meta-google/recipes-google/networking/network-sh/lib.sh - mdmillerii/openbmc - Gitiles

 #!/bin/bash
 # Copyright 2021 Google LLC
 #
 # 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.

 [ -n "${network_init-}" ] && return

 mac_to_bytes() {
   local -n bytes="$1"
   local str="$2"

   # Verify that the MAC is Valid
   [[ "$str" =~ ^[[:xdigit:]]{1,2}(:[[:xdigit:]]{1,2}){5}$ ]] || return

   # Split the mac into hex bytes
   local oldifs="$IFS"
   IFS=:
   local byte
   for byte in $str; do
     bytes+=(0x$byte)
   done
   IFS="$oldifs"
 }

 mac_to_eui48() {
   local mac_bytes=()
   mac_to_bytes mac_bytes "$1" || return

   # Return the EUI-64 bytes in the IPv6 format
   printf '%02x%02x:%02x%02x:%02x%02x\n' "${mac_bytes[@]}"
 }

 mac_to_eui64() {
   local mac_bytes=()
   mac_to_bytes mac_bytes "$1" || return

   # Using EUI-64 conversion rules, create the suffix bytes from MAC bytes
   # Invert bit-0 of the first byte, and insert 0xfffe in the middle.
   local suffix_bytes=(
     $((mac_bytes[0] ^ 1))
     ${mac_bytes[@]:1:2}
     $((0xff)) $((0xfe))
     ${mac_bytes[@]:3:3}
   )

   # Return the EUI-64 bytes in the IPv6 format
   printf '%02x%02x:%02x%02x:%02x%02x:%02x%02x\n' "${suffix_bytes[@]}"
 }

 ip_to_bytes() {
   local -n bytes_out="$1"
   local str="$2"

   local bytes=()
   local oldifs="$IFS"
   # Heuristic for V4 / V6, validity will be checked as it is parsed
   if [[ "$str" == *.* ]]; then
     # Ensure we don't start or end with IFS
     [ "${str:0:1}" != '.' ] || return 1
     [ "${str: -1}" != '.' ] || return 1

     local v
     # Split IPv4 address into octets
     IFS=.
     for v in $str; do
       # IPv4 digits are always decimal numbers
       if ! [[ "$v" =~ ^[0-9]+$ ]]; then
         IFS="$oldifs"
         return 1
       fi
       # Each octet is a single byte, make sure the number isn't larger
       if (( v > 0xff )); then
         IFS="$oldifs"
         return 1
       fi
       bytes+=($v)
     done
     # IPv4 addresses must have all 4 bytes present
     if (( "${#bytes[@]}" != 4 )); then
       IFS="$oldifs"
       return 1
     fi
   else
     # Ensure we bound the padding in an outer byte for
     # IFS splitting to work correctly
     [ "${str:0:2}" = '::' ] && str="0$str"
     [ "${str: -2}" = '::' ] && str="${str}0"

     # Ensure we don't start or end with IFS
     [ "${str:0:1}" != ':' ] || return 1
     [ "${str: -1}" != ':' ] || return 1

     # Stores the bytes that come before ::, if it exists
     local bytesBeforePad=()
     local v
     # Split the Address into hextets
     IFS=:
     for v in $str; do
       # Handle ::, which translates to an empty string
       if [ -z "$v" ]; then
         # Only allow a single :: sequence in an address
         if (( "${#bytesBeforePad[@]}" > 0 )); then
           IFS="$oldifs"
           return 1
         fi
         # Store the already parsed upper bytes separately
         # This allows us to calculate and insert padding
         bytesBeforePad=("${bytes[@]}")
         bytes=()
         continue
       fi
       # IPv6 digits are always hex
       if ! [[ "$v" =~ ^[[:xdigit:]]+$ ]]; then
         IFS="$oldifs"
         return 1
       fi
       # Ensure the number is no larger than a hextet
       v="0x$v"
       if (( v > 0xffff )); then
         IFS="$oldifs"
         return 1
       fi
       # Split the hextet into 2 bytes
       bytes+=($(( v >> 8 )))
       bytes+=($(( v & 0xff )))
     done
     # If we have ::, add padding
     if (( "${#bytesBeforePad[@]}" > 0 )); then
       # Fill the middle bytes with padding and store in `bytes`
       while (( "${#bytes[@]}" + "${#bytesBeforePad[@]}" < 16 )); do
         bytesBeforePad+=(0)
       done
       bytes=("${bytesBeforePad[@]}" "${bytes[@]}")
     fi
     # IPv6 addresses must have all 16 bytes present
     if (( "${#bytes[@]}" != 16 )); then
       IFS="$oldifs"
       return 1
     fi
   fi

   IFS="$oldifs"
   bytes_out=("${bytes[@]}")
 }

 ipv6_pfx_concat() {
   local pfx="$1"
   local sfx="$2"

   # Validate the prefix
   if ! [[ "$pfx" =~ ^(([0-9a-fA-F]{1,4}:)+):/([0-9]+)$ ]]; then
     echo "Invalid IPv6 prefix: $pfx" >&2
     return 1
   fi
   local addr="${BASH_REMATCH[1]}"
   local cidr="${BASH_REMATCH[3]}"
   # Ensure prefix doesn't have too many bytes
   local nos="${addr//:/}"
   if (( ${#addr} - ${#nos} > (cidr+7)/16 )); then
     echo "Too many prefix bytes: $pfx" >&2
     return 1
   fi

   # Validate the suffix
   if ! [[ "$sfx" =~ ^[0-9a-fA-F]{1,4}(:[0-9a-fA-F]{1,4})*$ ]]; then
     echo "Invalid IPv6 suffix: $sfx" >&2
     return 1
   fi
   # Ensure suffix doesn't have too many bytes
   local nos="${sfx//:/}"
   if (( ${#sfx} - ${#nos} >= (128-cidr)/16 )); then
     echo "Too many suffix bytes: $sfx" >&2
     return 1
   fi

   local comb="$addr:$sfx"
   local nos="${comb//:/}"
   if (( ${#comb} - ${#nos} == 8 )); then
     comb="$addr$sfx"
   fi
   echo "$comb/$cidr"
 }

 ipv6_pfx_to_cidr() {
   [[ "$1" =~ ^[0-9a-fA-F:]+/([0-9]+)$ ]] || return
   echo "${BASH_REMATCH[1]}"
 }

 network_init=1
 return 0 2>/dev/null
 echo "network is a library, not executed directly" >&2
 exit 1
	#!/bin/bash
	# Copyright 2021 Google LLC
	#
	# 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.

	[ -n "${network_init-}" ] && return

	mac_to_bytes() {
	local -n bytes="$1"
	local str="$2"

	# Verify that the MAC is Valid
	[[ "$str" =~ ^[[:xdigit:]]{1,2}(:[[:xdigit:]]{1,2}){5}$ ]] \|\| return

	# Split the mac into hex bytes
	local oldifs="$IFS"
	IFS=:
	local byte
	for byte in $str; do
	bytes+=(0x$byte)
	done
	IFS="$oldifs"
	}

	mac_to_eui48() {
	local mac_bytes=()
	mac_to_bytes mac_bytes "$1" \|\| return

	# Return the EUI-64 bytes in the IPv6 format
	printf '%02x%02x:%02x%02x:%02x%02x\n' "${mac_bytes[@]}"
	}

	mac_to_eui64() {
	local mac_bytes=()
	mac_to_bytes mac_bytes "$1" \|\| return

	# Using EUI-64 conversion rules, create the suffix bytes from MAC bytes
	# Invert bit-0 of the first byte, and insert 0xfffe in the middle.
	local suffix_bytes=(
	$((mac_bytes[0] ^ 1))
	${mac_bytes[@]:1:2}
	$((0xff)) $((0xfe))
	${mac_bytes[@]:3:3}
	)

	# Return the EUI-64 bytes in the IPv6 format
	printf '%02x%02x:%02x%02x:%02x%02x:%02x%02x\n' "${suffix_bytes[@]}"
	}

	ip_to_bytes() {
	local -n bytes_out="$1"
	local str="$2"

	local bytes=()
	local oldifs="$IFS"
	# Heuristic for V4 / V6, validity will be checked as it is parsed
	if [[ "$str" == . ]]; then
	# Ensure we don't start or end with IFS
	[ "${str:0:1}" != '.' ] \|\| return 1
	[ "${str: -1}" != '.' ] \|\| return 1

	local v
	# Split IPv4 address into octets
	IFS=.
	for v in $str; do
	# IPv4 digits are always decimal numbers
	if ! [[ "$v" =~ ^[0-9]+$ ]]; then
	IFS="$oldifs"
	return 1
	fi
	# Each octet is a single byte, make sure the number isn't larger
	if (( v > 0xff )); then
	IFS="$oldifs"
	return 1
	fi
	bytes+=($v)
	done
	# IPv4 addresses must have all 4 bytes present
	if (( "${#bytes[@]}" != 4 )); then
	IFS="$oldifs"
	return 1
	fi
	else
	# Ensure we bound the padding in an outer byte for
	# IFS splitting to work correctly
	[ "${str:0:2}" = '::' ] && str="0$str"
	[ "${str: -2}" = '::' ] && str="${str}0"

	# Ensure we don't start or end with IFS
	[ "${str:0:1}" != ':' ] \|\| return 1
	[ "${str: -1}" != ':' ] \|\| return 1

	# Stores the bytes that come before ::, if it exists
	local bytesBeforePad=()
	local v
	# Split the Address into hextets
	IFS=:
	for v in $str; do
	# Handle ::, which translates to an empty string
	if [ -z "$v" ]; then
	# Only allow a single :: sequence in an address
	if (( "${#bytesBeforePad[@]}" > 0 )); then
	IFS="$oldifs"
	return 1
	fi
	# Store the already parsed upper bytes separately
	# This allows us to calculate and insert padding
	bytesBeforePad=("${bytes[@]}")
	bytes=()
	continue
	fi
	# IPv6 digits are always hex
	if ! [[ "$v" =~ ^[[:xdigit:]]+$ ]]; then
	IFS="$oldifs"
	return 1
	fi
	# Ensure the number is no larger than a hextet
	v="0x$v"
	if (( v > 0xffff )); then
	IFS="$oldifs"
	return 1
	fi
	# Split the hextet into 2 bytes
	bytes+=($(( v >> 8 )))
	bytes+=($(( v & 0xff )))
	done
	# If we have ::, add padding
	if (( "${#bytesBeforePad[@]}" > 0 )); then
	# Fill the middle bytes with padding and store in `bytes`
	while (( "${#bytes[@]}" + "${#bytesBeforePad[@]}" < 16 )); do
	bytesBeforePad+=(0)
	done
	bytes=("${bytesBeforePad[@]}" "${bytes[@]}")
	fi
	# IPv6 addresses must have all 16 bytes present
	if (( "${#bytes[@]}" != 16 )); then
	IFS="$oldifs"
	return 1
	fi
	fi

	IFS="$oldifs"
	bytes_out=("${bytes[@]}")
	}

	ipv6_pfx_concat() {
	local pfx="$1"
	local sfx="$2"

	# Validate the prefix
	if ! [[ "$pfx" =~ ^(([0-9a-fA-F]{1,4}:)+):/([0-9]+)$ ]]; then
	echo "Invalid IPv6 prefix: $pfx" >&2
	return 1
	fi
	local addr="${BASH_REMATCH[1]}"
	local cidr="${BASH_REMATCH[3]}"
	# Ensure prefix doesn't have too many bytes
	local nos="${addr//:/}"
	if (( ${#addr} - ${#nos} > (cidr+7)/16 )); then
	echo "Too many prefix bytes: $pfx" >&2
	return 1
	fi

	# Validate the suffix
	if ! [[ "$sfx" =~ ^[0-9a-fA-F]{1,4}(:[0-9a-fA-F]{1,4})*$ ]]; then
	echo "Invalid IPv6 suffix: $sfx" >&2
	return 1
	fi
	# Ensure suffix doesn't have too many bytes
	local nos="${sfx//:/}"
	if (( ${#sfx} - ${#nos} >= (128-cidr)/16 )); then
	echo "Too many suffix bytes: $sfx" >&2
	return 1
	fi

	local comb="$addr:$sfx"
	local nos="${comb//:/}"
	if (( ${#comb} - ${#nos} == 8 )); then
	comb="$addr$sfx"
	fi
	echo "$comb/$cidr"
	}

	ipv6_pfx_to_cidr() {
	[[ "$1" =~ ^[0-9a-fA-F:]+/([0-9]+)$ ]] \|\| return
	echo "${BASH_REMATCH[1]}"
	}

	network_init=1
	return 0 2>/dev/null
	echo "network is a library, not executed directly" >&2
	exit 1