRING_compare;
-asn_constr_check_f BIT_STRING_constraint;
-xer_type_encoder_f BIT_STRING_encode_xer;
-oer_type_decoder_f BIT_STRING_decode_oer;
-oer_type_encoder_f BIT_STRING_encode_oer;
-per_type_decoder_f BIT_STRING_decode_uper;
-per_type_encoder_f BIT_STRING_encode_uper;
-asn_random_fill_f BIT_STRING_random_fill;
-
-#define BIT_STRING_free OCTET_STRING_free
-#define BIT_STRING_decode_ber OCTET_STRING_decode_ber
-#define BIT_STRING_encode_der OCTET_STRING_encode_der
-#define BIT_STRING_decode_xer OCTET_STRING_decode_xer_binary
-#define BIT_STRING_decode_aper OCTET_STRING_decode_aper
-#define BIT_STRING_encode_aper OCTET_STRING_encode_aper
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif /* _BIT_STRING_H_ */
+++ /dev/null
-/*
- * Copyright (c) 2017 Lev Walkin <vlm@lionet.info>.
- * All rights reserved.
- * Redistribution and modifications are permitted subject to BSD license.
- */
-#ifndef ASN_DISABLE_OER_SUPPORT
-
-#include <asn_internal.h>
-#include <BIT_STRING.h>
-#include <errno.h>
-
-asn_dec_rval_t
-BIT_STRING_decode_oer(const asn_codec_ctx_t *opt_codec_ctx,
- const asn_TYPE_descriptor_t *td,
- const asn_oer_constraints_t *constraints, void **sptr,
- const void *ptr, size_t size) {
- BIT_STRING_t *st = (BIT_STRING_t *)*sptr;
- const asn_oer_constraints_t *cts =
- constraints ? constraints : td->encoding_constraints.oer_constraints;
- ssize_t ct_size = cts ? cts->size : -1;
- asn_dec_rval_t rval = {RC_OK, 0};
- size_t expected_length = 0;
-
- (void)opt_codec_ctx;
-
- if(!st) {
- st = (BIT_STRING_t *)(*sptr = CALLOC(1, sizeof(*st)));
- if(!st) ASN__DECODE_FAILED;
- }
-
- if(ct_size >= 0) {
- expected_length = (ct_size + 7) >> 3;
- st->bits_unused = (8 - (ct_size & 7)) & 7;
- } else {
- /*
- * X.696 (08/2015) #13.3.1
- * Encode length determinant as _number of octets_, but only
- * if upper bound is not equal to lower bound.
- */
- ssize_t len_len = oer_fetch_length(ptr, size, &expected_length);
- if(len_len > 0) {
- ptr = (const char *)ptr + len_len;
- size -= len_len;
- } else if(len_len == 0) {
- ASN__DECODE_STARVED;
- } else if(len_len < 0) {
- ASN__DECODE_FAILED;
- }
-
- if(expected_length < 1) {
- ASN__DECODE_FAILED;
- } else if(expected_length > size) {
- ASN__DECODE_STARVED;
- }
-
- st->bits_unused = ((const uint8_t *)ptr)[0];
- if(st->bits_unused & ~7) {
- ASN_DEBUG("%s: unused bits outside of 0..7 range", td->name);
- ASN__DECODE_FAILED;
- }
- ptr = (const char *)ptr + 1;
- size--;
- expected_length--;
- rval.consumed = len_len + 1;
- }
-
- if(size < expected_length) {
- ASN__DECODE_STARVED;
- } else {
- uint8_t *buf = MALLOC(expected_length + 1);
- if(buf == NULL) {
- ASN__DECODE_FAILED;
- } else {
- memcpy(buf, ptr, expected_length);
- buf[expected_length] = '\0';
- }
- FREEMEM(st->buf);
- st->buf = buf;
- st->size = expected_length;
- if(expected_length > 0) {
- buf[expected_length - 1] &= (0xff << st->bits_unused);
- }
-
- rval.consumed += expected_length;
- return rval;
- }
-}
-
-/*
- * Encode as Canonical OER.
- */
-asn_enc_rval_t
-BIT_STRING_encode_oer(const asn_TYPE_descriptor_t *td,
- const asn_oer_constraints_t *constraints,
- const void *sptr, asn_app_consume_bytes_f *cb,
- void *app_key) {
- const BIT_STRING_t *st = (const BIT_STRING_t *)sptr;
- asn_enc_rval_t erval = {0, 0, 0};
- const asn_oer_constraints_t *cts =
- constraints ? constraints : td->encoding_constraints.oer_constraints;
- ssize_t ct_size = cts ? cts->size : -1;
- size_t trailing_zeros = 0;
- int fix_last_byte = 0;
-
- if(!st) ASN__ENCODE_FAILED;
-
- if(st->bits_unused & ~7) {
- ASN_DEBUG("BIT STRING unused bits %d out of 0..7 range",
- st->bits_unused);
- ASN__ENCODE_FAILED;
- }
- if(st->bits_unused && !(st->size && st->buf)) {
- ASN_DEBUG("BIT STRING %s size 0 can't support unused bits %d", td->name,
- st->bits_unused);
- ASN__ENCODE_FAILED;
- }
-
- if(ct_size >= 0) {
- size_t ct_bytes = (ct_size + 7) >> 3;
- if(st->size > ct_bytes) {
- ASN_DEBUG("More bits in BIT STRING %s (%" ASN_PRI_SSIZE ") than constrained %" ASN_PRI_SSIZE "",
- td->name, 8 * st->size - st->bits_unused, ct_size);
- ASN__ENCODE_FAILED;
- }
- trailing_zeros = ct_bytes - st->size; /* Allow larger constraint */
- } else {
- uint8_t ub = st->bits_unused & 7;
- ssize_t len_len = oer_serialize_length(1 + st->size, cb, app_key);
- if(len_len < 0) ASN__ENCODE_FAILED;
- if(cb(&ub, 1, app_key) < 0) {
- ASN__ENCODE_FAILED;
- }
- erval.encoded += len_len + 1;
- }
-
- if(st->bits_unused) {
- if(st->buf[st->size - 1] & (0xff << st->bits_unused)) {
- fix_last_byte = 1;
- }
- }
-
- if(cb(st->buf, st->size - fix_last_byte, app_key) < 0) {
- ASN__ENCODE_FAILED;
- }
-
- if(fix_last_byte) {
- uint8_t b = st->buf[st->size - 1] & (0xff << st->bits_unused);
- if(cb(&b, 1, app_key) < 0) {
- ASN__ENCODE_FAILED;
- }
- }
-
- erval.encoded += st->size;
-
- if(trailing_zeros) {
- static uint8_t zeros[16];
- while(trailing_zeros > 0) {
- int ret;
- if(trailing_zeros < sizeof(zeros)) {
- ret = cb(zeros, trailing_zeros, app_key);
- erval.encoded += trailing_zeros;
- } else {
- ret = cb(zeros, sizeof(zeros), app_key);
- erval.encoded += sizeof(zeros);
- }
- if(ret < 0) ASN__ENCODE_FAILED;
- }
- }
-
- return erval;
-}
-
-
-#endif /* ASN_DISABLE_OER_SUPPORT */
+++ /dev/null
-/*-
- * Copyright (c) 2003-2017 Lev Walkin <vlm@lionet.info>.
- * All rights reserved.
- * Redistribution and modifications are permitted subject to BSD license.
- */
-#include <asn_internal.h>
-#include <OCTET_STRING.h>
-#include <BIT_STRING.h> /* for .bits_unused member */
-#include <errno.h>
-
-/*
- * OCTET STRING basic type description.
- */
-static const ber_tlv_tag_t asn_DEF_OCTET_STRING_tags[] = {
- (ASN_TAG_CLASS_UNIVERSAL | (4 << 2))
-};
-asn_OCTET_STRING_specifics_t asn_SPC_OCTET_STRING_specs = {
- sizeof(OCTET_STRING_t),
- offsetof(OCTET_STRING_t, _asn_ctx),
- ASN_OSUBV_STR
-};
-
-asn_TYPE_operation_t asn_OP_OCTET_STRING = {
- OCTET_STRING_free,
- OCTET_STRING_print, /* OCTET STRING generally means a non-ascii sequence */
- OCTET_STRING_compare,
- OCTET_STRING_decode_ber,
- OCTET_STRING_encode_der,
- OCTET_STRING_decode_xer_hex,
- OCTET_STRING_encode_xer,
-#ifdef ASN_DISABLE_OER_SUPPORT
- 0,
- 0,
-#else
- OCTET_STRING_decode_oer,
- OCTET_STRING_encode_oer,
-#endif /* ASN_DISABLE_OER_SUPPORT */
-#ifdef ASN_DISABLE_PER_SUPPORT
- 0,
- 0,
- 0,
- 0,
-#else
- OCTET_STRING_decode_uper, /* Unaligned PER decoder */
- OCTET_STRING_encode_uper, /* Unaligned PER encoder */
- OCTET_STRING_decode_aper, /* Aligned PER decoder */
- OCTET_STRING_encode_aper, /* Aligned PER encoder */
-#endif /* ASN_DISABLE_PER_SUPPORT */
- OCTET_STRING_random_fill,
- 0 /* Use generic outmost tag fetcher */
-};
-asn_TYPE_descriptor_t asn_DEF_OCTET_STRING = {
- "OCTET STRING", /* Canonical name */
- "OCTET_STRING", /* XML tag name */
- &asn_OP_OCTET_STRING,
- asn_DEF_OCTET_STRING_tags,
- sizeof(asn_DEF_OCTET_STRING_tags)
- / sizeof(asn_DEF_OCTET_STRING_tags[0]),
- asn_DEF_OCTET_STRING_tags, /* Same as above */
- sizeof(asn_DEF_OCTET_STRING_tags)
- / sizeof(asn_DEF_OCTET_STRING_tags[0]),
- { 0, 0, asn_generic_no_constraint },
- 0, 0, /* No members */
- &asn_SPC_OCTET_STRING_specs
-};
-
-#undef _CH_PHASE
-#undef NEXT_PHASE
-#undef PREV_PHASE
-#define _CH_PHASE(ctx, inc) do { \
- if(ctx->phase == 0) \
- ctx->context = 0; \
- ctx->phase += inc; \
- } while(0)
-#define NEXT_PHASE(ctx) _CH_PHASE(ctx, +1)
-#define PREV_PHASE(ctx) _CH_PHASE(ctx, -1)
-
-#undef ADVANCE
-#define ADVANCE(num_bytes) do { \
- size_t num = (num_bytes); \
- buf_ptr = ((const char *)buf_ptr) + num; \
- size -= num; \
- consumed_myself += num; \
- } while(0)
-
-#undef RETURN
-#define RETURN(_code) do { \
- asn_dec_rval_t tmprval; \
- tmprval.code = _code; \
- tmprval.consumed = consumed_myself; \
- return tmprval; \
- } while(0)
-
-#undef APPEND
-#define APPEND(bufptr, bufsize) do { \
- size_t _bs = (bufsize); /* Append size */ \
- size_t _ns = ctx->context; /* Allocated now */ \
- size_t _es = st->size + _bs; /* Expected size */ \
- /* int is really a typeof(st->size): */ \
- if((int)_es < 0) RETURN(RC_FAIL); \
- if(_ns <= _es) { \
- void *ptr; \
- /* Be nice and round to the memory allocator */ \
- do { _ns = _ns ? _ns << 1 : 16; } \
- while(_ns <= _es); \
- /* int is really a typeof(st->size): */ \
- if((int)_ns < 0) RETURN(RC_FAIL); \
- ptr = REALLOC(st->buf, _ns); \
- if(ptr) { \
- st->buf = (uint8_t *)ptr; \
- ctx->context = _ns; \
- } else { \
- RETURN(RC_FAIL); \
- } \
- ASN_DEBUG("Reallocating into %ld", (long)_ns); \
- } \
- memcpy(st->buf + st->size, bufptr, _bs); \
- /* Convenient nul-termination */ \
- st->buf[_es] = '\0'; \
- st->size = _es; \
- } while(0)
-
-/*
- * The main reason why ASN.1 is still alive is that too much time and effort
- * is necessary for learning it more or less adequately, thus creating a gut
- * necessity to demonstrate that aquired skill everywhere afterwards.
- * No, I am not going to explain what the following stuff is.
- */
-struct _stack_el {
- ber_tlv_len_t left; /* What's left to read (or -1) */
- ber_tlv_len_t got; /* What was actually processed */
- unsigned cont_level; /* Depth of subcontainment */
- int want_nulls; /* Want null "end of content" octets? */
- int bits_chopped; /* Flag in BIT STRING mode */
- ber_tlv_tag_t tag; /* For debugging purposes */
- struct _stack_el *prev;
- struct _stack_el *next;
-};
-struct _stack {
- struct _stack_el *tail;
- struct _stack_el *cur_ptr;
-};
-
-static struct _stack_el *
-OS__add_stack_el(struct _stack *st) {
- struct _stack_el *nel;
-
- /*
- * Reuse the old stack frame or allocate a new one.
- */
- if(st->cur_ptr && st->cur_ptr->next) {
- nel = st->cur_ptr->next;
- nel->bits_chopped = 0;
- nel->got = 0;
- /* Retain the nel->cont_level, it's correct. */
- } else {
- nel = (struct _stack_el *)CALLOC(1, sizeof(struct _stack_el));
- if(nel == NULL)
- return NULL;
-
- if(st->tail) {
- /* Increase a subcontainment depth */
- nel->cont_level = st->tail->cont_level + 1;
- st->tail->next = nel;
- }
- nel->prev = st->tail;
- st->tail = nel;
- }
-
- st->cur_ptr = nel;
-
- return nel;
-}
-
-static struct _stack *
-_new_stack(void) {
- return (struct _stack *)CALLOC(1, sizeof(struct _stack));
-}
-
-/*
- * Decode OCTET STRING type.
- */
-asn_dec_rval_t
-OCTET_STRING_decode_ber(const asn_codec_ctx_t *opt_codec_ctx,
- const asn_TYPE_descriptor_t *td, void **sptr,
- const void *buf_ptr, size_t size, int tag_mode) {
- const asn_OCTET_STRING_specifics_t *specs = td->specifics
- ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_OCTET_STRING_specs;
- BIT_STRING_t *st = (BIT_STRING_t *)*sptr;
- asn_dec_rval_t rval;
- asn_struct_ctx_t *ctx;
- ssize_t consumed_myself = 0;
- struct _stack *stck; /* Expectations stack structure */
- struct _stack_el *sel = 0; /* Stack element */
- int tlv_constr;
- enum asn_OS_Subvariant type_variant = specs->subvariant;
-
- ASN_DEBUG("Decoding %s as %s (frame %ld)",
- td->name,
- (type_variant == ASN_OSUBV_STR) ?
- "OCTET STRING" : "OS-SpecialCase",
- (long)size);
-
- /*
- * Create the string if does not exist.
- */
- if(st == NULL) {
- st = (BIT_STRING_t *)(*sptr = CALLOC(1, specs->struct_size));
- if(st == NULL) RETURN(RC_FAIL);
- }
-
- /* Restore parsing context */
- ctx = (asn_struct_ctx_t *)((char *)st + specs->ctx_offset);
-
- switch(ctx->phase) {
- case 0:
- /*
- * Check tags.
- */
- rval = ber_check_tags(opt_codec_ctx, td, ctx,
- buf_ptr, size, tag_mode, -1,
- &ctx->left, &tlv_constr);
- if(rval.code != RC_OK)
- return rval;
-
- if(tlv_constr) {
- /*
- * Complex operation, requires stack of expectations.
- */
- ctx->ptr = _new_stack();
- if(!ctx->ptr) {
- RETURN(RC_FAIL);
- }
- } else {
- /*
- * Jump into stackless primitive decoding.
- */
- _CH_PHASE(ctx, 3);
- if(type_variant == ASN_OSUBV_ANY && tag_mode != 1)
- APPEND(buf_ptr, rval.consumed);
- ADVANCE(rval.consumed);
- goto phase3;
- }
-
- NEXT_PHASE(ctx);
- /* Fall through */
- case 1:
- phase1:
- /*
- * Fill the stack with expectations.
- */
- stck = (struct _stack *)ctx->ptr;
- sel = stck->cur_ptr;
- do {
- ber_tlv_tag_t tlv_tag;
- ber_tlv_len_t tlv_len;
- ber_tlv_tag_t expected_tag;
- ssize_t tl, ll, tlvl;
- /* This one works even if (sel->left == -1) */
- size_t Left = ((!sel||(size_t)sel->left >= size)
- ?size:(size_t)sel->left);
-
-
- ASN_DEBUG("%p, s->l=%ld, s->wn=%ld, s->g=%ld\n", (void *)sel,
- (long)(sel?sel->left:0),
- (long)(sel?sel->want_nulls:0),
- (long)(sel?sel->got:0)
- );
- if(sel && sel->left <= 0 && sel->want_nulls == 0) {
- if(sel->prev) {
- struct _stack_el *prev = sel->prev;
- if(prev->left != -1) {
- if(prev->left < sel->got)
- RETURN(RC_FAIL);
- prev->left -= sel->got;
- }
- prev->got += sel->got;
- sel = stck->cur_ptr = prev;
- if(!sel) break;
- tlv_constr = 1;
- continue;
- } else {
- sel = stck->cur_ptr = 0;
- break; /* Nothing to wait */
- }
- }
-
- tl = ber_fetch_tag(buf_ptr, Left, &tlv_tag);
- ASN_DEBUG("fetch tag(size=%ld,L=%ld), %sstack, left=%ld, wn=%ld, tl=%ld",
- (long)size, (long)Left, sel?"":"!",
- (long)(sel?sel->left:0),
- (long)(sel?sel->want_nulls:0),
- (long)tl);
- switch(tl) {
- case -1: RETURN(RC_FAIL);
- case 0: RETURN(RC_WMORE);
- }
-
- tlv_constr = BER_TLV_CONSTRUCTED(buf_ptr);
-
- ll = ber_fetch_length(tlv_constr,
- (const char *)buf_ptr + tl,Left - tl,&tlv_len);
- ASN_DEBUG("Got tag=%s, tc=%d, left=%ld, tl=%ld, len=%ld, ll=%ld",
- ber_tlv_tag_string(tlv_tag), tlv_constr,
- (long)Left, (long)tl, (long)tlv_len, (long)ll);
- switch(ll) {
- case -1: RETURN(RC_FAIL);
- case 0: RETURN(RC_WMORE);
- }
-
- if(sel && sel->want_nulls
- && ((const uint8_t *)buf_ptr)[0] == 0
- && ((const uint8_t *)buf_ptr)[1] == 0)
- {
-
- ASN_DEBUG("Eat EOC; wn=%d--", sel->want_nulls);
-
- if(type_variant == ASN_OSUBV_ANY
- && (tag_mode != 1 || sel->cont_level))
- APPEND("\0\0", 2);
-
- ADVANCE(2);
- sel->got += 2;
- if(sel->left != -1) {
- sel->left -= 2; /* assert(sel->left >= 2) */
- }
-
- sel->want_nulls--;
- if(sel->want_nulls == 0) {
- /* Move to the next expectation */
- sel->left = 0;
- tlv_constr = 1;
- }
-
- continue;
- }
-
- /*
- * Set up expected tags,
- * depending on ASN.1 type being decoded.
- */
- switch(type_variant) {
- case ASN_OSUBV_BIT:
- /* X.690: 8.6.4.1, NOTE 2 */
- /* Fall through */
- case ASN_OSUBV_STR:
- default:
- if(sel) {
- unsigned level = sel->cont_level;
- if(level < td->all_tags_count) {
- expected_tag = td->all_tags[level];
- break;
- } else if(td->all_tags_count) {
- expected_tag = td->all_tags
- [td->all_tags_count - 1];
- break;
- }
- /* else, Fall through */
- }
- /* Fall through */
- case ASN_OSUBV_ANY:
- expected_tag = tlv_tag;
- break;
- }
-
-
- if(tlv_tag != expected_tag) {
- char buf[2][32];
- ber_tlv_tag_snprint(tlv_tag,
- buf[0], sizeof(buf[0]));
- ber_tlv_tag_snprint(td->tags[td->tags_count-1],
- buf[1], sizeof(buf[1]));
- ASN_DEBUG("Tag does not match expectation: %s != %s",
- buf[0], buf[1]);
- RETURN(RC_FAIL);
- }
-
- tlvl = tl + ll; /* Combined length of T and L encoding */
- if((tlv_len + tlvl) < 0) {
- /* tlv_len value is too big */
- ASN_DEBUG("TLV encoding + length (%ld) is too big",
- (long)tlv_len);
- RETURN(RC_FAIL);
- }
-
- /*
- * Append a new expectation.
- */
- sel = OS__add_stack_el(stck);
- if(!sel) RETURN(RC_FAIL);
-
- sel->tag = tlv_tag;
-
- sel->want_nulls = (tlv_len==-1);
- if(sel->prev && sel->prev->left != -1) {
- /* Check that the parent frame is big enough */
- if(sel->prev->left < tlvl + (tlv_len==-1?0:tlv_len))
- RETURN(RC_FAIL);
- if(tlv_len == -1)
- sel->left = sel->prev->left - tlvl;
- else
- sel->left = tlv_len;
- } else {
- sel->left = tlv_len;
- }
- if(type_variant == ASN_OSUBV_ANY
- && (tag_mode != 1 || sel->cont_level))
- APPEND(buf_ptr, tlvl);
- sel->got += tlvl;
- ADVANCE(tlvl);
-
- ASN_DEBUG("+EXPECT2 got=%ld left=%ld, wn=%d, clvl=%u",
- (long)sel->got, (long)sel->left,
- sel->want_nulls, sel->cont_level);
-
- } while(tlv_constr);
- if(sel == NULL) {
- /* Finished operation, "phase out" */
- ASN_DEBUG("Phase out");
- _CH_PHASE(ctx, +3);
- break;
- }
-
- NEXT_PHASE(ctx);
- /* Fall through */
- case 2:
- stck = (struct _stack *)ctx->ptr;
- sel = stck->cur_ptr;
- ASN_DEBUG("Phase 2: Need %ld bytes, size=%ld, alrg=%ld, wn=%d",
- (long)sel->left, (long)size, (long)sel->got,
- sel->want_nulls);
- {
- ber_tlv_len_t len;
-
- assert(sel->left >= 0);
-
- len = ((ber_tlv_len_t)size < sel->left)
- ? (ber_tlv_len_t)size : sel->left;
- if(len > 0) {
- if(type_variant == ASN_OSUBV_BIT
- && sel->bits_chopped == 0) {
- /* Put the unused-bits-octet away */
- st->bits_unused = *(const uint8_t *)buf_ptr;
- APPEND(((const char *)buf_ptr+1), (len - 1));
- sel->bits_chopped = 1;
- } else {
- APPEND(buf_ptr, len);
- }
- ADVANCE(len);
- sel->left -= len;
- sel->got += len;
- }
-
- if(sel->left) {
- ASN_DEBUG("OS left %ld, size = %ld, wn=%d\n",
- (long)sel->left, (long)size, sel->want_nulls);
- RETURN(RC_WMORE);
- }
-
- PREV_PHASE(ctx);
- goto phase1;
- }
- break;
- case 3:
- phase3:
- /*
- * Primitive form, no stack required.
- */
- assert(ctx->left >= 0);
-
- if(size < (size_t)ctx->left) {
- if(!size) RETURN(RC_WMORE);
- if(type_variant == ASN_OSUBV_BIT && !ctx->context) {
- st->bits_unused = *(const uint8_t *)buf_ptr;
- ctx->left--;
- ADVANCE(1);
- }
- APPEND(buf_ptr, size);
- assert(ctx->context > 0);
- ctx->left -= size;
- ADVANCE(size);
- RETURN(RC_WMORE);
- } else {
- if(type_variant == ASN_OSUBV_BIT
- && !ctx->context && ctx->left) {
- st->bits_unused = *(const uint8_t *)buf_ptr;
- ctx->left--;
- ADVANCE(1);
- }
- APPEND(buf_ptr, ctx->left);
- ADVANCE(ctx->left);
- ctx->left = 0;
-
- NEXT_PHASE(ctx);
- }
- break;
- }
-
- if(sel) {
- ASN_DEBUG("3sel p=%p, wn=%d, l=%ld, g=%ld, size=%ld",
- (void *)sel->prev, sel->want_nulls,
- (long)sel->left, (long)sel->got, (long)size);
- if(sel->prev || sel->want_nulls > 1 || sel->left > 0) {
- RETURN(RC_WMORE);
- }
- }
-
- /*
- * BIT STRING-specific processing.
- */
- if(type_variant == ASN_OSUBV_BIT) {
- if(st->size) {
- if(st->bits_unused < 0 || st->bits_unused > 7) {
- RETURN(RC_FAIL);
- }
- /* Finalize BIT STRING: zero out unused bits. */
- st->buf[st->size-1] &= 0xff << st->bits_unused;
- } else {
- if(st->bits_unused) {
- RETURN(RC_FAIL);
- }
- }
- }
-
- ASN_DEBUG("Took %ld bytes to encode %s: [%s]:%ld",
- (long)consumed_myself, td->name,
- (type_variant == ASN_OSUBV_STR) ? (char *)st->buf : "<data>",
- (long)st->size);
-
-
- RETURN(RC_OK);
-}
-
-/*
- * Encode OCTET STRING type using DER.
- */
-asn_enc_rval_t
-OCTET_STRING_encode_der(const asn_TYPE_descriptor_t *td, const void *sptr,
- int tag_mode, ber_tlv_tag_t tag,
- asn_app_consume_bytes_f *cb, void *app_key) {
- asn_enc_rval_t er = { 0, 0, 0 };
- const asn_OCTET_STRING_specifics_t *specs = td->specifics
- ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_OCTET_STRING_specs;
- const BIT_STRING_t *st = (const BIT_STRING_t *)sptr;
- enum asn_OS_Subvariant type_variant = specs->subvariant;
- int fix_last_byte = 0;
-
- ASN_DEBUG("%s %s as OCTET STRING",
- cb?"Estimating":"Encoding", td->name);
-
- /*
- * Write tags.
- */
- if(type_variant != ASN_OSUBV_ANY || tag_mode == 1) {
- er.encoded = der_write_tags(td,
- (type_variant == ASN_OSUBV_BIT) + st->size,
- tag_mode, type_variant == ASN_OSUBV_ANY, tag,
- cb, app_key);
- if(er.encoded == -1) {
- er.failed_type = td;
- er.structure_ptr = sptr;
- return er;
- }
- } else {
- /* Disallow: [<tag>] IMPLICIT ANY */
- assert(type_variant != ASN_OSUBV_ANY || tag_mode != -1);
- er.encoded = 0;
- }
-
- if(!cb) {
- er.encoded += (type_variant == ASN_OSUBV_BIT) + st->size;
- ASN__ENCODED_OK(er);
- }
-
- /*
- * Prepare to deal with the last octet of BIT STRING.
- */
- if(type_variant == ASN_OSUBV_BIT) {
- uint8_t b = st->bits_unused & 0x07;
- if(b && st->size) fix_last_byte = 1;
- ASN__CALLBACK(&b, 1);
- }
-
- /* Invoke callback for the main part of the buffer */
- ASN__CALLBACK(st->buf, st->size - fix_last_byte);
-
- /* The last octet should be stripped off the unused bits */
- if(fix_last_byte) {
- uint8_t b = st->buf[st->size-1] & (0xff << st->bits_unused);
- ASN__CALLBACK(&b, 1);
- }
-
- ASN__ENCODED_OK(er);
-cb_failed:
- ASN__ENCODE_FAILED;
-}
-
-asn_enc_rval_t
-OCTET_STRING_encode_xer(const asn_TYPE_descriptor_t *td, const void *sptr,
- int ilevel, enum xer_encoder_flags_e flags,
- asn_app_consume_bytes_f *cb, void *app_key) {
- const char * const h2c = "0123456789ABCDEF";
- const OCTET_STRING_t *st = (const OCTET_STRING_t *)sptr;
- asn_enc_rval_t er = { 0, 0, 0 };
- char scratch[16 * 3 + 4];
- char *p = scratch;
- uint8_t *buf;
- uint8_t *end;
- size_t i;
-
- if(!st || (!st->buf && st->size))
- ASN__ENCODE_FAILED;
-
- er.encoded = 0;
-
- /*
- * Dump the contents of the buffer in hexadecimal.
- */
- buf = st->buf;
- end = buf + st->size;
- if(flags & XER_F_CANONICAL) {
- char *scend = scratch + (sizeof(scratch) - 2);
- for(; buf < end; buf++) {
- if(p >= scend) {
- ASN__CALLBACK(scratch, p - scratch);
- p = scratch;
- }
- *p++ = h2c[(*buf >> 4) & 0x0F];
- *p++ = h2c[*buf & 0x0F];
- }
-
- ASN__CALLBACK(scratch, p-scratch); /* Dump the rest */
- } else {
- for(i = 0; buf < end; buf++, i++) {
- if(!(i % 16) && (i || st->size > 16)) {
- ASN__CALLBACK(scratch, p-scratch);
- p = scratch;
- ASN__TEXT_INDENT(1, ilevel);
- }
- *p++ = h2c[(*buf >> 4) & 0x0F];
- *p++ = h2c[*buf & 0x0F];
- *p++ = 0x20;
- }
- if(p - scratch) {
- p--; /* Remove the tail space */
- ASN__CALLBACK(scratch, p-scratch); /* Dump the rest */
- if(st->size > 16)
- ASN__TEXT_INDENT(1, ilevel-1);
- }
- }
-
- ASN__ENCODED_OK(er);
-cb_failed:
- ASN__ENCODE_FAILED;
-}
-
-static const struct OCTET_STRING__xer_escape_table_s {
- const char *string;
- int size;
-} OCTET_STRING__xer_escape_table[] = {
-#define OSXET(s) { s, sizeof(s) - 1 }
- OSXET("\074\156\165\154\057\076"), /* <nul/> */
- OSXET("\074\163\157\150\057\076"), /* <soh/> */
- OSXET("\074\163\164\170\057\076"), /* <stx/> */
- OSXET("\074\145\164\170\057\076"), /* <etx/> */
- OSXET("\074\145\157\164\057\076"), /* <eot/> */
- OSXET("\074\145\156\161\057\076"), /* <enq/> */
- OSXET("\074\141\143\153\057\076"), /* <ack/> */
- OSXET("\074\142\145\154\057\076"), /* <bel/> */
- OSXET("\074\142\163\057\076"), /* <bs/> */
- OSXET("\011"), /* \t */
- OSXET("\012"), /* \n */
- OSXET("\074\166\164\057\076"), /* <vt/> */
- OSXET("\074\146\146\057\076"), /* <ff/> */
- OSXET("\015"), /* \r */
- OSXET("\074\163\157\057\076"), /* <so/> */
- OSXET("\074\163\151\057\076"), /* <si/> */
- OSXET("\074\144\154\145\057\076"), /* <dle/> */
- OSXET("\074\144\143\061\057\076"), /* <de1/> */
- OSXET("\074\144\143\062\057\076"), /* <de2/> */
- OSXET("\074\144\143\063\057\076"), /* <de3/> */
- OSXET("\074\144\143\064\057\076"), /* <de4/> */
- OSXET("\074\156\141\153\057\076"), /* <nak/> */
- OSXET("\074\163\171\156\057\076"), /* <syn/> */
- OSXET("\074\145\164\142\057\076"), /* <etb/> */
- OSXET("\074\143\141\156\057\076"), /* <can/> */
- OSXET("\074\145\155\057\076"), /* <em/> */
- OSXET("\074\163\165\142\057\076"), /* <sub/> */
- OSXET("\074\145\163\143\057\076"), /* <esc/> */
- OSXET("\074\151\163\064\057\076"), /* <is4/> */
- OSXET("\074\151\163\063\057\076"), /* <is3/> */
- OSXET("\074\151\163\062\057\076"), /* <is2/> */
- OSXET("\074\151\163\061\057\076"), /* <is1/> */
- { 0, 0 }, /* " " */
- { 0, 0 }, /* ! */
- { 0, 0 }, /* \" */
- { 0, 0 }, /* # */
- { 0, 0 }, /* $ */
- { 0, 0 }, /* % */
- OSXET("\046\141\155\160\073"), /* & */
- { 0, 0 }, /* ' */
- {0,0},{0,0},{0,0},{0,0},{0,0},{0,0},{0,0},{0,0}, /* ()*+,-./ */
- {0,0},{0,0},{0,0},{0,0},{0,0},{0,0},{0,0},{0,0}, /* 01234567 */
- {0,0},{0,0},{0,0},{0,0}, /* 89:; */
- OSXET("\046\154\164\073"), /* < */
- { 0, 0 }, /* = */
- OSXET("\046\147\164\073"), /* > */
-};
-
-static int
-OS__check_escaped_control_char(const void *buf, int size) {
- size_t i;
- /*
- * Inefficient algorithm which translates the escape sequences
- * defined above into characters. Returns -1 if not found.
- * TODO: replace by a faster algorithm (bsearch(), hash or
- * nested table lookups).
- */
- for(i = 0; i < 32 /* Don't spend time on the bottom half */; i++) {
- const struct OCTET_STRING__xer_escape_table_s *el;
- el = &OCTET_STRING__xer_escape_table[i];
- if(el->size == size && memcmp(buf, el->string, size) == 0)
- return i;
- }
- return -1;
-}
-
-static int
-OCTET_STRING__handle_control_chars(void *struct_ptr, const void *chunk_buf, size_t chunk_size) {
- /*
- * This might be one of the escape sequences
- * for control characters. Check it out.
- * #11.15.5
- */
- int control_char = OS__check_escaped_control_char(chunk_buf,chunk_size);
- if(control_char >= 0) {
- OCTET_STRING_t *st = (OCTET_STRING_t *)struct_ptr;
- void *p = REALLOC(st->buf, st->size + 2);
- if(p) {
- st->buf = (uint8_t *)p;
- st->buf[st->size++] = control_char;
- st->buf[st->size] = '\0'; /* nul-termination */
- return 0;
- }
- }
-
- return -1; /* No, it's not */
-}
-
-asn_enc_rval_t
-OCTET_STRING_encode_xer_utf8(const asn_TYPE_descriptor_t *td, const void *sptr,
- int ilevel, enum xer_encoder_flags_e flags,
- asn_app_consume_bytes_f *cb, void *app_key) {
- const OCTET_STRING_t *st = (const OCTET_STRING_t *)sptr;
- asn_enc_rval_t er = { 0, 0, 0 };
- uint8_t *buf, *end;
- uint8_t *ss; /* Sequence start */
- ssize_t encoded_len = 0;
-
- (void)ilevel; /* Unused argument */
- (void)flags; /* Unused argument */
-
- if(!st || (!st->buf && st->size))
- ASN__ENCODE_FAILED;
-
- buf = st->buf;
- end = buf + st->size;
- for(ss = buf; buf < end; buf++) {
- unsigned int ch = *buf;
- int s_len; /* Special encoding sequence length */
-
- /*
- * Escape certain characters: X.680/11.15
- */
- if(ch < sizeof(OCTET_STRING__xer_escape_table)
- /sizeof(OCTET_STRING__xer_escape_table[0])
- && (s_len = OCTET_STRING__xer_escape_table[ch].size)) {
- if(((buf - ss) && cb(ss, buf - ss, app_key) < 0)
- || cb(OCTET_STRING__xer_escape_table[ch].string, s_len,
- app_key) < 0)
- ASN__ENCODE_FAILED;
- encoded_len += (buf - ss) + s_len;
- ss = buf + 1;
- }
- }
-
- encoded_len += (buf - ss);
- if((buf - ss) && cb(ss, buf - ss, app_key) < 0)
- ASN__ENCODE_FAILED;
-
- er.encoded = encoded_len;
- ASN__ENCODED_OK(er);
-}
-
-/*
- * Convert from hexadecimal format (cstring): "AB CD EF"
- */
-static ssize_t OCTET_STRING__convert_hexadecimal(void *sptr, const void *chunk_buf, size_t chunk_size, int have_more) {
- OCTET_STRING_t *st = (OCTET_STRING_t *)sptr;
- const char *chunk_stop = (const char *)chunk_buf;
- const char *p = chunk_stop;
- const char *pend = p + chunk_size;
- unsigned int clv = 0;
- int half = 0; /* Half bit */
- uint8_t *buf;
-
- /* Reallocate buffer according to high cap estimation */
- size_t new_size = st->size + (chunk_size + 1) / 2;
- void *nptr = REALLOC(st->buf, new_size + 1);
- if(!nptr) return -1;
- st->buf = (uint8_t *)nptr;
- buf = st->buf + st->size;
-
- /*
- * If something like " a b c " appears here, the " a b":3 will be
- * converted, and the rest skipped. That is, unless buf_size is greater
- * than chunk_size, then it'll be equivalent to "ABC0".
- */
- for(; p < pend; p++) {
- int ch = *(const unsigned char *)p;
- switch(ch) {
- case 0x09: case 0x0a: case 0x0c: case 0x0d:
- case 0x20:
- /* Ignore whitespace */
- continue;
- case 0x30: case 0x31: case 0x32: case 0x33: case 0x34: /*01234*/
- case 0x35: case 0x36: case 0x37: case 0x38: case 0x39: /*56789*/
- clv = (clv << 4) + (ch - 0x30);
- break;
- case 0x41: case 0x42: case 0x43: /* ABC */
- case 0x44: case 0x45: case 0x46: /* DEF */
- clv = (clv << 4) + (ch - 0x41 + 10);
- break;
- case 0x61: case 0x62: case 0x63: /* abc */
- case 0x64: case 0x65: case 0x66: /* def */
- clv = (clv << 4) + (ch - 0x61 + 10);
- break;
- default:
- *buf = 0; /* JIC */
- return -1;
- }
- if(half++) {
- half = 0;
- *buf++ = clv;
- chunk_stop = p + 1;
- }
- }
-
- /*
- * Check partial decoding.
- */
- if(half) {
- if(have_more) {
- /*
- * Partial specification is fine,
- * because no more more PXER_TEXT data is available.
- */
- *buf++ = clv << 4;
- chunk_stop = p;
- }
- } else {
- chunk_stop = p;
- }
-
- st->size = buf - st->buf; /* Adjust the buffer size */
- assert(st->size <= new_size);
- st->buf[st->size] = 0; /* Courtesy termination */
-
- return (chunk_stop - (const char *)chunk_buf); /* Converted size */
-}
-
-/*
- * Convert from binary format: "00101011101"
- */
-static ssize_t OCTET_STRING__convert_binary(void *sptr, const void *chunk_buf, size_t chunk_size, int have_more) {
- BIT_STRING_t *st = (BIT_STRING_t *)sptr;
- const char *p = (const char *)chunk_buf;
- const char *pend = p + chunk_size;
- int bits_unused = st->bits_unused & 0x7;
- uint8_t *buf;
-
- /* Reallocate buffer according to high cap estimation */
- size_t new_size = st->size + (chunk_size + 7) / 8;
- void *nptr = REALLOC(st->buf, new_size + 1);
- if(!nptr) return -1;
- st->buf = (uint8_t *)nptr;
- buf = st->buf + st->size;
-
- (void)have_more;
-
- if(bits_unused == 0)
- bits_unused = 8;
- else if(st->size)
- buf--;
-
- /*
- * Convert series of 0 and 1 into the octet string.
- */
- for(; p < pend; p++) {
- int ch = *(const unsigned char *)p;
- switch(ch) {
- case 0x09: case 0x0a: case 0x0c: case 0x0d:
- case 0x20:
- /* Ignore whitespace */
- break;
- case 0x30:
- case 0x31:
- if(bits_unused-- <= 0) {
- *++buf = 0; /* Clean the cell */
- bits_unused = 7;
- }
- *buf |= (ch&1) << bits_unused;
- break;
- default:
- st->bits_unused = bits_unused;
- return -1;
- }
- }
-
- if(bits_unused == 8) {
- st->size = buf - st->buf;
- st->bits_unused = 0;
- } else {
- st->size = buf - st->buf + 1;
- st->bits_unused = bits_unused;
- }
-
- assert(st->size <= new_size);
- st->buf[st->size] = 0; /* Courtesy termination */
-
- return chunk_size; /* Converted in full */
-}
-
-/*
- * Something like strtod(), but with stricter rules.
- */
-static int
-OS__strtoent(int base, const char *buf, const char *end, int32_t *ret_value) {
- const int32_t last_unicode_codepoint = 0x10ffff;
- int32_t val = 0;
- const char *p;
-
- for(p = buf; p < end; p++) {
- int ch = *p;
-
- switch(ch) {
- case 0x30: case 0x31: case 0x32: case 0x33: case 0x34: /*01234*/
- case 0x35: case 0x36: case 0x37: case 0x38: case 0x39: /*56789*/
- val = val * base + (ch - 0x30);
- break;
- case 0x41: case 0x42: case 0x43: /* ABC */
- case 0x44: case 0x45: case 0x46: /* DEF */
- val = val * base + (ch - 0x41 + 10);
- break;
- case 0x61: case 0x62: case 0x63: /* abc */
- case 0x64: case 0x65: case 0x66: /* def */
- val = val * base + (ch - 0x61 + 10);
- break;
- case 0x3b: /* ';' */
- *ret_value = val;
- return (p - buf) + 1;
- default:
- return -1; /* Character set error */
- }
-
- /* Value exceeds the Unicode range. */
- if(val > last_unicode_codepoint) {
- return -1;
- }
- }
-
- *ret_value = -1;
- return (p - buf);
-}
-
-/*
- * Convert from the plain UTF-8 format, expanding entity references: "2 < 3"
- */
-static ssize_t
-OCTET_STRING__convert_entrefs(void *sptr, const void *chunk_buf,
- size_t chunk_size, int have_more) {
- OCTET_STRING_t *st = (OCTET_STRING_t *)sptr;
- const char *p = (const char *)chunk_buf;
- const char *pend = p + chunk_size;
- uint8_t *buf;
-
- /* Reallocate buffer */
- size_t new_size = st->size + chunk_size;
- void *nptr = REALLOC(st->buf, new_size + 1);
- if(!nptr) return -1;
- st->buf = (uint8_t *)nptr;
- buf = st->buf + st->size;
-
- /*
- * Convert series of 0 and 1 into the octet string.
- */
- for(; p < pend; p++) {
- int ch = *(const unsigned char *)p;
- int len; /* Length of the rest of the chunk */
-
- if(ch != 0x26 /* '&' */) {
- *buf++ = ch;
- continue; /* That was easy... */
- }
-
- /*
- * Process entity reference.
- */
- len = chunk_size - (p - (const char *)chunk_buf);
- if(len == 1 /* "&" */) goto want_more;
- if(p[1] == 0x23 /* '#' */) {
- const char *pval; /* Pointer to start of digits */
- int32_t val = 0; /* Entity reference value */
- int base;
-
- if(len == 2 /* "&#" */) goto want_more;
- if(p[2] == 0x78 /* 'x' */)
- pval = p + 3, base = 16;
- else
- pval = p + 2, base = 10;
- len = OS__strtoent(base, pval, p + len, &val);
- if(len == -1) {
- /* Invalid charset. Just copy verbatim. */
- *buf++ = ch;
- continue;
- }
- if(!len || pval[len-1] != 0x3b) goto want_more;
- assert(val > 0);
- p += (pval - p) + len - 1; /* Advance past entref */
-
- if(val < 0x80) {
- *buf++ = (char)val;
- } else if(val < 0x800) {
- *buf++ = 0xc0 | ((val >> 6));
- *buf++ = 0x80 | ((val & 0x3f));
- } else if(val < 0x10000) {
- *buf++ = 0xe0 | ((val >> 12));
- *buf++ = 0x80 | ((val >> 6) & 0x3f);
- *buf++ = 0x80 | ((val & 0x3f));
- } else if(val < 0x200000) {
- *buf++ = 0xf0 | ((val >> 18));
- *buf++ = 0x80 | ((val >> 12) & 0x3f);
- *buf++ = 0x80 | ((val >> 6) & 0x3f);
- *buf++ = 0x80 | ((val & 0x3f));
- } else if(val < 0x4000000) {
- *buf++ = 0xf8 | ((val >> 24));
- *buf++ = 0x80 | ((val >> 18) & 0x3f);
- *buf++ = 0x80 | ((val >> 12) & 0x3f);
- *buf++ = 0x80 | ((val >> 6) & 0x3f);
- *buf++ = 0x80 | ((val & 0x3f));
- } else {
- *buf++ = 0xfc | ((val >> 30) & 0x1);
- *buf++ = 0x80 | ((val >> 24) & 0x3f);
- *buf++ = 0x80 | ((val >> 18) & 0x3f);
- *buf++ = 0x80 | ((val >> 12) & 0x3f);
- *buf++ = 0x80 | ((val >> 6) & 0x3f);
- *buf++ = 0x80 | ((val & 0x3f));
- }
- } else {
- /*
- * Ugly, limited parsing of & > <
- */
- char *sc = (char *)memchr(p, 0x3b, len > 5 ? 5 : len);
- if(!sc) goto want_more;
- if((sc - p) == 4
- && p[1] == 0x61 /* 'a' */
- && p[2] == 0x6d /* 'm' */
- && p[3] == 0x70 /* 'p' */) {
- *buf++ = 0x26;
- p = sc;
- continue;
- }
- if((sc - p) == 3) {
- if(p[1] == 0x6c) {
- *buf = 0x3c; /* '<' */
- } else if(p[1] == 0x67) {
- *buf = 0x3e; /* '>' */
- } else {
- /* Unsupported entity reference */
- *buf++ = ch;
- continue;
- }
- if(p[2] != 0x74) {
- /* Unsupported entity reference */
- *buf++ = ch;
- continue;
- }
- buf++;
- p = sc;
- continue;
- }
- /* Unsupported entity reference */
- *buf++ = ch;
- }
-
- continue;
- want_more:
- if(have_more) {
- /*
- * We know that no more data (of the same type)
- * is coming. Copy the rest verbatim.
- */
- *buf++ = ch;
- continue;
- }
- chunk_size = (p - (const char *)chunk_buf);
- /* Processing stalled: need more data */
- break;
- }
-
- st->size = buf - st->buf;
- assert(st->size <= new_size);
- st->buf[st->size] = 0; /* Courtesy termination */
-
- return chunk_size; /* Converted in full */
-}
-
-/*
- * Decode OCTET STRING from the XML element's body.
- */
-static asn_dec_rval_t
-OCTET_STRING__decode_xer(
- const asn_codec_ctx_t *opt_codec_ctx, const asn_TYPE_descriptor_t *td,
- void **sptr, const char *opt_mname, const void *buf_ptr, size_t size,
- int (*opt_unexpected_tag_decoder)(void *struct_ptr, const void *chunk_buf,
- size_t chunk_size),
- ssize_t (*body_receiver)(void *struct_ptr, const void *chunk_buf,
- size_t chunk_size, int have_more)) {
- OCTET_STRING_t *st = (OCTET_STRING_t *)*sptr;
- const asn_OCTET_STRING_specifics_t *specs = td->specifics
- ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_OCTET_STRING_specs;
- const char *xml_tag = opt_mname ? opt_mname : td->xml_tag;
- asn_struct_ctx_t *ctx; /* Per-structure parser context */
- asn_dec_rval_t rval; /* Return value from the decoder */
- int st_allocated;
-
- /*
- * Create the string if does not exist.
- */
- if(!st) {
- st = (OCTET_STRING_t *)CALLOC(1, specs->struct_size);
- *sptr = (void *)st;
- if(!st) goto sta_failed;
- st_allocated = 1;
- } else {
- st_allocated = 0;
- }
- if(!st->buf) {
- /* This is separate from above section */
- st->buf = (uint8_t *)CALLOC(1, 1);
- if(!st->buf) {
- if(st_allocated) {
- *sptr = 0;
- goto stb_failed;
- } else {
- goto sta_failed;
- }
- }
- }
-
- /* Restore parsing context */
- ctx = (asn_struct_ctx_t *)(((char *)*sptr) + specs->ctx_offset);
-
- return xer_decode_general(opt_codec_ctx, ctx, *sptr, xml_tag,
- buf_ptr, size, opt_unexpected_tag_decoder, body_receiver);
-
-stb_failed:
- FREEMEM(st);
-sta_failed:
- rval.code = RC_FAIL;
- rval.consumed = 0;
- return rval;
-}
-
-/*
- * Decode OCTET STRING from the hexadecimal data.
- */
-asn_dec_rval_t
-OCTET_STRING_decode_xer_hex(const asn_codec_ctx_t *opt_codec_ctx,
- const asn_TYPE_descriptor_t *td, void **sptr,
- const char *opt_mname, const void *buf_ptr,
- size_t size) {
- return OCTET_STRING__decode_xer(opt_codec_ctx, td, sptr, opt_mname,
- buf_ptr, size, 0, OCTET_STRING__convert_hexadecimal);
-}
-
-/*
- * Decode OCTET STRING from the binary (0/1) data.
- */
-asn_dec_rval_t
-OCTET_STRING_decode_xer_binary(const asn_codec_ctx_t *opt_codec_ctx,
- const asn_TYPE_descriptor_t *td, void **sptr,
- const char *opt_mname, const void *buf_ptr,
- size_t size) {
- return OCTET_STRING__decode_xer(opt_codec_ctx, td, sptr, opt_mname,
- buf_ptr, size, 0, OCTET_STRING__convert_binary);
-}
-
-/*
- * Decode OCTET STRING from the string (ASCII/UTF-8) data.
- */
-asn_dec_rval_t
-OCTET_STRING_decode_xer_utf8(const asn_codec_ctx_t *opt_codec_ctx,
- const asn_TYPE_descriptor_t *td, void **sptr,
- const char *opt_mname, const void *buf_ptr,
- size_t size) {
- return OCTET_STRING__decode_xer(opt_codec_ctx, td, sptr, opt_mname,
- buf_ptr, size,
- OCTET_STRING__handle_control_chars,
- OCTET_STRING__convert_entrefs);
-}
-
-#ifndef ASN_DISABLE_PER_SUPPORT
-
-static int
-OCTET_STRING_per_get_characters(asn_per_data_t *po, uint8_t *buf,
- size_t units, unsigned int bpc, unsigned int unit_bits,
- long lb, long ub, const asn_per_constraints_t *pc) {
- uint8_t *end = buf + units * bpc;
-
- ASN_DEBUG("Expanding %d characters into (%ld..%ld):%d",
- (int)units, lb, ub, unit_bits);
-
- /* X.691: 27.5.4 */
- if((unsigned long)ub <= ((unsigned long)2 << (unit_bits - 1))) {
- /* Decode without translation */
- lb = 0;
- } else if(pc && pc->code2value) {
- if(unit_bits > 16)
- return 1; /* FATAL: can't have constrained
- * UniversalString with more than
- * 16 million code points */
- for(; buf < end; buf += bpc) {
- int value;
- int code = per_get_few_bits(po, unit_bits);
- if(code < 0) return -1; /* WMORE */
- value = pc->code2value(code);
- if(value < 0) {
- ASN_DEBUG("Code %d (0x%02x) is"
- " not in map (%ld..%ld)",
- code, code, lb, ub);
- return 1; /* FATAL */
- }
- switch(bpc) {
- case 1: *buf = value; break;
- case 2: buf[0] = value >> 8; buf[1] = value; break;
- case 4: buf[0] = value >> 24; buf[1] = value >> 16;
- buf[2] = value >> 8; buf[3] = value; break;
- }
- }
- return 0;
- }
-
- /* Shortcut the no-op copying to the aligned structure */
- if(lb == 0 && (unit_bits == 8 * bpc)) {
- return per_get_many_bits(po, buf, 0, unit_bits * units);
- }
-
- for(; buf < end; buf += bpc) {
- int32_t code = per_get_few_bits(po, unit_bits);
- int32_t ch = code + lb;
- if(code < 0) return -1; /* WMORE */
- if(ch > ub) {
- ASN_DEBUG("Code %d is out of range (%ld..%ld)",
- ch, lb, ub);
- return 1; /* FATAL */
- }
- switch(bpc) {
- case 1: *buf = ch; break;
- case 2: buf[0] = ch >> 8; buf[1] = ch; break;
- case 4: buf[0] = ch >> 24; buf[1] = ch >> 16;
- buf[2] = ch >> 8; buf[3] = ch; break;
- }
- }
-
- return 0;
-}
-
-static int
-OCTET_STRING_per_put_characters(asn_per_outp_t *po, const uint8_t *buf,
- size_t units, unsigned int bpc, unsigned int unit_bits,
- long lb, long ub, const asn_per_constraints_t *pc) {
- const uint8_t *end = buf + units * bpc;
-
- ASN_DEBUG("Squeezing %d characters into (%ld..%ld):%d (%d bpc)",
- (int)units, lb, ub, unit_bits, bpc);
-
- /* X.691: 27.5.4 */
- if((unsigned long)ub <= ((unsigned long)2 << (unit_bits - 1))) {
- /* Encode as is */
- lb = 0;
- } else if(pc && pc->value2code) {
- for(; buf < end; buf += bpc) {
- int code;
- uint32_t value;
- switch(bpc) {
- case 1: value = *(const uint8_t *)buf; break;
- case 2: value = (buf[0] << 8) | buf[1]; break;
- case 4: value = (buf[0] << 24) | (buf[1] << 16)
- | (buf[2] << 8) | buf[3]; break;
- default: return -1;
- }
- code = pc->value2code(value);
- if(code < 0) {
- ASN_DEBUG("Character %d (0x%02x) is"
- " not in map (%ld..%ld)",
- *buf, *buf, lb, ub);
- return -1;
- }
- if(per_put_few_bits(po, code, unit_bits))
- return -1;
- }
- }
-
- /* Shortcut the no-op copying to the aligned structure */
- if(lb == 0 && (unit_bits == 8 * bpc)) {
- return per_put_many_bits(po, buf, unit_bits * units);
- }
-
- for(ub -= lb; buf < end; buf += bpc) {
- int ch;
- uint32_t value;
- switch(bpc) {
- case 1:
- value = *(const uint8_t *)buf;
- break;
- case 2:
- value = (buf[0] << 8) | buf[1];
- break;
- case 4:
- value = (buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | buf[3];
- break;
- default:
- return -1;
- }
- ch = value - lb;
- if(ch < 0 || ch > ub) {
- ASN_DEBUG("Character %d (0x%02x) is out of range (%ld..%ld)", *buf,
- value, lb, ub + lb);
- return -1;
- }
- if(per_put_few_bits(po, ch, unit_bits)) return -1;
- }
-
- return 0;
-}
-
-static asn_per_constraints_t asn_DEF_OCTET_STRING_constraints = {
- { APC_CONSTRAINED, 8, 8, 0, 255 },
- { APC_SEMI_CONSTRAINED, -1, -1, 0, 0 },
- 0, 0
-};
-
-asn_dec_rval_t
-OCTET_STRING_decode_uper(const asn_codec_ctx_t *opt_codec_ctx,
- const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints, void **sptr,
- asn_per_data_t *pd) {
- const asn_OCTET_STRING_specifics_t *specs = td->specifics
- ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_OCTET_STRING_specs;
- const asn_per_constraints_t *pc =
- constraints ? constraints : td->encoding_constraints.per_constraints;
- const asn_per_constraint_t *cval;
- const asn_per_constraint_t *csiz;
- asn_dec_rval_t rval = { RC_OK, 0 };
- OCTET_STRING_t *st = (OCTET_STRING_t *)*sptr;
- ssize_t consumed_myself = 0;
- int repeat;
- enum {
- OS__BPC_CHAR = 1,
- OS__BPC_U16 = 2,
- OS__BPC_U32 = 4
- } bpc; /* Bytes per character */
- unsigned int unit_bits;
- unsigned int canonical_unit_bits;
-
- (void)opt_codec_ctx;
-
- if(pc) {
- cval = &pc->value;
- csiz = &pc->size;
- } else {
- cval = &asn_DEF_OCTET_STRING_constraints.value;
- csiz = &asn_DEF_OCTET_STRING_constraints.size;
- }
-
- switch(specs->subvariant) {
- default:
- case ASN_OSUBV_ANY:
- case ASN_OSUBV_BIT:
- ASN_DEBUG("Unrecognized subvariant %d", specs->subvariant);
- RETURN(RC_FAIL);
- break;
- case ASN_OSUBV_STR:
- canonical_unit_bits = unit_bits = 8;
- if(cval->flags & APC_CONSTRAINED)
- unit_bits = cval->range_bits;
- bpc = OS__BPC_CHAR;
- break;
- case ASN_OSUBV_U16:
- canonical_unit_bits = unit_bits = 16;
- if(cval->flags & APC_CONSTRAINED)
- unit_bits = cval->range_bits;
- bpc = OS__BPC_U16;
- break;
- case ASN_OSUBV_U32:
- canonical_unit_bits = unit_bits = 32;
- if(cval->flags & APC_CONSTRAINED)
- unit_bits = cval->range_bits;
- bpc = OS__BPC_U32;
- break;
- }
-
- /*
- * Allocate the string.
- */
- if(!st) {
- st = (OCTET_STRING_t *)(*sptr = CALLOC(1, specs->struct_size));
- if(!st) RETURN(RC_FAIL);
- }
-
- ASN_DEBUG("PER Decoding %s size %ld .. %ld bits %d",
- csiz->flags & APC_EXTENSIBLE ? "extensible" : "non-extensible",
- csiz->lower_bound, csiz->upper_bound, csiz->effective_bits);
-
- if(csiz->flags & APC_EXTENSIBLE) {
- int inext = per_get_few_bits(pd, 1);
- if(inext < 0) RETURN(RC_WMORE);
- if(inext) {
- csiz = &asn_DEF_OCTET_STRING_constraints.size;
- unit_bits = canonical_unit_bits;
- }
- }
-
- if(csiz->effective_bits >= 0) {
- FREEMEM(st->buf);
- if(bpc) {
- st->size = csiz->upper_bound * bpc;
- } else {
- st->size = (csiz->upper_bound + 7) >> 3;
- }
- st->buf = (uint8_t *)MALLOC(st->size + 1);
- if(!st->buf) { st->size = 0; RETURN(RC_FAIL); }
- }
-
- /* X.691, #16.5: zero-length encoding */
- /* X.691, #16.6: short fixed length encoding (up to 2 octets) */
- /* X.691, #16.7: long fixed length encoding (up to 64K octets) */
- if(csiz->effective_bits == 0) {
- int ret;
- if(bpc) {
- ASN_DEBUG("Encoding OCTET STRING size %ld",
- csiz->upper_bound);
- ret = OCTET_STRING_per_get_characters(pd, st->buf,
- csiz->upper_bound, bpc, unit_bits,
- cval->lower_bound, cval->upper_bound, pc);
- if(ret > 0) RETURN(RC_FAIL);
- } else {
- ASN_DEBUG("Encoding BIT STRING size %ld",
- csiz->upper_bound);
- ret = per_get_many_bits(pd, st->buf, 0,
- unit_bits * csiz->upper_bound);
- }
- if(ret < 0) RETURN(RC_WMORE);
- consumed_myself += unit_bits * csiz->upper_bound;
- st->buf[st->size] = 0;
- RETURN(RC_OK);
- }
-
- st->size = 0;
- do {
- ssize_t raw_len;
- ssize_t len_bytes;
- void *p;
- int ret;
-
- /* Get the PER length */
- raw_len = uper_get_length(pd, csiz->effective_bits, csiz->lower_bound,
- &repeat);
- if(raw_len < 0) RETURN(RC_WMORE);
- if(raw_len == 0 && st->buf) break;
-
- ASN_DEBUG("Got PER length eb %ld, len %ld, %s (%s)",
- (long)csiz->effective_bits, (long)raw_len,
- repeat ? "repeat" : "once", td->name);
- len_bytes = raw_len * bpc;
- p = REALLOC(st->buf, st->size + len_bytes + 1);
- if(!p) RETURN(RC_FAIL);
- st->buf = (uint8_t *)p;
-
- ret = OCTET_STRING_per_get_characters(pd, &st->buf[st->size], raw_len,
- bpc, unit_bits, cval->lower_bound,
- cval->upper_bound, pc);
- if(ret > 0) RETURN(RC_FAIL);
- if(ret < 0) RETURN(RC_WMORE);
- st->size += len_bytes;
- } while(repeat);
- st->buf[st->size] = 0; /* nul-terminate */
-
- return rval;
-}
-
-asn_enc_rval_t
-OCTET_STRING_encode_uper(const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints,
- const void *sptr, asn_per_outp_t *po) {
- const asn_OCTET_STRING_specifics_t *specs = td->specifics
- ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_OCTET_STRING_specs;
- const asn_per_constraints_t *pc = constraints ? constraints
- : td->encoding_constraints.per_constraints;
- const asn_per_constraint_t *cval;
- const asn_per_constraint_t *csiz;
- const OCTET_STRING_t *st = (const OCTET_STRING_t *)sptr;
- asn_enc_rval_t er = { 0, 0, 0 };
- int inext = 0; /* Lies not within extension root */
- unsigned int unit_bits;
- unsigned int canonical_unit_bits;
- size_t size_in_units;
- const uint8_t *buf;
- int ret;
- enum {
- OS__BPC_CHAR = 1,
- OS__BPC_U16 = 2,
- OS__BPC_U32 = 4
- } bpc; /* Bytes per character */
- int ct_extensible;
-
- if(!st || (!st->buf && st->size))
- ASN__ENCODE_FAILED;
-
- if(pc) {
- cval = &pc->value;
- csiz = &pc->size;
- } else {
- cval = &asn_DEF_OCTET_STRING_constraints.value;
- csiz = &asn_DEF_OCTET_STRING_constraints.size;
- }
- ct_extensible = csiz->flags & APC_EXTENSIBLE;
-
- switch(specs->subvariant) {
- default:
- case ASN_OSUBV_ANY:
- case ASN_OSUBV_BIT:
- ASN__ENCODE_FAILED;
- case ASN_OSUBV_STR:
- canonical_unit_bits = unit_bits = 8;
- if(cval->flags & APC_CONSTRAINED)
- unit_bits = cval->range_bits;
- bpc = OS__BPC_CHAR;
- size_in_units = st->size;
- break;
- case ASN_OSUBV_U16:
- canonical_unit_bits = unit_bits = 16;
- if(cval->flags & APC_CONSTRAINED)
- unit_bits = cval->range_bits;
- bpc = OS__BPC_U16;
- size_in_units = st->size >> 1;
- if(st->size & 1) {
- ASN_DEBUG("%s string size is not modulo 2", td->name);
- ASN__ENCODE_FAILED;
- }
- break;
- case ASN_OSUBV_U32:
- canonical_unit_bits = unit_bits = 32;
- if(cval->flags & APC_CONSTRAINED)
- unit_bits = cval->range_bits;
- bpc = OS__BPC_U32;
- size_in_units = st->size >> 2;
- if(st->size & 3) {
- ASN_DEBUG("%s string size is not modulo 4", td->name);
- ASN__ENCODE_FAILED;
- }
- break;
- }
-
- ASN_DEBUG("Encoding %s into %" ASN_PRI_SIZE " units of %d bits"
- " (%ld..%ld, effective %d)%s",
- td->name, size_in_units, unit_bits,
- csiz->lower_bound, csiz->upper_bound,
- csiz->effective_bits, ct_extensible ? " EXT" : "");
-
- /* Figure out whether size lies within PER visible constraint */
-
- if(csiz->effective_bits >= 0) {
- if((ssize_t)size_in_units < csiz->lower_bound
- || (ssize_t)size_in_units > csiz->upper_bound) {
- if(ct_extensible) {
- csiz = &asn_DEF_OCTET_STRING_constraints.size;
- unit_bits = canonical_unit_bits;
- inext = 1;
- } else {
- ASN__ENCODE_FAILED;
- }
- }
- } else {
- inext = 0;
- }
-
- if(ct_extensible) {
- /* Declare whether length is [not] within extension root */
- if(per_put_few_bits(po, inext, 1))
- ASN__ENCODE_FAILED;
- }
-
- if(csiz->effective_bits >= 0 && !inext) {
- ASN_DEBUG("Encoding %" ASN_PRI_SIZE " bytes (%ld), length in %d bits", st->size,
- size_in_units - csiz->lower_bound, csiz->effective_bits);
- ret = per_put_few_bits(po, size_in_units - csiz->lower_bound,
- csiz->effective_bits);
- if(ret) ASN__ENCODE_FAILED;
- ret = OCTET_STRING_per_put_characters(po, st->buf, size_in_units, bpc,
- unit_bits, cval->lower_bound,
- cval->upper_bound, pc);
- if(ret) ASN__ENCODE_FAILED;
- ASN__ENCODED_OK(er);
- }
-
- ASN_DEBUG("Encoding %" ASN_PRI_SIZE " bytes", st->size);
-
- buf = st->buf;
- ASN_DEBUG("Encoding %" ASN_PRI_SIZE " in units", size_in_units);
- do {
- int need_eom = 0;
- ssize_t may_save = uper_put_length(po, size_in_units, &need_eom);
- if(may_save < 0) ASN__ENCODE_FAILED;
-
- ASN_DEBUG("Encoding %" ASN_PRI_SSIZE " of %" ASN_PRI_SIZE "%s", may_save, size_in_units,
- need_eom ? ",+EOM" : "");
-
- ret = OCTET_STRING_per_put_characters(po, buf, may_save, bpc, unit_bits,
- cval->lower_bound,
- cval->upper_bound, pc);
- if(ret) ASN__ENCODE_FAILED;
-
- buf += may_save * bpc;
- size_in_units -= may_save;
- assert(!(may_save & 0x07) || !size_in_units);
- if(need_eom && uper_put_length(po, 0, 0))
- ASN__ENCODE_FAILED; /* End of Message length */
- } while(size_in_units);
-
- ASN__ENCODED_OK(er);
-}
-
-asn_dec_rval_t
-OCTET_STRING_decode_aper(const asn_codec_ctx_t *opt_codec_ctx,
- const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints,
- void **sptr, asn_per_data_t *pd) {
-
- const asn_OCTET_STRING_specifics_t *specs = td->specifics
- ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_OCTET_STRING_specs;
- const asn_per_constraints_t *pc = constraints ? constraints
- : td->encoding_constraints.per_constraints;
- const asn_per_constraint_t *cval;
- const asn_per_constraint_t *csiz;
- asn_dec_rval_t rval = { RC_OK, 0 };
- BIT_STRING_t *st = (BIT_STRING_t *)*sptr;
- ssize_t consumed_myself = 0;
- int repeat;
- enum {
- OS__BPC_BIT = 0,
- OS__BPC_CHAR = 1,
- OS__BPC_U16 = 2,
- OS__BPC_U32 = 4
- } bpc; /* Bytes per character */
- unsigned int unit_bits;
- unsigned int canonical_unit_bits;
-
- (void)opt_codec_ctx;
-
- if(pc) {
- cval = &pc->value;
- csiz = &pc->size;
- } else {
- cval = &asn_DEF_OCTET_STRING_constraints.value;
- csiz = &asn_DEF_OCTET_STRING_constraints.size;
- }
-
- switch(specs->subvariant) {
- default:
-/* case ASN_OSUBV_ANY:
- ASN_DEBUG("Unrecognized subvariant %d", specs->subvariant);
- RETURN(RC_FAIL);
-*/
- case ASN_OSUBV_BIT:
- canonical_unit_bits = unit_bits = 1;
- bpc = OS__BPC_BIT;
- break;
- case ASN_OSUBV_ANY:
- case ASN_OSUBV_STR:
- canonical_unit_bits = unit_bits = 8;
-/* if(cval->flags & APC_CONSTRAINED)
- unit_bits = cval->range_bits;
-*/
- bpc = OS__BPC_CHAR;
- break;
- case ASN_OSUBV_U16:
- canonical_unit_bits = unit_bits = 16;
- if(cval->flags & APC_CONSTRAINED)
- unit_bits = cval->range_bits;
- bpc = OS__BPC_U16;
- break;
- case ASN_OSUBV_U32:
- canonical_unit_bits = unit_bits = 32;
- if(cval->flags & APC_CONSTRAINED)
- unit_bits = cval->range_bits;
- bpc = OS__BPC_U32;
- break;
- }
-
- /*
- * Allocate the string.
- */
- if(!st) {
- st = (BIT_STRING_t *)(*sptr = CALLOC(1, specs->struct_size));
- if(!st) RETURN(RC_FAIL);
- }
-
- ASN_DEBUG("PER Decoding %s size %ld .. %ld bits %d",
- csiz->flags & APC_EXTENSIBLE ? "extensible" : "non-extensible",
- csiz->lower_bound, csiz->upper_bound, csiz->effective_bits);
-
- if(csiz->flags & APC_EXTENSIBLE) {
- int inext = per_get_few_bits(pd, 1);
- if(inext < 0) RETURN(RC_WMORE);
- if(inext) {
- csiz = &asn_DEF_OCTET_STRING_constraints.size;
- cval = &asn_DEF_OCTET_STRING_constraints.value;
- unit_bits = canonical_unit_bits;
- }
- }
-
- if(csiz->effective_bits >= 0) {
- FREEMEM(st->buf);
- if(bpc) {
- st->size = csiz->upper_bound * bpc;
- } else {
- st->size = (csiz->upper_bound + 7) >> 3;
- }
- st->buf = (uint8_t *)MALLOC(st->size + 1);
- if(!st->buf) { st->size = 0; RETURN(RC_FAIL); }
- }
-
- /* X.691, #16.5: zero-length encoding */
- /* X.691, #16.6: short fixed length encoding (up to 2 octets) */
- /* X.691, #16.7: long fixed length encoding (up to 64K octets) */
- if(csiz->effective_bits == 0) {
- int ret;
- if (st->size > 2) { /* X.691 #16 NOTE 1 */
- if (aper_get_align(pd) < 0)
- RETURN(RC_FAIL);
- }
- if(bpc) {
- ASN_DEBUG("Decoding OCTET STRING size %ld",
- csiz->upper_bound);
- ret = OCTET_STRING_per_get_characters(pd, st->buf,
- csiz->upper_bound, bpc, unit_bits,
- cval->lower_bound, cval->upper_bound, pc);
- if(ret > 0) RETURN(RC_FAIL);
- } else {
- ASN_DEBUG("Decoding BIT STRING size %ld",
- csiz->upper_bound);
- ret = per_get_many_bits(pd, st->buf, 0,
- unit_bits * csiz->upper_bound);
- }
- if(ret < 0) RETURN(RC_WMORE);
- consumed_myself += unit_bits * csiz->upper_bound;
- st->buf[st->size] = 0;
- if(bpc == 0) {
- int ubs = (csiz->upper_bound & 0x7);
- st->bits_unused = ubs ? 8 - ubs : 0;
- }
- RETURN(RC_OK);
- }
-
- st->size = 0;
- do {
- ssize_t raw_len;
- ssize_t len_bytes;
- ssize_t len_bits;
- void *p;
- int ret;
-
- /* Get the PER length */
- if (csiz->upper_bound - csiz->lower_bound == 0)
- /* Indefinite length case */
- raw_len = aper_get_length(pd, -1, csiz->effective_bits, &repeat);
- else
- raw_len = aper_get_length(pd, csiz->upper_bound - csiz->lower_bound + 1, csiz->effective_bits, &repeat);
- repeat = 0;
- if(raw_len < 0) RETURN(RC_WMORE);
- raw_len += csiz->lower_bound;
-
- ASN_DEBUG("Got PER length eb %ld, len %ld, %s (%s)",
- (long)csiz->effective_bits, (long)raw_len,
- repeat ? "repeat" : "once", td->name);
-
- if (raw_len > 2) { /* X.691 #16 NOTE 1 */
- if (aper_get_align(pd) < 0)
- RETURN(RC_FAIL);
- }
-
- if(bpc) {
- len_bytes = raw_len * bpc;
- len_bits = len_bytes * unit_bits;
- } else {
- len_bits = raw_len;
- len_bytes = (len_bits + 7) >> 3;
- if(len_bits & 0x7)
- st->bits_unused = 8 - (len_bits & 0x7);
- /* len_bits be multiple of 16K if repeat is set */
- }
- p = REALLOC(st->buf, st->size + len_bytes + 1);
- if(!p) RETURN(RC_FAIL);
- st->buf = (uint8_t *)p;
-
- if(bpc) {
- ret = OCTET_STRING_per_get_characters(pd,
- &st->buf[st->size], raw_len, bpc, unit_bits,
- cval->lower_bound, cval->upper_bound, pc);
- if(ret > 0) RETURN(RC_FAIL);
- } else {
- ret = per_get_many_bits(pd, &st->buf[st->size],
- 0, len_bits);
- }
- if(ret < 0) RETURN(RC_WMORE);
- st->size += len_bytes;
- } while(repeat);
- st->buf[st->size] = 0; /* nul-terminate */
-
- return rval;
-}
-
-asn_enc_rval_t
-OCTET_STRING_encode_aper(const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints,
- const void *sptr, asn_per_outp_t *po) {
-
- const asn_OCTET_STRING_specifics_t *specs = td->specifics
- ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_OCTET_STRING_specs;
- const asn_per_constraints_t *pc = constraints ? constraints
- : td->encoding_constraints.per_constraints;
- const asn_per_constraint_t *cval;
- const asn_per_constraint_t *csiz;
- const BIT_STRING_t *st = (const BIT_STRING_t *)sptr;
- asn_enc_rval_t er = { 0, 0, 0 };
- int inext = 0; /* Lies not within extension root */
- unsigned int unit_bits;
- unsigned int canonical_unit_bits;
- unsigned int sizeinunits;
- const uint8_t *buf;
- int ret;
- enum {
- OS__BPC_BIT = 0,
- OS__BPC_CHAR = 1,
- OS__BPC_U16 = 2,
- OS__BPC_U32 = 4
- } bpc; /* Bytes per character */
- int ct_extensible;
-
- if(!st || (!st->buf && st->size))
- ASN__ENCODE_FAILED;
-
- if(pc) {
- cval = &pc->value;
- csiz = &pc->size;
- } else {
- cval = &asn_DEF_OCTET_STRING_constraints.value;
- csiz = &asn_DEF_OCTET_STRING_constraints.size;
- }
- ct_extensible = csiz->flags & APC_EXTENSIBLE;
-
- switch(specs->subvariant) {
- default:
- /* case ASN_OSUBV_ANY:
- ASN__ENCODE_FAILED;
- */
- case ASN_OSUBV_BIT:
- canonical_unit_bits = unit_bits = 1;
- bpc = OS__BPC_BIT;
- sizeinunits = st->size * 8 - (st->bits_unused & 0x07);
- ASN_DEBUG("BIT STRING of %d bytes",
- sizeinunits);
- break;
- case ASN_OSUBV_ANY:
- case ASN_OSUBV_STR:
- canonical_unit_bits = unit_bits = 8;
-/* if(cval->flags & APC_CONSTRAINED)
- unit_bits = 8;
-*/
- bpc = OS__BPC_CHAR;
- sizeinunits = st->size;
- break;
- case ASN_OSUBV_U16:
- canonical_unit_bits = unit_bits = 16;
- if(cval->flags & APC_CONSTRAINED)
- unit_bits = cval->range_bits;
- bpc = OS__BPC_U16;
- sizeinunits = st->size / 2;
- break;
- case ASN_OSUBV_U32:
- canonical_unit_bits = unit_bits = 32;
- if(cval->flags & APC_CONSTRAINED)
- unit_bits = cval->range_bits;
- bpc = OS__BPC_U32;
- sizeinunits = st->size / 4;
- break;
- }
-
- ASN_DEBUG("Encoding %s into %d units of %d bits"
- " (%ld..%ld, effective %d)%s",
- td->name, sizeinunits, unit_bits,
- csiz->lower_bound, csiz->upper_bound,
- csiz->effective_bits, ct_extensible ? " EXT" : "");
-
- /* Figure out wheter size lies within PER visible constraint */
-
- if(csiz->effective_bits >= 0) {
- if((int)sizeinunits < csiz->lower_bound
- || (int)sizeinunits > csiz->upper_bound) {
- if(ct_extensible) {
- cval = &asn_DEF_OCTET_STRING_constraints.value;
- csiz = &asn_DEF_OCTET_STRING_constraints.size;
- unit_bits = canonical_unit_bits;
- inext = 1;
- } else
- ASN__ENCODE_FAILED;
- }
- } else {
- inext = 0;
- }
-
-
- if(ct_extensible) {
- /* Declare whether length is [not] within extension root */
- if(per_put_few_bits(po, inext, 1))
- ASN__ENCODE_FAILED;
- }
-
- /* X.691, #16.5: zero-length encoding */
- /* X.691, #16.6: short fixed length encoding (up to 2 octets) */
- /* X.691, #16.7: long fixed length encoding (up to 64K octets) */
- if(csiz->effective_bits >= 0) {
- ASN_DEBUG("Encoding %lu bytes (%ld), length in %d bits",
- st->size, sizeinunits - csiz->lower_bound,
- csiz->effective_bits);
- if (csiz->effective_bits > 0) {
- ret = aper_put_length(po, csiz->upper_bound - csiz->lower_bound + 1, sizeinunits - csiz->lower_bound);
- if(ret) ASN__ENCODE_FAILED;
- }
- /* EB MOD
- AFAIU if lb != ub it is aligned whatever the number of bits */
- if ((st->size > 2) || (csiz->lower_bound != csiz->upper_bound)) { /* X.691 #16.11 */
- if (aper_put_align(po) < 0)
- ASN__ENCODE_FAILED;
- }
- if(bpc) {
- ret = OCTET_STRING_per_put_characters(po, st->buf,
- sizeinunits, bpc, unit_bits,
- cval->lower_bound, cval->upper_bound, pc);
- } else {
- ret = per_put_many_bits(po, st->buf,
- sizeinunits * unit_bits);
- }
- if(ret) ASN__ENCODE_FAILED;
- ASN__ENCODED_OK(er);
- }
-
- ASN_DEBUG("Encoding %lu bytes", st->size);
-
- if(sizeinunits == 0) {
- if(aper_put_length(po, -1, 0))
- ASN__ENCODE_FAILED;
- ASN__ENCODED_OK(er);
- }
-
- buf = st->buf;
- while(sizeinunits) {
- ssize_t maySave = aper_put_length(po, -1, sizeinunits);
-
- if(maySave < 0) ASN__ENCODE_FAILED;
-
- ASN_DEBUG("Encoding %ld of %ld",
- (long)maySave, (long)sizeinunits);
-
- if(bpc) {
- ret = OCTET_STRING_per_put_characters(po, buf,
- maySave, bpc, unit_bits,
- cval->lower_bound, cval->upper_bound, pc);
- } else {
- ret = per_put_many_bits(po, buf, maySave * unit_bits);
- }
- if(ret) ASN__ENCODE_FAILED;
-
- if(bpc)
- buf += maySave * bpc;
- else
- buf += maySave >> 3;
- sizeinunits -= maySave;
- assert(!(maySave & 0x07) || !sizeinunits);
- }
-
- ASN__ENCODED_OK(er);
-}
-
-#endif /* ASN_DISABLE_PER_SUPPORT */
-
-int
-OCTET_STRING_print(const asn_TYPE_descriptor_t *td, const void *sptr,
- int ilevel, asn_app_consume_bytes_f *cb, void *app_key) {
- const char * const h2c = "0123456789ABCDEF";
- const OCTET_STRING_t *st = (const OCTET_STRING_t *)sptr;
- char scratch[16 * 3 + 4];
- char *p = scratch;
- uint8_t *buf;
- uint8_t *end;
- size_t i;
-
- (void)td; /* Unused argument */
-
- if(!st || (!st->buf && st->size))
- return (cb("<absent>", 8, app_key) < 0) ? -1 : 0;
-
- /*
- * Dump the contents of the buffer in hexadecimal.
- */
- buf = st->buf;
- end = buf + st->size;
- for(i = 0; buf < end; buf++, i++) {
- if(!(i % 16) && (i || st->size > 16)) {
- if(cb(scratch, p - scratch, app_key) < 0)
- return -1;
- _i_INDENT(1);
- p = scratch;
- }
- *p++ = h2c[(*buf >> 4) & 0x0F];
- *p++ = h2c[*buf & 0x0F];
- *p++ = 0x20;
- }
-
- if(p > scratch) {
- p--; /* Remove the tail space */
- if(cb(scratch, p - scratch, app_key) < 0)
- return -1;
- }
-
- return 0;
-}
-
-int
-OCTET_STRING_print_utf8(const asn_TYPE_descriptor_t *td, const void *sptr,
- int ilevel, asn_app_consume_bytes_f *cb,
- void *app_key) {
- const OCTET_STRING_t *st = (const OCTET_STRING_t *)sptr;
-
- (void)td; /* Unused argument */
- (void)ilevel; /* Unused argument */
-
- if(st && (st->buf || !st->size)) {
- return (cb(st->buf, st->size, app_key) < 0) ? -1 : 0;
- } else {
- return (cb("<absent>", 8, app_key) < 0) ? -1 : 0;
- }
-}
-
-void
-OCTET_STRING_free(const asn_TYPE_descriptor_t *td, void *sptr,
- enum asn_struct_free_method method) {
- OCTET_STRING_t *st = (OCTET_STRING_t *)sptr;
- const asn_OCTET_STRING_specifics_t *specs;
- asn_struct_ctx_t *ctx;
- struct _stack *stck;
-
- if(!td || !st)
- return;
-
- specs = td->specifics
- ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_OCTET_STRING_specs;
- ctx = (asn_struct_ctx_t *)((char *)st + specs->ctx_offset);
-
- ASN_DEBUG("Freeing %s as OCTET STRING", td->name);
-
- if(st->buf) {
- FREEMEM(st->buf);
- st->buf = 0;
- }
-
- /*
- * Remove decode-time stack.
- */
- stck = (struct _stack *)ctx->ptr;
- if(stck) {
- while(stck->tail) {
- struct _stack_el *sel = stck->tail;
- stck->tail = sel->prev;
- FREEMEM(sel);
- }
- FREEMEM(stck);
- }
-
- switch(method) {
- case ASFM_FREE_EVERYTHING:
- FREEMEM(sptr);
- break;
- case ASFM_FREE_UNDERLYING:
- break;
- case ASFM_FREE_UNDERLYING_AND_RESET:
- memset(sptr, 0,
- td->specifics
- ? ((const asn_OCTET_STRING_specifics_t *)(td->specifics))
- ->struct_size
- : sizeof(OCTET_STRING_t));
- break;
- }
-}
-
-/*
- * Conversion routines.
- */
-int
-OCTET_STRING_fromBuf(OCTET_STRING_t *st, const char *str, int len) {
- void *buf;
-
- if(st == 0 || (str == 0 && len)) {
- errno = EINVAL;
- return -1;
- }
-
- /*
- * Clear the OCTET STRING.
- */
- if(str == NULL) {
- FREEMEM(st->buf);
- st->buf = 0;
- st->size = 0;
- return 0;
- }
-
- /* Determine the original string size, if not explicitly given */
- if(len < 0)
- len = strlen(str);
-
- /* Allocate and fill the memory */
- buf = MALLOC(len + 1);
- if(buf == NULL)
- return -1;
-
- memcpy(buf, str, len);
- ((uint8_t *)buf)[len] = '\0'; /* Couldn't use memcpy(len+1)! */
- FREEMEM(st->buf);
- st->buf = (uint8_t *)buf;
- st->size = len;
-
- return 0;
-}
-
-OCTET_STRING_t *
-OCTET_STRING_new_fromBuf(const asn_TYPE_descriptor_t *td, const char *str,
- int len) {
- const asn_OCTET_STRING_specifics_t *specs =
- td->specifics ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_OCTET_STRING_specs;
- OCTET_STRING_t *st;
-
- st = (OCTET_STRING_t *)CALLOC(1, specs->struct_size);
- if(st && str && OCTET_STRING_fromBuf(st, str, len)) {
- FREEMEM(st);
- st = NULL;
- }
-
- return st;
-}
-
-/*
- * Lexicographically compare the common prefix of both strings,
- * and if it is the same return -1 for the smallest string.
- */
-int
-OCTET_STRING_compare(const asn_TYPE_descriptor_t *td, const void *aptr,
- const void *bptr) {
- const asn_OCTET_STRING_specifics_t *specs = td->specifics;
- const OCTET_STRING_t *a = aptr;
- const OCTET_STRING_t *b = bptr;
-
- assert(!specs || specs->subvariant != ASN_OSUBV_BIT);
-
- if(a && b) {
- size_t common_prefix_size = a->size <= b->size ? a->size : b->size;
- int ret = memcmp(a->buf, b->buf, common_prefix_size);
- if(ret == 0) {
- /* Figure out which string with equal prefixes is longer. */
- if(a->size < b->size) {
- return -1;
- } else if(a->size > b->size) {
- return 1;
- } else {
- return 0;
- }
- } else {
- return ret < 0 ? -1 : 1;
- }
- } else if(!a && !b) {
- return 0;
- } else if(!a) {
- return -1;
- } else {
- return 1;
- }
-
-}
-
-/*
- * Biased function for randomizing character values around their limits.
- */
-static uint32_t
-OCTET_STRING__random_char(unsigned long lb, unsigned long ub) {
- assert(lb <= ub);
- switch(asn_random_between(0, 16)) {
- case 0:
- if(lb < ub) return lb + 1;
- /* Fall through */
- case 1:
- return lb;
- case 2:
- if(lb < ub) return ub - 1;
- /* Fall through */
- case 3:
- return ub;
- default:
- return asn_random_between(lb, ub);
- }
-}
-
-
-size_t
-OCTET_STRING_random_length_constrained(
- const asn_TYPE_descriptor_t *td,
- const asn_encoding_constraints_t *constraints, size_t max_length) {
- const unsigned lengths[] = {0, 1, 2, 3, 4, 8,
- 126, 127, 128, 16383, 16384, 16385,
- 65534, 65535, 65536, 65537};
- size_t rnd_len;
-
- /* Figure out how far we should go */
- rnd_len = lengths[asn_random_between(
- 0, sizeof(lengths) / sizeof(lengths[0]) - 1)];
-
- if(!constraints || !constraints->per_constraints)
- constraints = &td->encoding_constraints;
- if(constraints->per_constraints) {
- const asn_per_constraint_t *pc = &constraints->per_constraints->size;
- if(pc->flags & APC_CONSTRAINED) {
- long suggested_upper_bound = pc->upper_bound < (ssize_t)max_length
- ? pc->upper_bound
- : (ssize_t)max_length;
- if(max_length <= (size_t)pc->lower_bound) {
- return pc->lower_bound;
- }
- if(pc->flags & APC_EXTENSIBLE) {
- switch(asn_random_between(0, 5)) {
- case 0:
- if(pc->lower_bound > 0) {
- rnd_len = pc->lower_bound - 1;
- break;
- }
- /* Fall through */
- case 1:
- rnd_len = pc->upper_bound + 1;
- break;
- case 2:
- /* Keep rnd_len from the table */
- if(rnd_len <= max_length) {
- break;
- }
- /* Fall through */
- default:
- rnd_len = asn_random_between(pc->lower_bound,
- suggested_upper_bound);
- }
- } else {
- rnd_len =
- asn_random_between(pc->lower_bound, suggested_upper_bound);
- }
- } else {
- rnd_len = asn_random_between(0, max_length);
- }
- } else if(rnd_len > max_length) {
- rnd_len = asn_random_between(0, max_length);
- }
-
- return rnd_len;
-}
-
-asn_random_fill_result_t
-OCTET_STRING_random_fill(const asn_TYPE_descriptor_t *td, void **sptr,
- const asn_encoding_constraints_t *constraints,
- size_t max_length) {
- const asn_OCTET_STRING_specifics_t *specs = td->specifics
- ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_OCTET_STRING_specs;
- asn_random_fill_result_t result_ok = {ARFILL_OK, 1};
- asn_random_fill_result_t result_failed = {ARFILL_FAILED, 0};
- asn_random_fill_result_t result_skipped = {ARFILL_SKIPPED, 0};
- unsigned int unit_bytes = 1;
- unsigned long clb = 0; /* Lower bound on char */
- unsigned long cub = 255; /* Higher bound on char value */
- uint8_t *buf;
- uint8_t *bend;
- uint8_t *b;
- size_t rnd_len;
- OCTET_STRING_t *st;
-
- if(max_length == 0 && !*sptr) return result_skipped;
-
- switch(specs->subvariant) {
- default:
- case ASN_OSUBV_ANY:
- return result_failed;
- case ASN_OSUBV_BIT:
- /* Handled by BIT_STRING itself. */
- return result_failed;
- case ASN_OSUBV_STR:
- unit_bytes = 1;
- clb = 0;
- cub = 255;
- break;
- case ASN_OSUBV_U16:
- unit_bytes = 2;
- clb = 0;
- cub = 65535;
- break;
- case ASN_OSUBV_U32:
- unit_bytes = 4;
- clb = 0;
- cub = 0x10FFFF;
- break;
- }
-
- if(!constraints || !constraints->per_constraints)
- constraints = &td->encoding_constraints;
- if(constraints->per_constraints) {
- const asn_per_constraint_t *pc = &constraints->per_constraints->value;
- if(pc->flags & APC_SEMI_CONSTRAINED) {
- clb = pc->lower_bound;
- } else if(pc->flags & APC_CONSTRAINED) {
- clb = pc->lower_bound;
- cub = pc->upper_bound;
- }
- }
-
- rnd_len =
- OCTET_STRING_random_length_constrained(td, constraints, max_length);
-
- buf = CALLOC(unit_bytes, rnd_len + 1);
- if(!buf) return result_failed;
-
- bend = &buf[unit_bytes * rnd_len];
-
- switch(unit_bytes) {
- case 1:
- for(b = buf; b < bend; b += unit_bytes) {
- *(uint8_t *)b = OCTET_STRING__random_char(clb, cub);
- }
- *(uint8_t *)b = 0;
- break;
- case 2:
- for(b = buf; b < bend; b += unit_bytes) {
- uint32_t code = OCTET_STRING__random_char(clb, cub);
- b[0] = code >> 8;
- b[1] = code;
- }
- *(uint16_t *)b = 0;
- break;
- case 4:
- for(b = buf; b < bend; b += unit_bytes) {
- uint32_t code = OCTET_STRING__random_char(clb, cub);
- b[0] = code >> 24;
- b[1] = code >> 16;
- b[2] = code >> 8;
- b[3] = code;
- }
- *(uint32_t *)b = 0;
- break;
- }
-
- if(*sptr) {
- st = *sptr;
- FREEMEM(st->buf);
- } else {
- st = (OCTET_STRING_t *)(*sptr = CALLOC(1, specs->struct_size));
- if(!st) {
- FREEMEM(buf);
- return result_failed;
- }
- }
-
- st->buf = buf;
- st->size = unit_bytes * rnd_len;
-
- result_ok.length = st->size;
- return result_ok;
-}
+++ /dev/null
-/*-
- * Copyright (c) 2003-2017 Lev Walkin <vlm@lionet.info>. All rights reserved.
- * Redistribution and modifications are permitted subject to BSD license.
- */
-#ifndef _OCTET_STRING_H_
-#define _OCTET_STRING_H_
-
-#include <asn_application.h>
-
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-typedef struct OCTET_STRING {
- uint8_t *buf; /* Buffer with consecutive OCTET_STRING bits */
- size_t size; /* Size of the buffer */
-
- asn_struct_ctx_t _asn_ctx; /* Parsing across buffer boundaries */
-} OCTET_STRING_t;
-
-extern asn_TYPE_descriptor_t asn_DEF_OCTET_STRING;
-extern asn_TYPE_operation_t asn_OP_OCTET_STRING;
-
-asn_struct_free_f OCTET_STRING_free;
-asn_struct_print_f OCTET_STRING_print;
-asn_struct_print_f OCTET_STRING_print_utf8;
-asn_struct_compare_f OCTET_STRING_compare;
-ber_type_decoder_f OCTET_STRING_decode_ber;
-der_type_encoder_f OCTET_STRING_encode_der;
-xer_type_decoder_f OCTET_STRING_decode_xer_hex; /* Hexadecimal */
-xer_type_decoder_f OCTET_STRING_decode_xer_binary; /* 01010111010 */
-xer_type_decoder_f OCTET_STRING_decode_xer_utf8; /* ASCII/UTF-8 */
-xer_type_encoder_f OCTET_STRING_encode_xer;
-xer_type_encoder_f OCTET_STRING_encode_xer_utf8;
-oer_type_decoder_f OCTET_STRING_decode_oer;
-oer_type_encoder_f OCTET_STRING_encode_oer;
-per_type_decoder_f OCTET_STRING_decode_uper;
-per_type_encoder_f OCTET_STRING_encode_uper;
-per_type_decoder_f OCTET_STRING_decode_aper;
-per_type_encoder_f OCTET_STRING_encode_aper;
-asn_random_fill_f OCTET_STRING_random_fill;
-
-#define OCTET_STRING_constraint asn_generic_no_constraint
-#define OCTET_STRING_decode_xer OCTET_STRING_decode_xer_hex
-
-/******************************
- * Handy conversion routines. *
- ******************************/
-
-/*
- * This function clears the previous value of the OCTET STRING (if any)
- * and then allocates a new memory with the specified content (str/size).
- * If size = -1, the size of the original string will be determined
- * using strlen(str).
- * If str equals to NULL, the function will silently clear the
- * current contents of the OCTET STRING.
- * Returns 0 if it was possible to perform operation, -1 otherwise.
- */
-int OCTET_STRING_fromBuf(OCTET_STRING_t *s, const char *str, int size);
-
-/* Handy conversion from the C string into the OCTET STRING. */
-#define OCTET_STRING_fromString(s, str) OCTET_STRING_fromBuf(s, str, -1)
-
-/*
- * Allocate and fill the new OCTET STRING and return a pointer to the newly
- * allocated object. NULL is permitted in str: the function will just allocate
- * empty OCTET STRING.
- */
-OCTET_STRING_t *OCTET_STRING_new_fromBuf(const asn_TYPE_descriptor_t *td,
- const char *str, int size);
-
-/****************************
- * Internally useful stuff. *
- ****************************/
-
-typedef struct asn_OCTET_STRING_specifics_s {
- /*
- * Target structure description.
- */
- unsigned struct_size; /* Size of the structure */
- unsigned ctx_offset; /* Offset of the asn_struct_ctx_t member */
-
- enum asn_OS_Subvariant {
- ASN_OSUBV_ANY, /* The open type (ANY) */
- ASN_OSUBV_BIT, /* BIT STRING */
- ASN_OSUBV_STR, /* String types, not {BMP,Universal}String */
- ASN_OSUBV_U16, /* 16-bit character (BMPString) */
- ASN_OSUBV_U32 /* 32-bit character (UniversalString) */
- } subvariant;
-} asn_OCTET_STRING_specifics_t;
-
-extern asn_OCTET_STRING_specifics_t asn_SPC_OCTET_STRING_specs;
-
-size_t OCTET_STRING_random_length_constrained(
- const asn_TYPE_descriptor_t *, const asn_encoding_constraints_t *,
- size_t max_length);
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif /* _OCTET_STRING_H_ */
+++ /dev/null
-/*
- * Copyright (c) 2017 Lev Walkin <vlm@lionet.info>.
- * All rights reserved.
- * Redistribution and modifications are permitted subject to BSD license.
- */
-#ifndef ASN_DISABLE_OER_SUPPORT
-
-#include <asn_internal.h>
-#include <OCTET_STRING.h>
-#include <errno.h>
-
-asn_dec_rval_t
-OCTET_STRING_decode_oer(const asn_codec_ctx_t *opt_codec_ctx,
- const asn_TYPE_descriptor_t *td,
- const asn_oer_constraints_t *constraints, void **sptr,
- const void *ptr, size_t size) {
- const asn_OCTET_STRING_specifics_t *specs =
- td->specifics ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_OCTET_STRING_specs;
- OCTET_STRING_t *st = (OCTET_STRING_t *)*sptr;
- const asn_oer_constraints_t *cts =
- constraints ? constraints : td->encoding_constraints.oer_constraints;
- ssize_t ct_size = cts ? cts->size : -1;
- asn_dec_rval_t rval = {RC_OK, 0};
- size_t expected_length = 0;
-
- size_t unit_bytes;
- switch(specs->subvariant) {
- default:
- case ASN_OSUBV_BIT:
- ASN_DEBUG("Invalid use of OCTET STRING to decode BIT STRING");
- ASN__DECODE_FAILED;
- case ASN_OSUBV_ANY:
- /* Fall through */
- case ASN_OSUBV_STR:
- unit_bytes = 1;
- break;
- case ASN_OSUBV_U16:
- unit_bytes = 2;
- break;
- case ASN_OSUBV_U32:
- unit_bytes = 4;
- break;
- }
-
- (void)opt_codec_ctx;
-
- if(!st) {
- st = (OCTET_STRING_t *)(*sptr = CALLOC(1, specs->struct_size));
- if(!st) ASN__DECODE_FAILED;
- }
-
- if(ct_size >= 0) {
- expected_length = unit_bytes * ct_size;
- } else {
- /*
- * X.696 (08/2015) #27.2
- * Encode length determinant as _number of octets_, but only
- * if upper bound is not equal to lower bound.
- */
- ssize_t len_len = oer_fetch_length(ptr, size, &expected_length);
- if(len_len > 0) {
- rval.consumed = len_len;
- ptr = (const char *)ptr + len_len;
- size -= len_len;
- } else if(len_len == 0) {
- ASN__DECODE_STARVED;
- } else if(len_len < 0) {
- ASN__DECODE_FAILED;
- }
-
- if(expected_length % unit_bytes != 0) {
- ASN_DEBUG(
- "Data size %" ASN_PRI_SIZE " bytes is not consistent with multiplier %" ASN_PRI_SIZE "",
- expected_length, unit_bytes);
- ASN__DECODE_FAILED;
- }
- }
-
- if(size < expected_length) {
- ASN__DECODE_STARVED;
- } else {
- uint8_t *buf = MALLOC(expected_length + 1);
- if(buf == NULL) {
- ASN__DECODE_FAILED;
- } else {
- memcpy(buf, ptr, expected_length);
- buf[expected_length] = '\0';
- }
- FREEMEM(st->buf);
- st->buf = buf;
- st->size = expected_length;
-
- rval.consumed += expected_length;
- return rval;
- }
-}
-
-/*
- * Encode as Canonical OER.
- */
-asn_enc_rval_t
-OCTET_STRING_encode_oer(const asn_TYPE_descriptor_t *td,
- const asn_oer_constraints_t *constraints,
- const void *sptr, asn_app_consume_bytes_f *cb,
- void *app_key) {
- const asn_OCTET_STRING_specifics_t *specs =
- td->specifics ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_OCTET_STRING_specs;
- const OCTET_STRING_t *st = (const OCTET_STRING_t *)sptr;
- const asn_oer_constraints_t *cts =
- constraints ? constraints : td->encoding_constraints.oer_constraints;
- ssize_t ct_size = cts ? cts->size : -1;
- asn_enc_rval_t er = {0, 0, 0};
-
- if(!st) ASN__ENCODE_FAILED;
-
- ASN_DEBUG("Encoding %s %" ASN_PRI_SIZE " as OCTET STRING", td ? td->name : "", st->size);
-
- if(ct_size >= 0) {
- /*
- * Check that available data matches the constraint
- */
- size_t unit_bytes;
- switch(specs->subvariant) {
- default:
- case ASN_OSUBV_BIT:
- ASN_DEBUG("Invalid use of OCTET STRING to encode BIT STRING");
- ASN__ENCODE_FAILED;
- case ASN_OSUBV_ANY:
- /* Fall through */
- case ASN_OSUBV_STR:
- unit_bytes = 1;
- break;
- case ASN_OSUBV_U16:
- unit_bytes = 2;
- break;
- case ASN_OSUBV_U32:
- unit_bytes = 4;
- break;
- }
-
- if(st->size != unit_bytes * (size_t)ct_size) {
- ASN_DEBUG(
- "Trying to encode %s (%" ASN_PRI_SIZE " bytes) which doesn't fit SIZE "
- "constraint (%" ASN_PRI_SIZE ")",
- td->name, st->size, ct_size);
- ASN__ENCODE_FAILED;
- }
- } else {
- /*
- * X.696 (08/2015) #27.2
- * Encode length determinant as _number of octets_, but only
- * if upper bound is not equal to lower bound.
- */
- ssize_t ret = oer_serialize_length(st->size, cb, app_key);
- if(ret < 0) {
- ASN__ENCODE_FAILED;
- }
- er.encoded += ret;
- }
-
- er.encoded += st->size;
- if(cb(st->buf, st->size, app_key) < 0) {
- ASN__ENCODE_FAILED;
- } else {
- ASN__ENCODED_OK(er);
- }
-}
-
-#endif /* ASN_DISABLE_OER_SUPPORT */
+++ /dev/null
-#include <asn_application.h>
-#include <asn_internal.h>
-#include <per_encoder.h>
-
-static int _uper_encode_flush_outp(asn_per_outp_t *po);
-
-static int
-ignore_output(const void *data, size_t size, void *app_key) {
- (void)data;
- (void)size;
- (void)app_key;
- return 0;
-}
-
-asn_enc_rval_t
-uper_encode(const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints, const void *sptr,
- asn_app_consume_bytes_f *cb, void *app_key) {
- asn_per_outp_t po;
- asn_enc_rval_t er = {0,0,0};
-
- /*
- * Invoke type-specific encoder.
- */
- if(!td || !td->op->uper_encoder)
- ASN__ENCODE_FAILED; /* PER is not compiled in */
-
- po.buffer = po.tmpspace;
- po.nboff = 0;
- po.nbits = 8 * sizeof(po.tmpspace);
- po.output = cb ? cb : ignore_output;
- po.op_key = app_key;
- po.flushed_bytes = 0;
-
- er = td->op->uper_encoder(td, constraints, sptr, &po);
- if(er.encoded != -1) {
- size_t bits_to_flush;
-
- bits_to_flush = ((po.buffer - po.tmpspace) << 3) + po.nboff;
-
- /* Set number of bits encoded to a firm value */
- er.encoded = (po.flushed_bytes << 3) + bits_to_flush;
-
- if(_uper_encode_flush_outp(&po)) ASN__ENCODE_FAILED;
- }
-
- return er;
-}
-
-/*
- * Argument type and callback necessary for uper_encode_to_buffer().
- */
-typedef struct enc_to_buf_arg {
- void *buffer;
- size_t left;
-} enc_to_buf_arg;
-static int encode_to_buffer_cb(const void *buffer, size_t size, void *key) {
- enc_to_buf_arg *arg = (enc_to_buf_arg *)key;
-
- if(arg->left < size)
- return -1; /* Data exceeds the available buffer size */
-
- memcpy(arg->buffer, buffer, size);
- arg->buffer = ((char *)arg->buffer) + size;
- arg->left -= size;
-
- return 0;
-}
-
-asn_enc_rval_t
-uper_encode_to_buffer(const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints,
- const void *sptr, void *buffer, size_t buffer_size) {
- enc_to_buf_arg key;
-
- key.buffer = buffer;
- key.left = buffer_size;
-
- if(td) ASN_DEBUG("Encoding \"%s\" using UNALIGNED PER", td->name);
-
- return uper_encode(td, constraints, sptr, encode_to_buffer_cb, &key);
-}
-
-typedef struct enc_dyn_arg {
- void *buffer;
- size_t length;
- size_t allocated;
-} enc_dyn_arg;
-static int
-encode_dyn_cb(const void *buffer, size_t size, void *key) {
- enc_dyn_arg *arg = key;
- if(arg->length + size >= arg->allocated) {
- size_t new_size = arg->allocated ? arg->allocated : 8;
- void *p;
-
- do {
- new_size <<= 2;
- } while(arg->length + size >= new_size);
-
- p = REALLOC(arg->buffer, new_size);
- if(!p) {
- FREEMEM(arg->buffer);
- memset(arg, 0, sizeof(*arg));
- return -1;
- }
- arg->buffer = p;
- arg->allocated = new_size;
- }
- memcpy(((char *)arg->buffer) + arg->length, buffer, size);
- arg->length += size;
- return 0;
-}
-ssize_t
-uper_encode_to_new_buffer(const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints,
- const void *sptr, void **buffer_r) {
- asn_enc_rval_t er = {0,0,0};
- enc_dyn_arg key;
-
- memset(&key, 0, sizeof(key));
-
- er = uper_encode(td, constraints, sptr, encode_dyn_cb, &key);
- switch(er.encoded) {
- case -1:
- FREEMEM(key.buffer);
- return -1;
- case 0:
- FREEMEM(key.buffer);
- key.buffer = MALLOC(1);
- if(key.buffer) {
- *(char *)key.buffer = '\0';
- *buffer_r = key.buffer;
- return 1;
- } else {
- return -1;
- }
- default:
- *buffer_r = key.buffer;
- ASN_DEBUG("Complete encoded in %ld bits", (long)er.encoded);
- return ((er.encoded + 7) >> 3);
- }
-}
-
-/*
- * Internally useful functions.
- */
-
-/* Flush partially filled buffer */
-static int
-_uper_encode_flush_outp(asn_per_outp_t *po) {
- uint8_t *buf;
-
- if(po->nboff == 0 && po->buffer == po->tmpspace)
- return 0;
-
- buf = po->buffer + (po->nboff >> 3);
- /* Make sure we account for the last, partially filled */
- if(po->nboff & 0x07) {
- buf[0] &= 0xff << (8 - (po->nboff & 0x07));
- buf++;
- }
-
- return po->output(po->tmpspace, buf - po->tmpspace, po->op_key);
-}
-
-asn_enc_rval_t
-aper_encode_to_buffer(const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints,
- const void *sptr, void *buffer, size_t buffer_size) {
- enc_to_buf_arg key;
-
- key.buffer = buffer;
- key.left = buffer_size;
-
- if(td) ASN_DEBUG("Encoding \"%s\" using ALIGNED PER", td->name);
-
- return aper_encode(td, constraints, sptr, encode_to_buffer_cb, &key);
-}
-
-ssize_t
-aper_encode_to_new_buffer(const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints,
- const void *sptr, void **buffer_r) {
- asn_enc_rval_t er = {0,0,0};
- enc_dyn_arg key;
-
- memset(&key, 0, sizeof(key));
-
- er = aper_encode(td, constraints, sptr, encode_dyn_cb, &key);
- switch(er.encoded) {
- case -1:
- FREEMEM(key.buffer);
- return -1;
- case 0:
- FREEMEM(key.buffer);
- key.buffer = MALLOC(1);
- if(key.buffer) {
- *(char *)key.buffer = '\0';
- *buffer_r = key.buffer;
- return 1;
- } else {
- return -1;
- }
- default:
- *buffer_r = key.buffer;
- ASN_DEBUG("Complete encoded in %ld bits", (long)er.encoded);
- return ((er.encoded + 7) >> 3);
- }
-}
-
-static int
-_aper_encode_flush_outp(asn_per_outp_t *po) {
- uint8_t *buf;
-
- if(po->nboff == 0 && po->buffer == po->tmpspace)
- return 0;
-
- buf = po->buffer + (po->nboff >> 3);
- /* Make sure we account for the last, partially filled */
- if(po->nboff & 0x07) {
- buf[0] &= 0xff << (8 - (po->nboff & 0x07));
- buf++;
- }
-
- if (po->output) {
- return po->output(po->tmpspace, buf - po->tmpspace, po->op_key);
- }
- return 0;
-}
-
-asn_enc_rval_t
-aper_encode(const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints,
- const void *sptr, asn_app_consume_bytes_f *cb, void *app_key) {
- asn_per_outp_t po;
- asn_enc_rval_t er = {0,0,0};
-
- /*
- * Invoke type-specific encoder.
- */
- if(!td || !td->op->aper_encoder)
- ASN__ENCODE_FAILED; /* PER is not compiled in */
-
- po.buffer = po.tmpspace;
- po.nboff = 0;
- po.nbits = 8 * sizeof(po.tmpspace);
- po.output = cb;
- po.op_key = app_key;
- po.flushed_bytes = 0;
-
- er = td->op->aper_encoder(td, constraints, sptr, &po);
- if(er.encoded != -1) {
- size_t bits_to_flush;
-
- bits_to_flush = ((po.buffer - po.tmpspace) << 3) + po.nboff;
-
- /* Set number of bits encoded to a firm value */
- er.encoded = (po.flushed_bytes << 3) + bits_to_flush;
-
- if(_aper_encode_flush_outp(&po))
- ASN__ENCODE_FAILED;
- }
-
- return er;
-}
+++ /dev/null
-/*
- * Copyright (c) 2004-2017 Lev Walkin <vlm@lionet.info>. All rights reserved.
- * Redistribution and modifications are permitted subject to BSD license.
- */
-#include <asn_internal.h>
-#include <ANY.h>
-#include <errno.h>
-
-asn_OCTET_STRING_specifics_t asn_SPC_ANY_specs = {
- sizeof(ANY_t),
- offsetof(ANY_t, _asn_ctx),
- ASN_OSUBV_ANY
-};
-asn_TYPE_operation_t asn_OP_ANY = {
- OCTET_STRING_free,
- OCTET_STRING_print,
- OCTET_STRING_compare,
- OCTET_STRING_decode_ber,
- OCTET_STRING_encode_der,
- OCTET_STRING_decode_xer_hex,
- ANY_encode_xer,
-#ifdef ASN_DISABLE_OER_SUPPORT
- 0,
- 0,
-#else
- 0,
- 0,
-#endif /* ASN_DISABLE_OER_SUPPORT */
-#ifdef ASN_DISABLE_PER_SUPPORT
- 0, 0, 0, 0,
-#else
- ANY_decode_uper,
- ANY_encode_uper,
- ANY_decode_aper,
- ANY_encode_aper,
-#endif /* ASN_DISABLE_PER_SUPPORT */
- 0, /* Random fill is not defined for ANY type */
- 0 /* Use generic outmost tag fetcher */
-};
-asn_TYPE_descriptor_t asn_DEF_ANY = {
- "ANY",
- "ANY",
- &asn_OP_ANY,
- 0, 0, 0, 0,
- { 0, 0, asn_generic_no_constraint }, /* No constraints */
- 0, 0, /* No members */
- &asn_SPC_ANY_specs,
-};
-
-#undef RETURN
-#define RETURN(_code) \
- do { \
- asn_dec_rval_t tmprval; \
- tmprval.code = _code; \
- tmprval.consumed = consumed_myself; \
- return tmprval; \
- } while(0)
-
-asn_enc_rval_t
-ANY_encode_xer(const asn_TYPE_descriptor_t *td, const void *sptr, int ilevel,
- enum xer_encoder_flags_e flags, asn_app_consume_bytes_f *cb,
- void *app_key) {
- if(flags & XER_F_CANONICAL) {
- /*
- * Canonical XER-encoding of ANY type is not supported.
- */
- ASN__ENCODE_FAILED;
- }
-
- /* Dump as binary */
- return OCTET_STRING_encode_xer(td, sptr, ilevel, flags, cb, app_key);
-}
-
-struct _callback_arg {
- uint8_t *buffer;
- size_t offset;
- size_t size;
-};
-
-static int ANY__consume_bytes(const void *buffer, size_t size, void *key);
-
-int
-ANY_fromType(ANY_t *st, asn_TYPE_descriptor_t *td, void *sptr) {
- struct _callback_arg arg;
- asn_enc_rval_t erval = {0,0,0};
-
- if(!st || !td) {
- errno = EINVAL;
- return -1;
- }
-
- if(!sptr) {
- if(st->buf) FREEMEM(st->buf);
- st->size = 0;
- return 0;
- }
-
- arg.offset = arg.size = 0;
- arg.buffer = 0;
-
- erval = der_encode(td, sptr, ANY__consume_bytes, &arg);
- if(erval.encoded == -1) {
- if(arg.buffer) FREEMEM(arg.buffer);
- return -1;
- }
- assert((size_t)erval.encoded == arg.offset);
-
- if(st->buf) FREEMEM(st->buf);
- st->buf = arg.buffer;
- st->size = arg.offset;
-
- return 0;
-}
-
-int
-ANY_fromType_aper(ANY_t *st, asn_TYPE_descriptor_t *td, void *sptr) {
- uint8_t *buffer = NULL;
- ssize_t erval;
-
- if(!st || !td) {
- errno = EINVAL;
- return -1;
- }
-
- if(!sptr) {
- if(st->buf) FREEMEM(st->buf);
- st->size = 0;
- return 0;
- }
-
- erval = aper_encode_to_new_buffer(td, td->encoding_constraints.per_constraints, sptr, (void**)&buffer);
-
- if(erval == -1) {
- if(buffer) FREEMEM(buffer);
- return -1;
- }
- assert((size_t)erval > 0);
-
- if(st->buf) FREEMEM(st->buf);
- st->buf = buffer;
- st->size = erval;
-
- return 0;
-}
-
-ANY_t *
-ANY_new_fromType(asn_TYPE_descriptor_t *td, void *sptr) {
- ANY_t tmp;
- ANY_t *st;
-
- if(!td || !sptr) {
- errno = EINVAL;
- return 0;
- }
-
- memset(&tmp, 0, sizeof(tmp));
-
- if(ANY_fromType(&tmp, td, sptr)) return 0;
-
- st = (ANY_t *)CALLOC(1, sizeof(ANY_t));
- if(st) {
- *st = tmp;
- return st;
- } else {
- FREEMEM(tmp.buf);
- return 0;
- }
-}
-
-ANY_t *
-ANY_new_fromType_aper(asn_TYPE_descriptor_t *td, void *sptr) {
- ANY_t tmp;
- ANY_t *st;
-
- if(!td || !sptr) {
- errno = EINVAL;
- return 0;
- }
-
- memset(&tmp, 0, sizeof(tmp));
-
- if(ANY_fromType_aper(&tmp, td, sptr)) return 0;
-
- st = (ANY_t *)CALLOC(1, sizeof(ANY_t));
- if(st) {
- *st = tmp;
- return st;
- } else {
- FREEMEM(tmp.buf);
- return 0;
- }
-}
-
-int
-ANY_to_type(ANY_t *st, asn_TYPE_descriptor_t *td, void **struct_ptr) {
- asn_dec_rval_t rval;
- void *newst = 0;
-
- if(!st || !td || !struct_ptr) {
- errno = EINVAL;
- return -1;
- }
-
- if(st->buf == 0) {
- /* Nothing to convert, make it empty. */
- *struct_ptr = (void *)0;
- return 0;
- }
-
- rval = ber_decode(0, td, (void **)&newst, st->buf, st->size);
- if(rval.code == RC_OK) {
- *struct_ptr = newst;
- return 0;
- } else {
- /* Remove possibly partially decoded data. */
- ASN_STRUCT_FREE(*td, newst);
- return -1;
- }
-}
-
-int
-ANY_to_type_aper(ANY_t *st, asn_TYPE_descriptor_t *td, void **struct_ptr) {
- asn_dec_rval_t rval;
- void *newst = 0;
-
- if(!st || !td || !struct_ptr) {
- errno = EINVAL;
- return -1;
- }
-
- if(st->buf == 0) {
- /* Nothing to convert, make it empty. */
- *struct_ptr = (void *)0;
- return 0;
- }
-
- rval = aper_decode(0, td, (void **)&newst, st->buf, st->size, 0, 0);
- if(rval.code == RC_OK) {
- *struct_ptr = newst;
- return 0;
- } else {
- /* Remove possibly partially decoded data. */
- ASN_STRUCT_FREE(*td, newst);
- return -1;
- }
-}
-
-static int ANY__consume_bytes(const void *buffer, size_t size, void *key) {
- struct _callback_arg *arg = (struct _callback_arg *)key;
-
- if((arg->offset + size) >= arg->size) {
- size_t nsize = (arg->size ? arg->size << 2 : 16) + size;
- void *p = REALLOC(arg->buffer, nsize);
- if(!p) return -1;
- arg->buffer = (uint8_t *)p;
- arg->size = nsize;
- }
-
- memcpy(arg->buffer + arg->offset, buffer, size);
- arg->offset += size;
- assert(arg->offset < arg->size);
-
- return 0;
-}
-
-#ifndef ASN_DISABLE_PER_SUPPORT
-
-asn_dec_rval_t
-ANY_decode_uper(const asn_codec_ctx_t *opt_codec_ctx,
- const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints, void **sptr,
- asn_per_data_t *pd) {
- const asn_OCTET_STRING_specifics_t *specs =
- td->specifics ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_ANY_specs;
- size_t consumed_myself = 0;
- int repeat;
- ANY_t *st = (ANY_t *)*sptr;
-
- (void)opt_codec_ctx;
- (void)constraints;
-
- /*
- * Allocate the structure.
- */
- if(!st) {
- st = (ANY_t *)(*sptr = CALLOC(1, specs->struct_size));
- if(!st) RETURN(RC_FAIL);
- }
-
- ASN_DEBUG("UPER Decoding ANY type");
-
- st->size = 0;
- do {
- ssize_t raw_len;
- ssize_t len_bytes;
- ssize_t len_bits;
- void *p;
- int ret;
-
- /* Get the PER length */
- raw_len = uper_get_length(pd, -1, 0, &repeat);
- if(raw_len < 0) RETURN(RC_WMORE);
- if(raw_len == 0 && st->buf) break;
-
- ASN_DEBUG("Got PER length len %" ASN_PRI_SIZE ", %s (%s)", raw_len,
- repeat ? "repeat" : "once", td->name);
- len_bytes = raw_len;
- len_bits = len_bytes * 8;
-
- p = REALLOC(st->buf, st->size + len_bytes + 1);
- if(!p) RETURN(RC_FAIL);
- st->buf = (uint8_t *)p;
-
- ret = per_get_many_bits(pd, &st->buf[st->size], 0, len_bits);
- if(ret < 0) RETURN(RC_WMORE);
- consumed_myself += len_bits;
- st->size += len_bytes;
- } while(repeat);
- st->buf[st->size] = 0; /* nul-terminate */
-
- RETURN(RC_OK);
-}
-
-asn_enc_rval_t
-ANY_encode_uper(const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints, const void *sptr,
- asn_per_outp_t *po) {
- const ANY_t *st = (const ANY_t *)sptr;
- asn_enc_rval_t er = {0, 0, 0};
- const uint8_t *buf;
- size_t size;
- int ret;
-
- (void)constraints;
-
- if(!st || (!st->buf && st->size)) ASN__ENCODE_FAILED;
-
- buf = st->buf;
- size = st->size;
- do {
- int need_eom = 0;
- ssize_t may_save = uper_put_length(po, size, &need_eom);
- if(may_save < 0) ASN__ENCODE_FAILED;
-
- ret = per_put_many_bits(po, buf, may_save * 8);
- if(ret) ASN__ENCODE_FAILED;
-
- buf += may_save;
- size -= may_save;
- assert(!(may_save & 0x07) || !size);
- if(need_eom && uper_put_length(po, 0, 0))
- ASN__ENCODE_FAILED; /* End of Message length */
- } while(size);
-
- ASN__ENCODED_OK(er);
-}
-
-asn_dec_rval_t
-ANY_decode_aper(const asn_codec_ctx_t *opt_codec_ctx,
- const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints, void **sptr,
- asn_per_data_t *pd) {
- const asn_OCTET_STRING_specifics_t *specs =
- td->specifics ? (const asn_OCTET_STRING_specifics_t *)td->specifics
- : &asn_SPC_ANY_specs;
- size_t consumed_myself = 0;
- int repeat;
- ANY_t *st = (ANY_t *)*sptr;
-
- (void)opt_codec_ctx;
- (void)constraints;
-
- /*
- * Allocate the structure.
- */
- if(!st) {
- st = (ANY_t *)(*sptr = CALLOC(1, specs->struct_size));
- if(!st) RETURN(RC_FAIL);
- }
-
- ASN_DEBUG("APER Decoding ANY type");
-
- st->size = 0;
- do {
- ssize_t raw_len;
- ssize_t len_bytes;
- ssize_t len_bits;
- void *p;
- int ret;
-
- /* Get the PER length */
- raw_len = aper_get_length(pd, -1, 0, &repeat);
- if(raw_len < 0) RETURN(RC_WMORE);
- if(raw_len == 0 && st->buf) break;
-
- ASN_DEBUG("Got PER length len %" ASN_PRI_SIZE ", %s (%s)", raw_len,
- repeat ? "repeat" : "once", td->name);
- len_bytes = raw_len;
- len_bits = len_bytes * 8;
-
- p = REALLOC(st->buf, st->size + len_bytes + 1);
- if(!p) RETURN(RC_FAIL);
- st->buf = (uint8_t *)p;
-
- ret = per_get_many_bits(pd, &st->buf[st->size], 0, len_bits);
- if(ret < 0) RETURN(RC_WMORE);
- consumed_myself += len_bits;
- st->size += len_bytes;
- } while(repeat);
- st->buf[st->size] = 0; /* nul-terminate */
-
- RETURN(RC_OK);
-}
-
-asn_enc_rval_t
-ANY_encode_aper(const asn_TYPE_descriptor_t *td,
- const asn_per_constraints_t *constraints, const void *sptr,
- asn_per_outp_t *po) {
- const ANY_t *st = (const ANY_t *)sptr;
- asn_enc_rval_t er = {0, 0, 0};
- const uint8_t *buf;
- size_t size;
- int ret;
-
- (void)constraints;
-
- if(!st || (!st->buf && st->size)) ASN__ENCODE_FAILED;
-
- buf = st->buf;
- size = st->size;
- do {
- int need_eom = 0;
- ssize_t may_save = uper_put_length(po, size, &need_eom);
- if(may_save < 0) ASN__ENCODE_FAILED;
-
- ret = per_put_many_bits(po, buf, may_save * 8);
- if(ret) ASN__ENCODE_FAILED;
-
- buf += may_save;
- size -= may_save;
- assert(!(may_save & 0x07) || !size);
- if(need_eom && uper_put_length(po, 0, 0))
- ASN__ENCODE_FAILED; /* End of Message length */
- } while(size);
-
- ASN__ENCODED_OK(er);
-}
-#endif /* ASN_DISABLE_PER_SUPPORT */
-
+++ /dev/null
-/*-
- * Copyright (c) 2004-2017 Lev Walkin <vlm@lionet.info>. All rights reserved.
- * Redistribution and modifications are permitted subject to BSD license.
- */
-#ifndef ASN_TYPE_ANY_H
-#define ASN_TYPE_ANY_H
-
-#include <OCTET_STRING.h> /* Implemented via OCTET STRING type */
-
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-typedef struct ANY {
- uint8_t *buf; /* BER-encoded ANY contents */
- int size; /* Size of the above buffer */
-
- asn_struct_ctx_t _asn_ctx; /* Parsing across buffer boundaries */
-} ANY_t;
-
-extern asn_TYPE_descriptor_t asn_DEF_ANY;
-extern asn_TYPE_operation_t asn_OP_ANY;
-extern asn_OCTET_STRING_specifics_t asn_SPC_ANY_specs;
-
-asn_struct_free_f ANY_free;
-asn_struct_print_f ANY_print;
-ber_type_decoder_f ANY_decode_ber;
-der_type_encoder_f ANY_encode_der;
-xer_type_encoder_f ANY_encode_xer;
-per_type_decoder_f ANY_decode_uper;
-per_type_encoder_f ANY_encode_uper;
-per_type_decoder_f ANY_decode_aper;
-per_type_encoder_f ANY_encode_aper;
-
-#define ANY_free OCTET_STRING_free
-#define ANY_print OCTET_STRING_print
-#define ANY_compare OCTET_STRING_compare
-#define ANY_constraint asn_generic_no_constraint
-#define ANY_decode_ber OCTET_STRING_decode_ber
-#define ANY_encode_der OCTET_STRING_encode_der
-#define ANY_decode_xer OCTET_STRING_decode_xer_hex
-
-/******************************
- * Handy conversion routines. *
- ******************************/
-
-/* Convert another ASN.1 type into the ANY. This implies DER encoding. */
-int ANY_fromType(ANY_t *, asn_TYPE_descriptor_t *td, void *struct_ptr);
-int ANY_fromType_aper(ANY_t *st, asn_TYPE_descriptor_t *td, void *sptr);
-ANY_t *ANY_new_fromType(asn_TYPE_descriptor_t *td, void *struct_ptr);
-ANY_t *ANY_new_fromType_aper(asn_TYPE_descriptor_t *td, void *sptr);
-
-/* Convert the contents of the ANY type into the specified type. */
-int ANY_to_type(ANY_t *, asn_TYPE_descriptor_t *td, void **struct_ptr);
-int ANY_to_type_aper(ANY_t *, asn_TYPE_descriptor_t *td, void **struct_ptr);
-
-#define ANY_fromBuf(s, buf, size) OCTET_STRING_fromBuf((s), (buf), (size))
-#define ANY_new_fromBuf(buf, size) OCTET_STRING_new_fromBuf( \
- &asn_DEF_ANY, (buf), (size))
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif /* ASN_TYPE_ANY_H */
nel = (struct _stack_el *)CALLOC(1, sizeof(struct _stack_el));
if(nel == NULL)
return NULL;
-
+
if(st->tail) {
/* Increase a subcontainment depth */
nel->cont_level = st->tail->cont_level + 1;
return 0;
}
}
-
+
return -1; /* No, it's not */
}
ret = aper_put_length(po, csiz->upper_bound - csiz->lower_bound + 1, sizeinunits - csiz->lower_bound);
if(ret) ASN__ENCODE_FAILED;
}
- if (st->size > 2) { /* X.691 #16 NOTE 1 */
+ /* EB MOD
+ AFAIU if lb != ub it is aligned whatever the number of bits */
+ if ((st->size > 2) || (csiz->lower_bound != csiz->upper_bound)) { /* X.691 #16.11 */
if (aper_put_align(po) < 0)
ASN__ENCODE_FAILED;
}
#endif /* C99 */
#else /* ASN_EMIT_DEBUG != 1 */
#if __STDC_VERSION__ >= 199901L
-#if 1
#define ASN_DEBUG(...) do{}while(0)
-#else
-#define ASN_DEBUG(fmt, args...) do { \
- fprintf(stderr, fmt, ##args); \
- fprintf(stderr, " (%s:%d)\n", \
- __FILE__, __LINE__); \
- } while(0)
-#endif
#else /* not C99 */
static void CC_PRINTFLIKE(1, 2) ASN_DEBUG(const char *fmt, ...) { (void)fmt; }
#endif /* C99 or better */
--- /dev/null
+#include "odu_common_codec.h"
+
+/*******************************************************************
+ *
+ * @brief Builds PLMN ID
+ *
+ * @details
+ *
+ * Function : plmnBuildId
+ *
+ * Functionality: Building the PLMN ID
+ *
+ * @params[in] PLMNID plmn
+ * OCTET_STRING_t *octe
+ * @return ROK - success
+ * RFAILED - failure
+ *
+ * ****************************************************************/
+S16 buildPlmnId(Plmn plmn, OCTET_STRING_t *octe)
+{
+ U8 mncCnt;
+ mncCnt = 2;
+ octe->buf[0] = ((plmn.mcc[1] << 4) | (plmn.mcc[0]));
+ if(mncCnt == 2)
+ {
+ octe->buf[1] = ((0xf0) | (plmn.mcc[2]));
+ octe->buf[2] = ((plmn.mnc[1] << 4) | (plmn.mnc[0]));
+ }
+ else
+ {
+ octe->buf[1] = ((plmn.mnc[0] << 4) | (plmn.mcc[2]));
+ octe->buf[2] = ((plmn.mnc[2] << 4) | (plmn.mnc[1]));
+ }
+ RETVALUE(ROK);
+}
+
+/*******************************************************************
+ *
+ * @brief Fills the RicId
+ *
+ * @details
+ *
+ * Function : FillRicId
+ *
+ * Functionality: Fills the RicId
+ *
+ * @params[in] BIT_STRING_t *nbid,
+ * U8 unusedBits
+ * U8 byteSize
+ * U8 val
+ *
+ * @return ROK - success
+ * RFAILED - failure
+ *
+ * ****************************************************************/
+
+S16 fillBitString(BIT_STRING_t *id, U8 unusedBits, U8 byteSize, U8 val)
+{
+ U8 tmp;
+ if(id->buf == NULLP)
+ {
+ RETVALUE(RFAILED);
+ }
+
+ for (tmp = 0 ; tmp < (byteSize-1); tmp++)
+ {
+ id->buf[tmp] = tmp;
+ }
+ id->buf[byteSize-1] = val;
+ id->bits_unused = unusedBits;
+ RETVALUE(ROK);
+}
+
+
+/**********************************************************************
+ End of file
+ **********************************************************************/
#ifndef __ODU_COMMON_CODEC_H__
#define __ODU_COMMON_CODEC_H__
+#include "envopt.h" /* Environment options */
+#include "envdep.h" /* Environment dependent */
+#include "envind.h" /* Environment independent */
+
+#include "gen.h" /* General */
+#include "gen.x" /* General */
+#include "ssi.h"
+#include "OCTET_STRING.h"
+#include "BIT_STRING.h"
#include "asn_codecs.h"
#define ENC_BUF_MAX_LEN 200
#define ENCODE_FAIL -1
+typedef struct PlmnIdentity
+{
+ uint8_t mcc[3];
+ uint8_t mnc[3];
+}Plmn;
+
+S16 buildPlmnId(Plmn plmn, OCTET_STRING_t *octe);
+S16 fillBitString(BIT_STRING_t *id, U8 unusedBits, U8 byteSize, U8 val);
+
char encBuf[ENC_BUF_MAX_LEN];
int encBufSize;
#include "cu_stub_sctp.h"
#include "cu_f1ap_msg_hdl.h"
-char encBuf[ENC_BUF_MAX_LEN];
-
-/*******************************************************************
- *
- * @brief Writes the encoded chunks into a buffer
- *
- * @details
- *
- * Function : PrepFinalEncBuf
- *
- * Functionality:Fills the encoded buffer
- *
- * @params[in] void *buffer,initial encoded data
- * @params[in] size_t size,size of buffer
- * @params[in] void *encodedBuf,final buffer
- * @return ROK - success
- * RFAILED - failure
- *
- * ****************************************************************/
-static int PrepFinalEncBuf(const void *buffer, size_t size, void *encodedBuf)
-{
- memcpy(encodedBuf + encBufSize, buffer, size);
- encBufSize += size;
- return 0;
-} /* PrepFinalEncBuf */
-
/*******************************************************************
*
* @brief Sends F1 msg over SCTP
RETVALUE(ROK);
} /* SendF1APMsg */
-
-void plmnBuildCU(Plmn plmn, OCTET_STRING_t *octe)
-{
- U8 mncCnt;
- mncCnt = 2;
- octe->buf[0] = ((plmn.mcc[1] << 4) | (plmn.mcc[0]));
- if(mncCnt == 2)
- {
- octe->buf[1] = ((0xf0) | (plmn.mcc[2]));
- octe->buf[2] = ((plmn.mnc[1] << 4) | (plmn.mnc[0]));
- }
- else
- {
- octe->buf[1] = ((plmn.mnc[0] << 4) | (plmn.mcc[2]));
- octe->buf[2] = ((plmn.mnc[2] << 4) | (plmn.mnc[1]));
- }
-}
-
/*******************************************************************
*
* @brief Builds NRCell ID
CU_FREE(f1apMsg, sizeof(F1AP_PDU_t));
RETVALUE(RFAILED);
}
- plmnBuildCU(cuCfgParams.plmn , &cellToActivate->list.array[0]->value.choice.\
+ buildPlmnId(cuCfgParams.plmn , &cellToActivate->list.array[0]->value.choice.\
Cells_to_be_Activated_List_Item.nRCGI.pLMN_Identity);
cellToActivate->list.array[0]->value.choice.Cells_to_be_Activated_List_Item.\
nRCGI.nRCellIdentity.size = 5;
{
DU_LOG("\nF1AP : F1 setup request received");
BuildAndSendF1SetupRsp();
- break;
+ break;
}
case InitiatingMessage__value_PR_GNBDUConfigurationUpdate:
-extern char encBuf[ENC_BUF_MAX_LEN];
-int encBufSize;
-
void F1APMsgHdlr(Buffer *mBuf);
/**********************************************************************
#include "cm_inet.x"
#include "cm_llist.x" /* Common link list defines */
#include "cm_hash.x" /* Common hashlist defines */
+#include "odu_common_codec.h"
#include "du_log.h"
#define MAX_IPV6_LEN 16
U32 extRrcVer; /* Latest RRC version extended */
}RrcVersion;
-typedef struct
-{
- U8 f1Itf;
- U8 e2Itf;
-}ItfType;
-
typedef struct egtpParams
{
SctpIpAddr localIp;
U32 maxTunnelId;
}EgtpParams;
-typedef struct sctpParamsCu
+typedef struct CuSctpParams
{
SctpIpAddr duIpAddr;
U16 duPort;
SctpIpAddr cuIpAddr;
U16 cuPort;
- ItfType itfType;
-}SctpParamsCu;
-
-typedef struct fPLMN
-{
- U8 mcc[3];
- U8 mnc[3];
-}Plmn;
-
+}CuSctpParams;
typedef struct cuCfgParams
{
U32 cuId;
char cuName[CU_DU_NAME_LEN_MAX];
- SctpParamsCu sctpParams;
- Plmn plmn;
+ CuSctpParams sctpParams;
+ Plmn plmn;
EgtpParams egtpParams;
RrcVersion rrcVersion;
}CuCfgParams;
f1Params.destPort = sctpCfg.duPort;
f1Params.srcPort = sctpCfg.cuPort;
f1Params.bReadFdSet = ROK;
- cmMemset ((U8 *)&f1Params.sockFd, -1, sizeof(CmInetFd));
- cmMemset ((U8 *)&f1Params.lstnSockFd, -1, sizeof(CmInetFd));
+ memset(&f1Params.sockFd, -1, sizeof(CmInetFd));
+ memset(&f1Params.lstnSockFd, -1, sizeof(CmInetFd));
fillDestNetAddr(&f1Params.destIpNetAddr, &sctpCfg.duIpAddr);
-/* Set polling to FALSE */
- pollingState = FALSE;
-
- RETVALUE(ROK);
+ RETVALUE(ROK);
}
* ****************************************************************/
S16 sctpSetSockOpts(CmInetFd *sock_Fd)
{
- S16 ret = ROK;
+ S16 ret = ROK;
CmSctpEvent sctpEvent;
sctpEvent.dataIoEvent = TRUE;
S16 sctpAccept(CmInetFd *lstnSock_Fd, CmInetAddr *peerAddr, CmInetFd *sock_Fd)
{
U8 ret;
+
ret = cmInetListen(lstnSock_Fd, 1);
if (ret != ROK)
{
* RFAILED - failure
*
* ****************************************************************/
-
+
S16 processPolling(sctpSockPollParams *pollParams, CmInetFd *sockFd, U32 *timeoutPtr, CmInetMemInfo *memInfo)
{
U16 ret = ROK;
CM_INET_FD_SET(sockFd, &pollParams->readFd);
- ret = cmInetSelect(&pollParams->readFd, NULLP, timeoutPtr, &pollParams->numFds);
+ ret = cmInetSelect(&pollParams->readFd, NULLP, timeoutPtr, &pollParams->numFd);
if(CM_INET_FD_ISSET(sockFd, &pollParams->readFd))
{
CM_INET_FD_CLR(sockFd, &pollParams->readFd);
#include "cm_tpt.x"
#define MAX_RETRY 5
-#define DU_SCTP_DOWN 0
-#define DU_SCTP_UP 1
-#define DU_SCTP_CONNECTING 2
/* Global variable declaration */
U8 socket_type; /* Socket type */
Bool connUp; /* Is connection up */
int assocId; /* Assoc Id of connected assoc */
-SctpParamsCu sctpCfg; /* SCTP configurations at DU */
-Bool pollingState;
+CuSctpParams sctpCfg; /* SCTP configurations at DU */
+
typedef struct
{
- S16 numFds;
+ S16 numFd;
U16 port;
U32 flag;
Buffer *mBuf;
S16 procF1SetupRsp(F1AP_PDU_t *f1apMsg);
S16 procCellsToBeActivated(Cells_to_be_Activated_List_t cellsToBeActivated);
-S16 procE2SetupRsp(E2AP_PDU_t *e2apMsg);
S16 duSendSchGnbCfg();
S16 duSendSchGnbCfgToMac(RgrCfgReqInfo *cfgReq, U32 trans_id);
#endif
#include "stdbool.h"
#include "du_app_mac_inf.h"
#include "du_log.h"
-#include "BIT_STRING.h"
+#include "odu_common_codec.h"
/* MACROS */
#define DU_INST 0
#define PLMN_MNC0 4
#define PLMN_MNC1 8
#define PLMN_MNC2 0
+#define PLMN_SIZE 3
#define NR_ARFCN 2079427
#define SUL_ARFCN 100
#define NR_FREQ_BAND 257
}type;
}F1ResetType;
-typedef struct f1PLMN
-{
- uint8_t mcc[3];
- uint8_t mnc[3];
-}PlmnId;
-
typedef struct nrEcgi
{
- PlmnId plmn;
+ Plmn plmn;
uint16_t cellId;
}NrEcgi;
typedef struct f1SrvdPlmn
{
- PlmnId plmn;
+ Plmn plmn;
F1TaiSliceSuppLst taiSliceSuppLst;
}F1SrvdPlmn;
typedef struct f1BrdcstPlmnInfo
{
- PlmnId plmn[MAX_PLMN]; /* PLMN id list */
- PlmnId extPlmn[MAX_PLMN]; /* Extended PLMN id list */
+ Plmn plmn[MAX_PLMN]; /* PLMN id list */
+ Plmn extPlmn[MAX_PLMN]; /* Extended PLMN id list */
uint16_t tac; /* 5GS-TAC */
uint32_t nrCellId; /* NR Cell id */
uint8_t ranac; /* RAN Area code */
{
NrEcgi nrCgi; /* Cell global Identity */
uint32_t nrPci; /* Physical Cell Identity */
- PlmnId plmn[MAX_PLMN]; /* Available PLMN list */
- PlmnId extPlmn[MAX_PLMN]; /* Extended available PLMN list */
+ Plmn plmn[MAX_PLMN]; /* Available PLMN list */
+ Plmn extPlmn[MAX_PLMN]; /* Extended available PLMN list */
}F1CellInfo;
typedef struct f1DuCellInfo
/* Unified Access Class Assistance Information */
typedef struct f1UacAssistInfo
{
- PlmnId plmn[MAXNUMOFUACPLMN]; /* UAC PLMN list */
+ Plmn plmn[MAXNUMOFUACPLMN]; /* UAC PLMN list */
F1UacType uacType[MAXNUMOFUACPERPLMN]; /* UAC Type list */
}F1UacAssistInfo;
typedef struct sib1Params
{
- PlmnId plmn;
+ Plmn plmn;
uint8_t tac;
long ranac;
uint8_t cellIdentity;
typedef struct duCfgParams
{
- SctpParams sctpParams; /* SCTP Params */
- F1EgtpParams egtpParams; /* EGTP Params */
+ SctpParams sctpParams; /* SCTP Params */
+ F1EgtpParams egtpParams; /* EGTP Params */
uint32_t maxUe;
uint32_t duId;
uint8_t duName[CU_DU_NAME_LEN_MAX];
SchedulerCfg schedCfg;
- F1DuSrvdCellInfo srvdCellLst[DU_MAX_CELLS]; /* Serving cell list *///TODO: this must be removed eventually
- F1RrcVersion rrcVersion; /* RRC version */
-
- MacCellCfg macCellCfg; /* MAC cell configuration */
- MibParams mibParams; /* MIB Params */
- Sib1Params sib1Params; /* SIB1 Params */
+ F1DuSrvdCellInfo srvdCellLst[DU_MAX_CELLS]; /* Serving cell list *///TODO: this must be removed eventually
+ F1RrcVersion rrcVersion; /* RRC version */
+ MacCellCfg macCellCfg; /* MAC cell configuration */
+ MibParams mibParams; /* MIB Params */
+ Sib1Params sib1Params; /* SIB1 Params */
}DuCfgParams;
/*function declarations */
/* Global variable */
DuCfgParams duCfgParam;
-char encBuf[ENC_BUF_MAX_LEN];
-int encBufSize;
-
-/*******************************************************************
- *
- * @brief Writes the encoded chunks into a buffer
- *
- * @details
- *
- * Function : PrepFinalEncBuf
- *
- * Functionality:Fills the encoded buffer
- *
- * @params[in] void *buffer,initial encoded data
- * @params[in] size_t size,size of buffer
- * @params[in] void *encodedBuf,final buffer
- * @return ROK - success
- * RFAILED - failure
- *
- * ****************************************************************/
-static int PrepFinalEncBuf(const void *buffer, size_t size, void *encodedBuf)
-{
- memcpy(encodedBuf + encBufSize, buffer, size);
- encBufSize += size;
- return 0;
-} /* PrepFinalEncBuf */
-
-/*******************************************************************
- *
- * @brief Builds PLMN ID
- *
- * @details
- *
- * Function : BuildPlmnId
- *
- * Functionality: Building the PLMN ID
- *
- * @params[in] PLMNID plmn
- * OCTET_STRING_t *plmnid
- * @return ROK - success
- * RFAILED - failure
- *
- * ****************************************************************/
-
-S16 BuildPlmnId(PlmnId plmn, OCTET_STRING_t *plmnid)
-{
- U8 mncCnt;
- plmnid->size = 3;
- DU_ALLOC(plmnid->buf, plmnid->size * sizeof(U8));
- if(plmnid->buf == NULLP)
- {
- RETVALUE(RFAILED);
- }
- mncCnt = 2;
- plmnid->buf[0] = ((plmn.mcc[1] << 4) | (plmn.mcc[0]));
- if(mncCnt == 2)
- {
- plmnid->buf[1] = ((0xf0) | (plmn.mcc[2]));
- plmnid->buf[2] = ((plmn.mnc[1] << 4) | (plmn.mnc[0]));
- }
- else
- {
- plmnid->buf[1] = ((plmn.mnc[0] << 4) | (plmn.mcc[2]));
- plmnid->buf[2] = ((plmn.mnc[2] << 4) | (plmn.mnc[1]));
- }
- RETVALUE(ROK);
-}
-
-/*******************************************************************
- *
- * @brief Builds NodeB Id
- *
- * @details
- *
- * Function : BuildNodeBId
- *
- * Functionality: Building the NodeBId
- *
- * @params[in] BIT_STRING_t *nbid,
- * U8 unusedBits
- * U8 byteSize
- * U8 val
- *
- * @return ROK - success
- * RFAILED - failure
- *
- * ****************************************************************/
-
-S16 BuildNodeBId(BIT_STRING_t *nbid, U8 unusedBits, U8 byteSize, U8 val)
-{
- U8 tmp;
- nbid->size = byteSize;
- DU_ALLOC(nbid->buf, nbid->size * sizeof(U8));
- if(nbid->buf == NULLP)
- {
- RETVALUE(RFAILED);
- }
-
- for (tmp = 0 ; tmp < ((nbid->size)-1); tmp++)
- {
- nbid->buf[tmp] = 0;
- }
- nbid->buf[byteSize-1] = val;
- nbid->bits_unused = unusedBits;
- RETVALUE(ROK);
-}
/*******************************************************************
*
U8 val = 1;
if(gNbId != NULLP)
{
- BuildPlmnId(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn, \
+ /* Allocate Buffer size */
+ gNbId->global_gNB_ID.plmn_id.size = 3 * sizeof(U8);
+ DU_ALLOC(gNbId->global_gNB_ID.plmn_id.buf , gNbId->global_gNB_ID.plmn_id.size);
+ buildPlmnId(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn, \
&gNbId->global_gNB_ID.plmn_id);
+
/* fill gND Id */
- gNbId->global_gNB_ID.gnb_id.present = GNB_ID_Choice_PR_gnb_ID;
- BuildNodeBId(&gNbId->global_gNB_ID.gnb_id.choice.gnb_ID, unused, byteSize, val);
+ gNbId->global_gNB_ID.gnb_id.present = GNB_ID_Choice_PR_gnb_ID;
+ /* Allocate Buffer size */
+ gNbId->global_gNB_ID.gnb_id.choice.gnb_ID.size = byteSize * sizeof(U8);
+ DU_ALLOC(gNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf, gNbId->global_gNB_ID.gnb_id.choice.gnb_ID.size);
+ fillBitString(&gNbId->global_gNB_ID.gnb_id.choice.gnb_ID, unused, byteSize, val);
}
- RETVALUE(ROK);
+ return ROK;
}
/*******************************************************************
if(e2apMsg == NULLP)
{
DU_LOG("\nE2AP : Memory allocation for E2AP-PDU failed");
- RETVALUE(RFAILED);
+ return RFAILED;
}
e2apMsg->present = E2AP_PDU_PR_initiatingMessage;
{
DU_LOG("\nE2AP : Memory allocation for E2AP-PDU failed");
DU_FREE(e2apMsg, sizeof(E2AP_PDU_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
e2apMsg->choice.initiatingMessage->criticality = CriticalityE2_reject;
e2apMsg->choice.initiatingMessage->procedureCode = ProcedureCodeE2_id_E2setup;
DU_LOG("\nE2AP : Memory allocation for E2RequestIEs failed");
DU_FREE(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t));
DU_FREE(e2apMsg, (Size)sizeof(E2AP_PDU_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
for(idx=0; idx<elementCnt; idx++)
DU_FREE(e2apMsg->choice.initiatingMessage, \
sizeof(InitiatingMessageE2_t));
DU_FREE(e2apMsg, sizeof(E2AP_PDU_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
}
{
DU_LOG("\nE2AP : Could not encode E2SetupRequest structure (at %s)\n",\
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
- RETVALUE(RFAILED);
+ return RFAILED;
}
else
{
if(SendE2APMsg(DU_APP_MEM_REGION, DU_POOL) != ROK)
{
DU_LOG("\nE2AP : Sending E2 Setup request failed");
- RETVALUE(RFAILED);
+ return RFAILED;
}
- RETVALUE(ROK);
+ return ROK;
}/* End of BuildAndSendE2SetupReq */
/*******************************************************************
ricReqId->ricRequestorID = 1;
ricReqId->ricInstanceID = 1;
}
- RETVALUE(ROK);
+ return ROK;
}
/*******************************************************************
ricAdmitItems->value.present = RICaction_Admitted_ItemIEs__value_PR_RICaction_Admitted_Item;
ricAdmitItems->value.choice.RICaction_Admitted_Item.ricActionID = 1;
}
- RETVALUE(ROK);
+ return ROK;
}
/*******************************************************************
*
if(admitListPtr->list.array == NULLP)
{
DU_LOG("\nE2AP : Memory allocation for RIC Admit List failed");
- RETVALUE(RFAILED);
+ return RFAILED;
}
DU_ALLOC(admitListPtr->list.array[0], sizeof(RICaction_Admitted_ItemIEs_t));
fillRicAdmitList(admitListPtr->list.array[0]);
- RETVALUE(ROK);
+ return ROK;
}
/*******************************************************************
if(e2apRicMsg == NULLP)
{
DU_LOG("\nE2AP : Memory allocation for E2AP-PDU failed");
- RETVALUE(RFAILED);
+ return RFAILED;
}
e2apRicMsg->present = E2AP_PDU_PR_successfulOutcome;
DU_ALLOC(e2apRicMsg->choice.successfulOutcome, sizeof(SuccessfulOutcomeE2_t));
{
DU_LOG("\nE2AP : Memory allocation for Ric subscription Response failed");
DU_FREE(e2apRicMsg, sizeof(RICsubscriptionResponse_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
e2apRicMsg->choice.successfulOutcome->procedureCode = ProcedureCodeE2_id_RICsubscription;
DU_LOG("\nE2AP : Memory allocation for RICsubscriptionResponseIE failed");
DU_FREE(e2apRicMsg->choice.successfulOutcome, sizeof(SuccessfulOutcomeE2_t));
DU_FREE(e2apRicMsg, sizeof(E2AP_PDU_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
for(idx=0; idx<elementCnt; idx++)
DU_FREE(e2apRicMsg->choice.successfulOutcome, \
sizeof(SuccessfulOutcomeE2_t));
DU_FREE(e2apRicMsg, sizeof(E2AP_PDU_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
}
idx = 0;
{
DU_LOG("\nE2AP : Could not encode RIC Subscription Response structure (at %s)\n",\
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
- RETVALUE(RFAILED);
+ return RFAILED;
}
else
{
if(SendE2APMsg(DU_APP_MEM_REGION, DU_POOL) != ROK)
{
DU_LOG("\nE2AP : Sending RIC Subscription Response failed");
- RETVALUE(RFAILED);
+ return RFAILED;
}
- RETVALUE(ROK);
+ return ROK;
}
/******************************************************************
*
recvBufLen = sizeof(e2SetRspMsg->protocolIEs.list.array[idx]->value.choice.GlobalRIC_ID.pLMN_Identity);
bitStringToInt(&e2SetRspMsg->protocolIEs.list.array[idx]->value.choice.GlobalRIC_ID.ric_ID, &e2SetupRspDb.ricId);
-
- aper_decode(0, &asn_DEF_PLMN_IdentityE2, (void **)&e2SetupRspDb.plmn, &e2SetRspMsg->protocolIEs.list.array[idx]->value.choice.GlobalRIC_ID.pLMN_Identity, recvBufLen, 0, 0);
- //xer_fprint(stdout, &asn_DEF_PLMN_IdentityE2, &e2SetupRspDb.plmn);
+ aper_decode(0, &asn_DEF_PLMN_IdentityE2, (void **)&e2SetupRspDb.plmn, \
+ &e2SetRspMsg->protocolIEs.list.array[idx]->value.choice.GlobalRIC_ID.pLMN_Identity, recvBufLen, 0, 0);
+ xer_fprint(stdout, &asn_DEF_PLMN_IdentityE2, &e2SetupRspDb.plmn);
break;
}
default:
break;
}
}
- RETVALUE(ROK);
+ return ROK;
}
/******************************************************************
{
case ProtocolIE_IDE2_id_RICrequestID:
{
- ricReqDb.ricReqId = ricSubsReq->protocolIEs.list.array[idx]->value.choice.RICrequestID.ricRequestorID;
- ricReqDb.ricInstanceId = ricSubsReq->protocolIEs.list.array[idx]->value.choice.RICrequestID.ricInstanceID;
+ ricReqDb.ricReqId = ricSubsReq->protocolIEs.list.array[idx]->\
+ value.choice.RICrequestID.ricRequestorID;
+ ricReqDb.ricInstanceId = ricSubsReq->protocolIEs.list.array[idx]-> \
+ value.choice.RICrequestID.ricInstanceID;
break;
}
case ProtocolIE_IDE2_id_RANfunctionID:
{
- ricReqDb.ranFuncId = ricSubsReq->protocolIEs.list.array[idx]->value.choice.RANfunctionID;
+ ricReqDb.ranFuncId = ricSubsReq->protocolIEs.list.array[idx]-> \
+ value.choice.RANfunctionID;
break;
}
case ProtocolIE_IDE2_id_RICsubscriptionDetails:
recvBufLen = sizeof(ricSubsReq->protocolIEs.list.array[idx]->value.choice.RICsubscriptionDetails.ricEventTriggerDefinition);
aper_decode(0, &asn_DEF_RICeventTriggerDefinition, (void **)&ricReqDb.ricEventTrigger, &(ricSubsReq->protocolIEs.list.array[idx]->value.choice.RICsubscriptionDetails.ricEventTriggerDefinition), recvBufLen, 0, 0);
- //xer_fprint(stdout, &asn_DEF_RICeventTriggerDefinition, &ricReqDb.ricEventTrigger);
+ xer_fprint(stdout, &asn_DEF_RICeventTriggerDefinition, &ricReqDb.ricEventTrigger);
actionItem = *ricSubsReq->protocolIEs.list.array[idx]->value.choice.RICsubscriptionDetails.ricAction_ToBeSetup_List.list.array;
if(e2apMsg == NULLP)
{
DU_LOG("\nE2AP : Memory allocation for E2AP-PDU failed");
- RETVALUE(RFAILED);
+ return RFAILED;
}
e2apMsg->present = E2AP_PDU_PR_initiatingMessage;
{
DU_LOG("\nE2AP : Memory allocation for E2AP-PDU failed");
DU_FREE(e2apMsg, sizeof(E2AP_PDU_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
e2apMsg->choice.initiatingMessage->procedureCode = ProcedureCodeE2_id_RICindication;
e2apMsg->choice.initiatingMessage->criticality = CriticalityE2_reject;
DU_LOG("\nE2AP : Memory allocation for RICindicationIEs failed");
DU_FREE(e2apMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t));
DU_FREE(e2apMsg, (Size)sizeof(E2AP_PDU_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
for(idx=0; idx<elementCnt; idx++)
DU_FREE(e2apMsg->choice.initiatingMessage, \
sizeof(InitiatingMessageE2_t));
DU_FREE(e2apMsg, sizeof(E2AP_PDU_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
}
idx = 0;
ricIndicationMsg->protocolIEs.list.array[idx]->criticality = CriticalityE2_reject;
ricIndicationMsg->protocolIEs.list.array[idx]->value.present = \
RICindication_IEs__value_PR_RICindicationHeader;
- BuildPlmnId(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn, \
+ ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationHeader.size = 3 * sizeof(U8);
+ DU_ALLOC(ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationHeader.buf ,\
+ ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationHeader.size);
+ buildPlmnId(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn, \
&ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationHeader);
/* TO BE CHANGED: RIC INDICATION DATA */
- /* Foe now filling a dummy octect data, need to tested with PRBs*/
+ /* For now filling a dummy octect data, need to tested with PRBs*/
idx++;
ricIndicationMsg->protocolIEs.list.array[idx]->id = ProtocolIE_IDE2_id_RICindicationMessage;
ricIndicationMsg->protocolIEs.list.array[idx]->criticality = CriticalityE2_reject;
ricIndicationMsg->protocolIEs.list.array[idx]->value.present = \
RICindication_IEs__value_PR_RICindicationMessage;
- BuildPlmnId(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn, \
+ ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationMessage.size = 3 * sizeof(U8);
+ DU_ALLOC(ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationMessage.buf ,\
+ ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationMessage.size);
+ buildPlmnId(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn, \
&ricIndicationMsg->protocolIEs.list.array[idx]->value.choice.RICindicationMessage);
/* Prints the Msg formed */
{
DU_LOG("\nE2AP : Could not encode RIC Indication Message (at %s)\n",\
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
- RETVALUE(RFAILED);
+ return RFAILED;
}
else
{
if(SendE2APMsg(DU_APP_MEM_REGION, DU_POOL) != ROK)
{
DU_LOG("\nE2AP : Sending RIC Indication Message");
- RETVALUE(RFAILED);
+ return RFAILED;
}
- RETVALUE(ROK);
+ return ROK;
}
/*******************************************************************
{
DU_LOG("\nE2AP : SCTP Send for E2 failed");
SPutMsg(mBuf);
- RETVALUE(RFAILED);
+ return RFAILED;
}
}
else
{
DU_LOG("\nE2AP : SAddPstMsgMult failed");
SPutMsg(mBuf);
- RETVALUE(RFAILED);
+ return RFAILED;
}
SPutMsg(mBuf);
}
else
{
DU_LOG("\nE2AP : Failed to allocate memory");
- RETVALUE(RFAILED);
+ return RFAILED;
}
- RETVALUE(ROK);
+ return ROK;
} /* SendE2APMsg */
/*******************************************************************
dlnrfreq->freqBandListNr.list.array[idx]->supportedSULBandList.list.count = SUL_BAND_COUNT;
RETVALUE(ROK);
}
-/*******************************************************************
- *
- * @brief Builds PLMN ID
- *
- * @details
- *
- * Function : BuildPlmn
- *
- * Functionality: Building the PLMN ID
- *
- * @params[in] PLMNID plmn
- * @return ROK - success
- * RFAILED - failure
- *
- * ****************************************************************/
-
-S16 BuildPlmn(PlmnId plmn, OCTET_STRING_t *plmnid)
-{
- U8 mncCnt;
- plmnid->size = 3;
- DU_ALLOC(plmnid->buf, plmnid->size * sizeof(U8));
- if(plmnid->buf == NULLP)
- {
- RETVALUE(RFAILED);
- }
- mncCnt = 2;
- plmnid->buf[0] = ((plmn.mcc[1] << 4) | (plmn.mcc[0]));
- if(mncCnt == 2)
- {
- plmnid->buf[1] = ((0xf0) | (plmn.mcc[2]));
- plmnid->buf[2] = ((plmn.mnc[1] << 4) | (plmn.mnc[0]));
- }
- else
- {
- plmnid->buf[1] = ((plmn.mnc[0] << 4) | (plmn.mcc[2]));
- plmnid->buf[2] = ((plmn.mnc[2] << 4) | (plmn.mnc[1]));
- }
- RETVALUE(ROK);
-}
-/*******************************************************************
- *
- * @brief Builds NRCell ID
- *
- * @details
- *
- * Function : BuildNrCellId
- *
- * Functionality: Building the NR Cell ID
- *
- * @params[in] BIT_STRING_t *nrcell
- * @return ROK - success
- * RFAILED - failure
- *
- * ****************************************************************/
-
-S16 BuildNrCellId(BIT_STRING_t *nrcell)
-{
- U8 tmp;
- nrcell->size = 5;
- DU_ALLOC(nrcell->buf, nrcell->size * sizeof(U8));
- if(nrcell->buf == NULLP)
- {
- RETVALUE(RFAILED);
- }
- for (tmp = 0 ; tmp < nrcell->size-1; tmp++)
- {
- nrcell->buf[tmp] = 0;
- }
- nrcell->buf[4] = 16;//change this
- nrcell->bits_unused = 4;
- RETVALUE(ROK);
-}
/*******************************************************************
*
* @brief Builds Nrcgi
S16 BuildNrcgi(NRCGI_t *nrcgi)
{
S16 ret;
+ U8 unused = 4;
+ U8 byteSize = 5;
+ U8 val = 16;
+
GNB_DU_Served_Cells_Item_t *srvCellItem;
- ret = BuildPlmn(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn,\
+ /* Allocate Buffer Memory */
+ nrcgi->pLMN_Identity.size = PLMN_SIZE * sizeof(U8);
+ DU_ALLOC(nrcgi->pLMN_Identity.buf, nrcgi->pLMN_Identity.size);
+ ret = buildPlmnId(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn,\
&nrcgi->pLMN_Identity); // Building PLMN function
if(ret != ROK)
{
RETVALUE(RFAILED);
}
/*nrCellIdentity*/
- ret = BuildNrCellId(&nrcgi->nRCellIdentity);
+ //ret = BuildNrCellId(&nrcgi->nRCellIdentity);
+ nrcgi->nRCellIdentity.size = byteSize * sizeof(U8);
+ DU_ALLOC(nrcgi->nRCellIdentity.buf, nrcgi->nRCellIdentity.size);
+ ret = fillBitString(&nrcgi->nRCellIdentity, unused, byteSize, val);
+
if(ret != ROK)
{
DU_FREE(srvCellItem->served_Cell_Information.nRCGI.pLMN_Identity.buf,\
RETVALUE(RFAILED);
}
}
- ret = BuildPlmn(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn,\
+ /* Allocate Memory to Buffer */
+ srvplmn->list.array[0]->pLMN_Identity.size = PLMN_SIZE * sizeof(U8);
+ DU_ALLOC(srvplmn->list.array[0]->pLMN_Identity.buf, srvplmn->list.array[0]->pLMN_Identity.size);
+ ret = buildPlmnId(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn,\
&srvplmn->list.array[0]->pLMN_Identity);
if(ret!= ROK)
{
RETVALUE(ROK);
}/* End of BuildAndSendF1SetupReq */
-/*******************************************************************
- *
- * @brief Builds the PLMN Id
- *
- * @details
- *
- * Function : plmnBuild
- *
- * Functionality: Builds the PLMN Id
- *
- * @params[in] PlmnId plmn
- * @params[in] OCTET_STRING_t *octe
- *
- * @return ROK - success
- * RFAILED - failure
- *
- * ****************************************************************/
-void plmnBuild(PlmnId plmn, OCTET_STRING_t *octe)
-{
- U8 mncCnt;
- mncCnt = 2;
- octe->buf[0] = ((plmn.mcc[1] << 4) | (plmn.mcc[0]));
- if(mncCnt == 2)
- {
- octe->buf[1] = ((0xf0) | (plmn.mcc[2]));
- octe->buf[2] = ((plmn.mnc[1] << 4) | (plmn.mnc[0]));
- }
- else
- {
- octe->buf[1] = ((plmn.mnc[0] << 4) | (plmn.mcc[2]));
- octe->buf[2] = ((plmn.mnc[2] << 4) | (plmn.mnc[1]));
- }
-}
-
/*******************************************************************
*
* @brief Builds and sends the DUConfigUpdate
RETVALUE(RFAILED);
}
}
- plmnBuild(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn,\
+ buildPlmnId(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn,\
&modifyItem->oldNRCGI.pLMN_Identity);
/*nRCellIdentity*/
modifyItem->oldNRCGI.nRCellIdentity.size = 5;
DU_FREE(f1apDuCfg, sizeof(F1AP_PDU_t));
RETVALUE(RFAILED);
}
- plmnBuild(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn,\
+ buildPlmnId(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.nrCgi.plmn,\
&modifyItem->served_Cell_Information.nRCGI.pLMN_Identity);
modifyItem->served_Cell_Information.nRCGI.nRCellIdentity.size = 5;
DU_ALLOC(modifyItem->served_Cell_Information.nRCGI.nRCellIdentity.buf,\
DU_FREE(f1apDuCfg, sizeof(F1AP_PDU_t));
RETVALUE(RFAILED);
}
- plmnBuild(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.plmn[0],\
+ buildPlmnId(duCfgParam.srvdCellLst[0].duCellInfo.cellInfo.plmn[0],\
&modifyItem->served_Cell_Information.servedPLMNs.list.array[0]->pLMN_Identity);
DU_ALLOC(modifyItem->served_Cell_Information.servedPLMNs.list.\
array[0]->iE_Extensions,sizeof(struct ProtocolExtensionContainer_4624P3));
/* Events */
#define EVTCFG 0
#define EVTSCTPSTRT 1
-#define EVTSCTPDATA 2
-#define EVTSCTPNTFY 3
+#define EVENT_CU_DATA 2
+#define EVENT_SCTP_NTFY 3
#define EVTSRVOPENREQ 4
#define EVTSRVOPENCFM 5
#define EVTTNLMGMTREQ 6
#define EVTTNLMGMTCFM 7
#define EVTTTIIND 8
#define EVTSTARTPOLL 9
-#define EVTRICDATA 10
+#define EVENT_RIC_DATA 10
/* Selector */
#define DU_SELECTOR_LC 0
NrEcgi nrEcgi; /* ECGI */
U16 nrPci; /* PCI */
U16 fiveGsTac; /* 5gSTac */
- PlmnId plmn[MAX_PLMN]; /* List of serving PLMN IDs */
+ Plmn plmn[MAX_PLMN]; /* List of serving PLMN IDs */
U32 maxUe; /* max UE per slot */
}CellCfgParams;
{
switch(pst->event)
{
- case EVTSCTPDATA:
+ case EVENT_CU_DATA:
{
F1APMsgHdlr(mBuf);
break;
}
- case EVTSCTPNTFY:
+ case EVENT_SCTP_NTFY:
{
ret = cmUnpkSctpNtfy(duSctpNtfyHdl, pst, mBuf);
break;
}
- case EVTRICDATA:
+ case EVENT_RIC_DATA:
{
E2APMsgHdlr(mBuf);
break;
}
-
default:
{
DU_LOG("\nDU_APP : Invalid event received at duActvTsk from ENTSCTP");
S16 duSctpNtfyHdl(Buffer *mBuf, CmInetSctpNotification *ntfy)
{
- switch(ntfy->header.nType)
+ if(f1Params.assocId == ntfy->u.assocChange.assocId)
{
- case CM_INET_SCTP_ASSOC_CHANGE:
- switch(ntfy->u.assocChange.state)
- {
- case CM_INET_SCTP_COMM_UP:
- {
- DU_LOG("\nDU_APP : SCTP communication UP");
- //Setup F1-C
- if(ntfy->u.assocChange.assocId == f1Params.assocId)
- {
- /* Build and send F1 Setup response */
- if(BuildAndSendF1SetupReq() != ROK)
- {
- RETVALUE(RFAILED);
- }
- }
- //Setup E2
- if(ntfy->u.assocChange.assocId == ricParams.assocId)
- {
- /* Build and send F1 Setup response */
- if(BuildAndSendE2SetupReq() != ROK)
- {
- RETVALUE(RFAILED);
- }
- }
-
- break;
- }
- }
- break;
+ if(BuildAndSendF1SetupReq() != ROK)
+ {
+ return RFAILED;
+ }
}
- RETVALUE(ROK);
+ else if(ricParams.assocId == ntfy->u.assocChange.assocId)
+ {
+ if(BuildAndSendE2SetupReq() != ROK)
+ {
+ return RFAILED;
+ }
+ }
+ else
+ {
+ DU_LOG("\nDU_APP : Invalid assocId %d received", ntfy->u.assocChange.assocId);
+ return RFAILED;
+ }
+ return ROK;
}
/*******************************************************************
DU_LOG("\nDU_APP : Failed configuring Sctp Params");
ret = RFAILED;
}
- if((ret = duSctpAssocReq(F1_INTERFACE)) != ROK)
+ if((ret = duSctpAssocReq(F1_INTERFACE)) != ROK)
{
DU_LOG("\nDU_APP : Failed to send AssocReq F1");
ret = RFAILED;
}
if((ret == ROK) & (paramPtr->itfState == DU_SCTP_DOWN))
{
- paramPtr->itfState = DU_SCTP_UP;
+ paramPtr->itfState = DU_SCTP_CONNECTING;
}
/* Post the EVTSTARTPOLL Msg */
* RFAILED - failure
*
* ****************************************************************/
-S16 sctpNtfyHdlr(CmInetSctpNotification *ntfy)
+S16 sctpNtfyHdlr(CmInetSctpNotification *ntfy, U8 *itfState)
{
Pst pst;
{
case CM_INET_SCTP_COMM_UP:
DU_LOG("Event : COMMUNICATION UP");
- connUp = TRUE;
+ *itfState = DU_SCTP_UP;
break;
case CM_INET_SCTP_COMM_LOST:
DU_LOG("Event : COMMUNICATION LOST");
- connUp = FALSE;
+ *itfState = DU_SCTP_DOWN;
break;
case CM_INET_SCTP_RESTART:
DU_LOG("Event : SCTP RESTART");
- connUp = FALSE;
+ *itfState = DU_SCTP_DOWN;
break;
case CM_INET_SCTP_SHUTDOWN_COMP: /* association gracefully shutdown */
DU_LOG("Event : SHUTDOWN COMPLETE");
- connUp = FALSE;
+ *itfState = DU_SCTP_DOWN;
break;
case CM_INET_SCTP_CANT_STR_ASSOC:
DU_LOG("Event : CANT START ASSOC");
- connUp = FALSE;
+ *itfState = DU_SCTP_DOWN;
break;
default:
DU_LOG("\nInvalid event");
break;
case CM_INET_SCTP_SHUTDOWN_EVENT : /* peer socket gracefully closed */
DU_LOG("\nSCTP : Shutdown Event notification received\n");
- connUp = FALSE;
+ *itfState = DU_SCTP_DOWN;
exit(0);
break;
case CM_INET_SCTP_ADAPTATION_INDICATION :
pst.dstEnt = (Ent)ENTDUAPP;
pst.dstInst = (Inst)DU_INST;
pst.dstProcId = pst.srcProcId;
- pst.event = EVTSCTPNTFY;
+ pst.event = EVENT_SCTP_NTFY;
pst.selector = DU_SELECTOR_LC;
pst.pool= DU_POOL;
pst.region = DFLT_REGION;
{
U16 ret = ROK;
CM_INET_FD_SET(sockFd, &pollParams->readFd);
- ret = cmInetSelect(&pollParams->readFd, NULLP, timeoutPtr, &pollParams->numFds);
+ ret = cmInetSelect(&pollParams->readFd, NULLP, timeoutPtr, &pollParams->numFd);
if(CM_INET_FD_ISSET(sockFd, &pollParams->readFd))
{
CM_INET_FD_CLR(sockFd, &pollParams->readFd);
ret = cmInetSctpRecvMsg(sockFd, &pollParams->addr, &pollParams->port, memInfo, &(pollParams->mBuf), &pollParams->bufLen, &pollParams->info, &pollParams->flag, &pollParams->ntfy);
- if(connUp && ret != ROK)
+ if(ret != ROK)
{
DU_LOG("\n SCTP: Failed to receive sctp msg for sockFd[%d]\n", sockFd->fd);
recvMsgSet = RFAILED;
{
f1Params.assocId = pollParams->ntfy.u.assocChange.assocId;
DU_LOG("\nSCTP : AssocId assigned to F1Params from PollParams [%d]\n", f1Params.assocId);
+ ret = sctpNtfyHdlr(&pollParams->ntfy, &f1Params.itfState);
}
else if(pollParams->port == ricParams.destPort)
{
ricParams.assocId = pollParams->ntfy.u.assocChange.assocId;
DU_LOG("\nSCTP : AssocId assigned to ricParams from PollParams [%d]\n", ricParams.assocId);
+ ret = sctpNtfyHdlr(&pollParams->ntfy, &ricParams.itfState);
}
else
{
DU_LOG("\nSCTP : Failed to fill AssocId\n");
- }
- ret = sctpNtfyHdlr(&pollParams->ntfy);
+ RETVALUE(RFAILED);
+ }
if(ret != ROK)
{
DU_LOG("\nSCTP : Failed to process sctp notify msg\n");
}
}
- else if(connUp & (pollParams->port == f1Params.destPort))
+ else if(f1Params.itfState & (pollParams->port == f1Params.destPort))
{
- sendToDuApp(pollParams->mBuf, EVTSCTPDATA);
+ sendToDuApp(pollParams->mBuf, EVENT_CU_DATA);
}
- else if(connUp & (pollParams->port == ricParams.destPort))
+ else if(ricParams.itfState & (pollParams->port == ricParams.destPort))
{
- sendToDuApp(pollParams->mBuf, EVTRICDATA);
+ sendToDuApp(pollParams->mBuf, EVENT_RIC_DATA);
}
else
typedef struct
{
- S16 numFds; /* Total count number of receivers socket Fd */
+ S16 numFd; /* Total count number of receivers socket Fd */
U16 port; /* Filled by the InetSctpRecvMsg during polling */
U32 flag; /* Refers to the notifyHandler Flag during successful InetSctpRecvMsg*/
Buffer *mBuf; /* Buffer filled during Socket polling*/
#include "ric_stub_sctp.h"
#include "ric_e2ap_msg_hdl.h"
#include "GlobalE2node-gNB-ID.h"
+#include "odu_common_codec.h"
-char encBuf[ENC_BUF_MAX_LEN];
Bool ricSubsStatus;
-S16 SendE2APMsg(Region , Pool );
-
-/*******************************************************************
- *
- * @brief Writes the encoded chunks into a buffer
- *
- * @details
- *
- * Function : PrepFinalEncBuf
- *
- * Functionality:Fills the encoded buffer
- *
- * @params[in] void *buffer,initial encoded data
- * @params[in] size_t size,size of buffer
- * @params[in] void *encodedBuf,final buffer
- * @return ROK - success
- * RFAILED - failure
- *
- * ****************************************************************/
-static int PrepFinalEncBuf(const void *buffer, size_t size, void *encodedBuf)
-{
- memcpy(encodedBuf + encBufSize, buffer, size);
- encBufSize += size;
- return 0;
-} /* PrepFinalEncBuf */
/*******************************************************************
*
if(sctpSend(mBuf) != ROK)
{
- DU_LOG("\nF1AP : SCTP Send for E2 failed");
+ DU_LOG("\nE2AP : SCTP Send for E2 failed");
SPutMsg(mBuf);
- RETVALUE(RFAILED);
+ return RFAILED;
}
}
else
{
- DU_LOG("\nF1AP : SAddPstMsgMult failed");
+ DU_LOG("\nE2AP : SAddPstMsgMult failed");
SPutMsg(mBuf);
- RETVALUE(RFAILED);
+ return RFAILED;
}
SPutMsg(mBuf);
}
else
{
- DU_LOG("\nF1AP : Failed to allocate memory");
- RETVALUE(RFAILED);
+ DU_LOG("\nE2AP : Failed to allocate memory");
+ return RFAILED;
}
- RETVALUE(ROK);
+ return ROK;
} /* SendE2APMsg */
-/*******************************************************************
- *
- * @brief Builds PLMN ID
- *
- * @details
- *
- * Function : plmnBuildRic
- *
- * Functionality: Building the PLMN ID
- *
- * @params[in] PLMNID plmn
- * OCTET_STRING_t *octe
- * @return ROK - success
- * RFAILED - failure
- *
- * ****************************************************************/
-
-void plmnBuildRic(Plmn plmn, OCTET_STRING_t *octe)
-{
- U8 mncCnt;
- octe->size = 3;
- RIC_ALLOC(octe->buf, octe->size * sizeof(U8));
- if(octe->buf == NULLP)
- {
- RETVALUE(RFAILED);
- }
- mncCnt = 2;
- octe->buf[0] = ((plmn.mcc[1] << 4) | (plmn.mcc[0]));
- if(mncCnt == 2)
- {
- octe->buf[1] = ((0xf0) | (plmn.mcc[2]));
- octe->buf[2] = ((plmn.mnc[1] << 4) | (plmn.mnc[0]));
- }
- else
- {
- octe->buf[1] = ((plmn.mnc[0] << 4) | (plmn.mcc[2]));
- octe->buf[2] = ((plmn.mnc[2] << 4) | (plmn.mnc[1]));
- }
-}
-
-/*******************************************************************
- *
- * @brief Fills the RicId
- *
- * @details
- *
- * Function : FillRicId
- *
- * Functionality: Fills the RicId
- *
- * @params[in] BIT_STRING_t *nbid,
- * U8 unusedBits
- * U8 byteSize
- * U8 val
- *
- * @return ROK - success
- * RFAILED - failure
- *
- * ****************************************************************/
-
-S16 FillRicId(BIT_STRING_t *id, U8 unusedBits, U8 byteSize, U8 val)
-{
- U8 tmp;
- id->size = byteSize;
- RIC_ALLOC(id->buf, id->size * sizeof(U8));
- if(id->buf == NULLP)
- {
- RETVALUE(RFAILED);
- }
-
- for (tmp = 0 ; tmp < (byteSize-1); tmp++)
- {
- id->buf[tmp] = tmp;
- }
- id->buf[byteSize-1] = val; //change this
- id->bits_unused = unusedBits;
- RETVALUE(ROK);
-}
-
/*******************************************************************
*
* @brief Builds Global RIC Id Params
U8 val = 1;
if(ricId != NULLP)
{
- plmnBuildRic(cuCfgParams.plmn , &ricId->pLMN_Identity);
+ ricId->pLMN_Identity.size = byteSize * sizeof(U8);
+ RIC_ALLOC(ricId->pLMN_Identity.buf, ricId->pLMN_Identity.size);
+ buildPlmnId(ricCfgParams.plmn , &ricId->pLMN_Identity);
/* fill ric Id */
- FillRicId(&ricId->ric_ID, unused, byteSize, val);
- }
- RETVALUE(ROK);
-}
-#if 0
-RANfunctionID_ItemIEs_t* FillRanFuncItems(RANfunctionID_ItemIEs_t *items)
-{
- if(items != NULLP)
- {
- items->id = ProtocolIE_IDE2_id_RANfunction_Item;
- items->criticality = CriticalityE2_reject;
- items->value.present = RANfunctionID_ItemIEs__value_PR_RANfunctionID_Item;
- items->value.choice.RANfunctionID_Item.ranFunctionID = 1;
- items->value.choice.RANfunctionID_Item.ranFunctionRevision = 4;
- }
- RETVALUE(items);
-}
-
-S16 BuildRANfuncIdList(RANfunctionsID_List_t *funcIdList)
-{
- U8 elementCnt;
- RANfunctionID_ItemIEs_t *funcIdItems;
-
- elementCnt = 1;
- funcIdList->list.count = elementCnt;
- funcIdList->list.size = elementCnt * sizeof(RANfunctionID_ItemIEs_t);
- RIC_ALLOC(funcIdList->list.array, funcIdList->list.size);
- if(funcIdList->list.array == NULLP)
- {
- DU_LOG("\nE2AP : Memory allocation for RAN Function List failed");
- RETVALUE(RFAILED);
+ ricId->ric_ID.size = byteSize * sizeof(U8);
+ RIC_ALLOC(ricId->ric_ID.buf, ricId->ric_ID.size);
+ fillBitString(&ricId->ric_ID, unused, byteSize, val);
}
- RIC_ALLOC(funcIdList->list.array[0], sizeof(RANfunctionID_ItemIEs_t));
- FillRanFuncItems(funcIdList->list.array[0]);
- RETVALUE(ROK);
+ return ROK;
}
-#endif
/*******************************************************************
*
if(e2apMsg == NULLP)
{
DU_LOG("\nE2AP : Memory allocation for E2AP-PDU failed");
- RETVALUE(RFAILED);
+ return RFAILED;
}
e2apMsg->present = E2AP_PDU_PR_successfulOutcome;
RIC_ALLOC(e2apMsg->choice.successfulOutcome, sizeof(SuccessfulOutcomeE2_t));
{
DU_LOG("\nE2AP : Memory allocation for E2AP-PDU failed");
RIC_FREE(e2apMsg, sizeof(E2AP_PDU_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
e2apMsg->choice.successfulOutcome->procedureCode = ProcedureCodeE2_id_E2setup;
DU_LOG("\nE2AP : Memory allocation for E2ResponseIEs failed");
RIC_FREE(e2apMsg->choice.successfulOutcome, sizeof(SuccessfulOutcomeE2_t));
RIC_FREE(e2apMsg, sizeof(E2AP_PDU_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
for(idx=0; idx<elementCnt; idx++)
RIC_FREE(e2apMsg->choice.successfulOutcome, \
sizeof(SuccessfulOutcomeE2_t));
RIC_FREE(e2apMsg, sizeof(E2AP_PDU_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
}
/* Global RIC ID */
{
DU_LOG("\nE2AP : Could not encode E2SetupResponse structure (at %s)\n",\
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
- RETVALUE(RFAILED);
+ return RFAILED;
}
else
{
if(SendE2APMsg(RIC_APP_MEM_REG, RIC_POOL) != ROK)
{
- DU_LOG("\nF1AP : Sending E2 Setup Response failed");
- RETVALUE(RFAILED);
+ DU_LOG("\nE2AP : Sending E2 Setup Response failed");
+ return RFAILED;
}
- RETVALUE(ROK);
+ return ROK;
}
/*******************************************************************
ricReqId->ricRequestorID = 1;
ricReqId->ricInstanceID = 1;
}
- RETVALUE(ROK);
+ return ROK;
}
/*******************************************************************
items->value.present = RICaction_ToBeSetup_ItemIEs__value_PR_RICaction_ToBeSetup_Item;
fillSetupItems(&(items->value.choice.RICaction_ToBeSetup_Item));
}
- RETVALUE(ROK);
+ return ROK;
}
/*******************************************************************
if(subsDetails != NULLP)
{
- /* Plmn is not called */
- plmnBuildRic(cuCfgParams.plmn, &subsDetails->ricEventTriggerDefinition);
+ /* Octet string to be build here */
+ /* Sending PLMN as Octect string */
+ U8 byteSize = 3;
+ subsDetails->ricEventTriggerDefinition.size = byteSize * sizeof(U8);
+ RIC_ALLOC(subsDetails->ricEventTriggerDefinition.buf, subsDetails->ricEventTriggerDefinition.size);
+ buildPlmnId(ricCfgParams.plmn, &subsDetails->ricEventTriggerDefinition);
elementCnt = 1;
subsDetails->ricAction_ToBeSetup_List.list.count = elementCnt;
subsDetails->ricAction_ToBeSetup_List.list.size = \
if(subsDetails->ricAction_ToBeSetup_List.list.array == NULLP)
{
DU_LOG("\nE2AP : Memory allocation for RICactionToBeSetup Items failed");
- RETVALUE(RFAILED);
+ return RFAILED;
}
RIC_ALLOC(subsDetails->ricAction_ToBeSetup_List.list.array[0],\
sizeof(RICaction_ToBeSetup_ItemIEs_t));
fillSubsDetails(subsDetails->ricAction_ToBeSetup_List.list.array[0]);
}
- RETVALUE(ROK);
+ return ROK;
}
/*******************************************************************
if(e2apRicMsg == NULLP)
{
DU_LOG("\nE2AP : Memory allocation for E2AP-PDU failed");
- RETVALUE(RFAILED);
+ return RFAILED;
}
e2apRicMsg->present = E2AP_PDU_PR_initiatingMessage;
{
DU_LOG("\nE2AP : Memory allocation for E2AP-PDU failed");
RIC_FREE(e2apRicMsg, sizeof(E2AP_PDU_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
e2apRicMsg->choice.initiatingMessage->procedureCode = ProcedureCodeE2_id_RICsubscription;
e2apRicMsg->choice.initiatingMessage->criticality = CriticalityE2_reject;
DU_LOG("\nE2AP : Memory allocation for RICSubscriptionRequestIEs failed");
RIC_FREE(e2apRicMsg->choice.initiatingMessage, sizeof(InitiatingMessageE2_t));
RIC_FREE(e2apRicMsg, (Size)sizeof(E2AP_PDU_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
for(idx=0; idx<elementCnt; idx++)
RIC_FREE(e2apRicMsg->choice.initiatingMessage, \
sizeof(InitiatingMessageE2_t));
RIC_FREE(e2apRicMsg, sizeof(E2AP_PDU_t));
- RETVALUE(RFAILED);
+ return RFAILED;
}
}
{
DU_LOG("\nE2AP : Could not encode RicSubscriptionRequest structure (at %s)\n",\
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
- RETVALUE(RFAILED);
+ return RFAILED;
}
else
{
if(SendE2APMsg(RIC_APP_MEM_REG, RIC_POOL) != ROK)
{
DU_LOG("\nE2AP : Sending RIC subscription Request failed");
- RETVALUE(RFAILED);
+ return RFAILED;
}
- RETVALUE(ROK);
+ return ROK;
}
printf("%x",recvBuf[i]);
}
- /* Decoding flat buffer into F1AP messsage */
+ /* Decoding flat buffer into E2AP messsage */
e2apMsg = &e2apasnmsg;
memset(e2apMsg, 0, sizeof(E2AP_PDU_t));
#include<stdio.h>
#include<sys/types.h>
#include<string.h>
-#include<ProtocolIE-FieldE2.h>
+#include "ProtocolIE-FieldE2.h"
#include "E2AP-PDU.h"
#include "envopt.h" /* Environment options */
-extern char encBuf[ENC_BUF_MAX_LEN];
-int encBufSize;
-
void E2APMsgHdlr(Buffer *mBuf);
S16 BuildAndSendE2SetupReq();
+S16 SendE2APMsg(Region , Pool );
/**********************************************************************
End of file
void init_log()
{
- openlog("CU_STUB",LOG_CONS | LOG_PID | LOG_NDELAY, LOG_LOCAL1);
+ openlog("RIC_STUB",LOG_CONS | LOG_PID | LOG_NDELAY, LOG_LOCAL1);
}
/*******************************************************************
*
- * @brief Main function of CU APP
+ * @brief Main function of E2 APP
*
* @details
*
* Function : main
*
* Functionality:
- * - Reads CU related configurations
+ * - Reads RIC related configurations
* - Initialize SCTP Parameters
* - Start SCTP receiver thread
*
init_log();
DU_LOG("\nStarting RIC_STUB");
- /* Read CU configurations */
+ /* Read RIC configurations */
readRicCfg();
- /* Initializing SCTP global parameters */
- sctpActvInit();
-
- /* Start CU-SCTP to listen on incoming connection */
+ /* Start RIC-SCTP to listen on incoming connection */
sctpCfgReq();
sctpStartReq();
- RETVALUE(ROK);
+ return ROK;
}
/*******************************************************************
*
cmInetAddr((S8*)DU_IP_V4_ADDR, &ipv4_du);
cmInetAddr((S8*)RIC_IP_V4_ADDR, &ipv4_ric);
- cuCfgParams.cuId = RIC_ID;
- strcpy(cuCfgParams.cuName, RIC_NAME);
+ ricCfgParams.ricId = RIC_ID;
+ strcpy(ricCfgParams.ricName, RIC_NAME);
/* DU IP Address and Port*/
- cuCfgParams.sctpParams.duIpAddr.ipV4Addr = ipv4_du;
- cuCfgParams.sctpParams.duIpAddr.ipV6Pres = false;
- cuCfgParams.sctpParams.duPort = DU_PORT;
+ ricCfgParams.sctpParams.duIpAddr.ipV4Addr = ipv4_du;
+ ricCfgParams.sctpParams.duIpAddr.ipV6Pres = false;
+ ricCfgParams.sctpParams.duPort = DU_PORT;
/* RIC IP Address and Port*/
- cuCfgParams.sctpParams.ricIpAddr.ipV4Addr = ipv4_ric;
- cuCfgParams.sctpParams.ricIpAddr.ipV6Pres = false;
- cuCfgParams.sctpParams.ricPort = RIC_PORT;
+ ricCfgParams.sctpParams.ricIpAddr.ipV4Addr = ipv4_ric;
+ ricCfgParams.sctpParams.ricIpAddr.ipV6Pres = false;
+ ricCfgParams.sctpParams.ricPort = RIC_PORT;
/*PLMN*/
- cuCfgParams.plmn.mcc[0] = PLMN_MCC0;
- cuCfgParams.plmn.mcc[1] = PLMN_MCC1;
- cuCfgParams.plmn.mcc[2] = PLMN_MCC2;
- cuCfgParams.plmn.mnc[0] = PLMN_MNC0;
- cuCfgParams.plmn.mnc[1] = PLMN_MNC1;
- cuCfgParams.plmn.mnc[2] = PLMN_MNC2;
-
- /*RRC Version*/
- cuCfgParams.rrcVersion.rrcVer = RRC_VER;
- cuCfgParams.rrcVersion.extRrcVer = EXT_RRC_VER;
+ ricCfgParams.plmn.mcc[0] = PLMN_MCC0;
+ ricCfgParams.plmn.mcc[1] = PLMN_MCC1;
+ ricCfgParams.plmn.mcc[2] = PLMN_MCC2;
+ ricCfgParams.plmn.mnc[0] = PLMN_MNC0;
+ ricCfgParams.plmn.mnc[1] = PLMN_MNC1;
+ ricCfgParams.plmn.mnc[2] = PLMN_MNC2;
} /* End of readCuCfg */
/**********************************************************************
################################################################################
*******************************************************************************/
-#ifndef __CU_MGR_MAIN_H__
-#define __CU_MGR_MAIN_H__
+#ifndef __RIC_MGR_MAIN_H__
+#define __RIC_MGR_MAIN_H__
#include "stdio.h"
#include "cm_inet.x"
#include "cm_llist.x" /* Common link list defines */
#include "cm_hash.x" /* Common hashlist defines */
+#include "odu_common_codec.h"
#include "du_log.h"
#define MAX_IPV6_LEN 16
_ret = SGetSBuf(RIC_APP_MEM_REG, RIC_POOL, \
(Data **)&_datPtr, _size); \
if(_ret == ROK) \
- cmMemset((U8*)_datPtr, 0, _size); \
+ cmMemset((uint8_t*)_datPtr, 0, _size); \
else \
_datPtr = NULLP; \
}
typedef struct ipAddr
{
- Bool ipV4Pres;
- U32 ipV4Addr;
- Bool ipV6Pres;
- U8 ipV6Addr[MAX_IPV6_LEN];
+ bool ipV4Pres;
+ uint32_t ipV4Addr;
+ bool ipV6Pres;
+ uint8_t ipV6Addr[MAX_IPV6_LEN];
}SctpIpAddr;
-typedef struct RrcVersion
-{
- U8 rrcVer; /* Latest RRC Version */
- U32 extRrcVer; /* Latest RRC version extended */
-}RrcVersion;
-
-typedef struct sctpParamsRic
+typedef struct RicSctpParams
{
SctpIpAddr duIpAddr;
- U16 duPort;
+ uint16_t duPort;
SctpIpAddr ricIpAddr;
- U16 ricPort;
-}SctpParamsRic;
-
-typedef struct fPLMN
-{
- U8 mcc[3];
- U8 mnc[3];
-}Plmn;
-
+ uint16_t ricPort;
+}RicSctpParams;
-typedef struct cuCfgParams
+typedef struct ricCfgParams
{
- U32 cuId;
- char cuName[RIC_DU_NAME_LEN_MAX];
- SctpParamsRic sctpParams;
+ uint32_t ricId;
+ char ricName[RIC_DU_NAME_LEN_MAX];
+ RicSctpParams sctpParams;
Plmn plmn;
- RrcVersion rrcVersion;
-}CuCfgParams;
-CuCfgParams cuCfgParams; //global variable to hold all configs
+}RicCfgParams;
+RicCfgParams ricCfgParams; //global variable to hold all configs
void readRicCfg();
void cuAppInmsgHdlr(Buffer *mBuf);
CuSctpDestCb ricParams;
-/**************************************************************************
- * @brief Task Initiation callback function.
- *
- * @details
- *
- * Function : sctpActvInit
- *
- * Functionality:
- * This function is supplied as one of parameters during SCTP's
- * task registration. SSI will invoke this function once, after
- * it creates and attaches this TAPA Task to a system task.
- *
- * @param[in] Ent entity, the entity ID of this task.
- * @param[in] Inst inst, the instance ID of this task.
- * @param[in] Region region, the region ID registered for memory
- * usage of this task.
- * @param[in] Reason reason.
- * @return ROK - success
- * RFAILED - failure
- ***************************************************************************/
-S16 sctpActvInit()
-{
- DU_LOG("\n\nSCTP : Initializing");
- connUp = FALSE;
- assocId = 0;
- nonblocking = FALSE;
- sctpCfg = cuCfgParams.sctpParams;
- return ROK;
-
-}
-/**************************************************************************
- * @brief Task Activation callback function.
- *
- * @details
- *
- * Function : sctpActvTsk
- *
- * Functionality:
- * This function handles all SCTP messages received
- * This API is registered with SSI during the
- * Task Registration of DU APP.
- *
- * @param[in] Pst *pst, Post structure of the primitive.
- * @param[in] Buffer *mBuf, Packed primitive parameters in the
- * buffer.
- * @return ROK - success
- * RFAILED - failure
- *
- ***************************************************************************/
-S16 sctpActvTsk(Pst *pst, Buffer *mBuf)
-{
-
-//TODO: TBD
- return ROK;
-}
/**************************************************************************
* @brief Function to configure the Sctp Params during config Request
*
* @details
*
- * Function : duSctpCfgReq
+ * Function : sctpCfgReq
*
* Functionality:
* This function configures SCTP Params during the config Request
S16 sctpCfgReq()
{
+ connUp = FALSE;
+ sctpCfg = ricCfgParams.sctpParams;
/* Fill F1 Params */
ricParams.destPort = sctpCfg.duPort;
ricParams.srcPort = sctpCfg.ricPort;
ricParams.bReadFdSet = ROK;
- cmMemset ((U8 *)&ricParams.sockFd, -1, sizeof(CmInetFd));
- cmMemset ((U8 *)&ricParams.lstnSockFd, -1, sizeof(CmInetFd));
+ memset(&ricParams.sockFd, -1, sizeof(CmInetFd));
+ memset(&ricParams.lstnSockFd, -1, sizeof(CmInetFd));
fillDestNetAddr(&ricParams.destIpNetAddr, &sctpCfg.duIpAddr);
- RETVALUE(ROK);
+ return ROK;
}
/*******************************************************************
addrLstPtr->addrs[(addrLstPtr->count - 1)].type = CM_INET_IPV4ADDR_TYPE;
addrLstPtr->addrs[(addrLstPtr->count - 1)].u.ipv4NetAddr = CM_INET_NTOH_U32(ipAddr->ipV4Addr);
- RETVALUE(ROK);
+ return ROK;
}
/******************************************************************************
/* Filling destination address */
destAddrPtr->type = CM_INET_IPV4ADDR_TYPE;
destAddrPtr->u.ipv4NetAddr = CM_INET_NTOH_U32(dstIpPtr->ipV4Addr);
- RETVALUE(ROK);
+ return ROK;
}
/******************************************************************************
}
else if((ret = cmInetSctpBindx(&ricParams.lstnSockFd, &ricParams.localAddrLst, ricParams.srcPort)) != ROK)
{
- DU_LOG("\nSCTP: Binding failed at CU");
+ DU_LOG("\nSCTP: Binding failed at RIC");
}
else if((ret = sctpAccept(&ricParams.lstnSockFd, &ricParams.peerAddr, &ricParams.sockFd)) != ROK)
{
- DU_LOG("\nSCTP: Unable to accept the connection at CU");
+ DU_LOG("\nSCTP: Unable to accept the connection at RIC");
}
else if(sctpSockPoll() != ROK)
{
S16 sctpAccept(CmInetFd *lstnSock_Fd, CmInetAddr *peerAddr, CmInetFd *sock_Fd)
{
U8 ret;
-
- ret = cmInetListen(lstnSock_Fd, 1);;
+
+ ret = cmInetListen(lstnSock_Fd, 1);
if (ret != ROK)
{
DU_LOG("\nSCTP : Listening on socket failed");
cmInetClose(lstnSock_Fd);
- RETVALUE(RFAILED);
+ return RFAILED;
}
DU_LOG("\nSCTP : Connecting");
else if(ret != ROK)
{
DU_LOG("\nSCTP : Failed to accept connection");
- RETVALUE(RFAILED);
+ return RFAILED;
}
else
{
}
DU_LOG("\nSCTP : Connection established");
- RETVALUE(ROK);
+ return ROK;
}
/*******************************************************************
}
sctpNtfyInd(ntfy);
- RETVALUE(ROK);
+ return ROK;
}/* End of sctpNtfyHdlr */
/*******************************************************************
{
if((ret = processPolling(&e2PollParams, &ricParams.sockFd, timeoutPtr, &memInfo)) != ROK)
{
- DU_LOG("\nSCTP : Failed to RecvMsg for E2 at CU \n");
+ DU_LOG("\nSCTP : Failed to RecvMsg for E2 at RIC \n");
}
};
RETVALUE(ret);
{
U16 ret = ROK;
CM_INET_FD_SET(sockFd, &pollParams->readFd);
- ret = cmInetSelect(&pollParams->readFd, NULLP, timeoutPtr, &pollParams->numFds);
+ ret = cmInetSelect(&pollParams->readFd, NULLP, timeoutPtr, &pollParams->numFd);
if(CM_INET_FD_ISSET(sockFd, &pollParams->readFd))
{
CM_INET_FD_CLR(sockFd, &pollParams->readFd);
}
}
}
- RETVALUE(ROK);
+ return ROK;
}/* End of sctpSockPoll() */
/*******************************************************************
if(ret != ROK && ret != RWOULDBLOCK)
{
DU_LOG("\nSCTP : Send message failed");
- RETVALUE(RFAILED);
+ return RFAILED;
}
- RETVALUE(ROK);
+ return ROK;
} /* End of sctpSend */
/**********************************************************************
End of file
#ifndef __RIC_SCTP_H__
#define __RIC_SCTP_H__
+#include "stdbool.h"
#include "ric_stub.h"
#include "cm_inet.h"
#include "cm_tpt.h"
#include "cm_tpt.x"
#define MAX_RETRY 5
-#define DU_SCTP_UP 1
-#define DU_SCTP_DOWN 0
/* Global variable declaration */
U8 socket_type; /* Socket type */
-Bool nonblocking; /* Blocking/Non-blocking socket */
-Bool connUp; /* Is connection up */
+bool nonblocking; /* Blocking/Non-blocking socket */
+bool connUp; /* Is connection up */
int assocId; /* Assoc Id of connected assoc */
-SctpParamsRic sctpCfg; /* SCTP configurations at DU */
+RicSctpParams sctpCfg; /* SCTP configurations at DU */
typedef struct
{
- S16 numFds;
- U16 port;
- U32 flag;
- Buffer *mBuf;
- MsgLen bufLen;
- CmInetNetAddr addr;
- CmInetFdSet readFd;
+ uint16_t numFd;
+ uint16_t port;
+ uint32_t flag;
+ Buffer *mBuf;
+ MsgLen bufLen;
+ CmInetNetAddr addr;
+ CmInetFdSet readFd;
CmInetSctpSndRcvInfo info;
CmInetSctpNotification ntfy;
}sctpSockPollParams;
typedef struct
{
- U8 itfState;
- U16 destPort; /* DU PORTS */
- U16 srcPort;
- Bool bReadFdSet;
- CmInetFd sockFd; /* Socket file descriptor */
- CmInetAddr peerAddr;
- CmInetFd lstnSockFd; /* Listening Socket file descriptor */
- CmInetNetAddrLst destAddrLst; /* DU Ip address */
- CmInetNetAddrLst localAddrLst;
- CmInetNetAddr destIpNetAddr; /* DU Ip address */
+ uint16_t destPort; /* DU PORTS */
+ uint16_t srcPort;
+ bool bReadFdSet;
+ CmInetFd sockFd; /* Socket file descriptor */
+ CmInetAddr peerAddr;
+ CmInetFd lstnSockFd; /* Listening Socket file descriptor */
+ CmInetNetAddrLst destAddrLst; /* DU Ip address */
+ CmInetNetAddrLst localAddrLst;
+ CmInetNetAddr destIpNetAddr; /* DU Ip address */
}CuSctpDestCb;
EXTERN S16 sctpActvInit();