path: root/src/wireless

# Uses wireless_tools, to check for association to a network.
# wep_check interface [timeout]
wep_check()
{
    local INTERFACE="$1" TIMEOUT="${2:-15}" timeout=0 bssid

    while [[ $timeout -lt "$TIMEOUT" ]]; do
        bssid=$(iwgetid "$INTERFACE" -ra)
        [[ -n "$bssid" && "$bssid" != "00:00:00:00:00:00" ]] && return 0
        sleep 1
        let timeout++
    done
    return 1
}

# Check if a particular network is within range
# find_essid interface essid connection
find_essid() {
    local INTERFACE="$1" ESSID="$2" RETRIES=10 try=0 res scanned
    while [[ "$try" -lt "$RETRIES" ]]; do
        sleep 0.5
        let try++
        found=$(
                res=$(iwlist "$INTERFACE" scan 2>/dev/null)
                [[ -z "$res" ]] && exit 1
                # if results were non-null, process them and exit 0
                echo "$res" | sed -nr 's/^\s+ESSID:"([^"]*)"$/\1/p' | fgrep -xm1 "$ESSID"
               ) && {
                scanned=1
                report_debug find_essid "\"$found\""
                # we only bother with at most 5 successful scans
                if (( try < RETRIES-4 )); then try=$((RETRIES-4)); fi
              }
        if [[ -n "$found" ]]; then
            echo "$found"       # JP: echo literal ESSID
            return 0 # network found
        fi
    done
    if [[ "$scanned" -ne 1 ]]; then
        report_debug find_essid "unable to scan"
    fi
    return 1
}

# Check if a particular network is within range
# find_ap interface ap
find_ap() {
    local INTERFACE="$1" ap=$(echo "$2" | tr 'abcdef' 'ABCDEF') RETRIES=10 try=0 res scanned
    while [[ "$try" -lt "$RETRIES" ]]; do
        sleep 0.5
        let try++
        found=$(
            res=$(iwlist "$INTERFACE" scan 2> /dev/null)
            [[ -z "$res" ]] && exit 1
            # if results were non-null, process them and exit 0
            echo "$res" | sed -nr '/^\s+Cell .. - Address: ([[:xdigit:]:]+)$/ { s//\1/; N; s/(.*)\n\s+ESSID:"([^"]*)"$/\1\t\2/p }' \
            | egrep -m1 "^$ap\t"
            ) && {
                    scanned=1
                    report_debug find_ap "\"$found\""
                    # we only bother with at most 5 successful scans
                    if (( try < RETRIES-4 )); then try=$((RETRIES-4)); fi
                 }
        if [[ -n "$found" ]]; then
            echo "$found" | cut -f2     # JP: echo literal ESSID
            return 0
        fi
    done
    if [[ "$scanned" -ne 1 ]]; then
        report_debug find_ap "unable to scan"
    fi
    return 1
}

# Return a filename containing a list of network APs and ESSIDs found (sorted by decreasing signal strength)
# list_networks interface
list_networks() {
    wpa_supplicant_scan_info "$1" 1,5
}

wpa_supplicant_scan_info() {
    local INTERFACE="$1" fields="$2" essids
    # temp file used, as keeping ESSID's with spaces in their name in arrays
    # is hard, obscure and kinda nasty. This is simpler and clearer.

    [[ -z "$INTERFACE" ]] && return 1
    essids=$(mktemp --tmpdir essid.XXXXXXXX)

    wpa_supplicant -B -i"$INTERFACE" -Dnl80211,wext -C/run/wpa_supplicant -P/run/wpa_supplicant.pid || return 1
    wpa_cli -i "$INTERFACE" scan &> /dev/null
    sleep 2.5
    wpa_cli -i "$INTERFACE" scan_results |
        grep -v "^Selected" |
        grep -v "^bssid" |
        sort -rn -k3 |
        sort -u -k5 |
        sort -rn -k3 |
        cut -f"$fields"  > "$essids"

    # Fields are tab delimited
    # Remove extraneous output from wpa_cli
    # Sort by strength
    # Remove duplicates
    # Re-sort by strength as the removal disorders the list
    # Cut to the AP/essid fields only

    kill "$(cat /run/wpa_supplicant.pid)"

    # File of 0 length, ie. no ssid's.
    if [[ ! -s "$essids" ]]; then
        rm -f "$essids"
        return 1
    fi

    echo $essids
    return 0
}

set_rf_state() {
    local INTERFACE="$1" state="$2" RFKILL_NAME="$3"

    if [[ "$RFKILL" == "hard" ]]; then
        report_fail "Cannot set state on hardware rfkill switch"
        return 1
    fi
    local path=$(get_rf_path "$INTERFACE" "$RFKILL_NAME") || return 1
    case "$state" in
        enabled)
            echo 1 > "$path/state"
        ;;
        disabled)
            echo 0 > "$path/state"
        ;;
    esac
}

get_rf_path() {
    local INTERFACE="$1" RFKILL_NAME="$2" path

    if [[ -n "$RFKILL_NAME" ]]; then
        for path in /sys/class/rfkill/*; do
            if [[ "$(cat "$path/name")" == "$RFKILL_NAME" ]]; then
                echo "$path"
                return 0
            fi
        done
        report_fail "no rfkill switch with name $RFKILL_NAME"
    else
        path="/sys/class/net/$INTERFACE/rfkill"
        if [[ -d "$path" ]]; then
            echo "$path"
            return 0
        fi
        report_fail "no rfkill switch available on interface $INTERFACE"
    fi
    return 1
}

get_rf_state() {
    local INTERFACE="$1" PROFILE="$2" path state

    path=$(get_rf_path "$INTERFACE" "$RFKILL_NAME") || return 1
    state=$(cat "$path/state")

    case "$state" in
        0|2)
            echo "disabled";;
        1)
            echo "enabled";;
        *)
            echo "$state";;
    esac
}

enable_rf() {
    local INTERFACE="$1" RFKILL="$2" RFKILL_NAME="$3"
    # Enable rfkill if necessary, or fail if it is hardware
    if [[ -n "$RFKILL" ]]; then
        local state=$(get_rf_state "$INTERFACE") || return 1
        if [[ "$state" != "enabled" ]]; then
            if [[ "$RFKILL" == "soft" ]]; then
                set_rf_state "$INTERFACE" enabled $RFKILL_NAME
                sleep 1
            else
                report_fail "radio is disabled on $INTERFACE"
                return 1
            fi
        fi
    fi
}

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