flm01/mote/v2/openwrt/package/flukso/luasrc/fsync.lua

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#!/usr/bin/env lua
2011-01-28 10:17:21 +00:00
--[[
fsync.lua - synchronize /etc/config/flukso settings with the sensor board
2011-02-12 19:38:23 +00:00
via the spid ctrl fifos
2011-01-28 10:17:21 +00:00
Copyright (C) 2011 Bart Van Der Meerssche <bart.vandermeerssche@flukso.net>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
]]--
local dbg = require 'dbg'
local nixio = require 'nixio'
nixio.fs = require 'nixio.fs'
local uci = require 'luci.model.uci'.cursor()
local luci = require 'luci'
luci.json = require 'luci.json'
local httpclient = require 'luci.httpclient'
local HW_CHECK_OVERRIDE = (arg[1] == '-f')
local CTRL_PATH = '/var/run/spid/ctrl'
local CTRL_PATH_IN = CTRL_PATH .. '/in'
local CTRL_PATH_OUT = CTRL_PATH .. '/out'
local O_RDWR_NONBLOCK = nixio.open_flags('rdwr', 'nonblock')
local O_RDWR_CREAT = nixio.open_flags('rdwr', 'creat')
local POLLIN = nixio.poll_flags('in')
local POLL_TIMEOUT_MS = 1000
local MAX_TRIES = 5
-- parse and load /etc/config/flukso
local flukso = uci:get_all('flukso')
local MAX_SENSORS = tonumber(flukso.main.max_sensors)
local MAX_ANALOG_SENSORS = tonumber(flukso.main.max_analog_sensors)
local RESET_COUNTERS = (flukso.main.reset_counters == '1')
local WAN_ENABLED = (flukso.daemon.enable_wan_branch == '1')
local LAN_ENABLED = (flukso.daemon.enable_lan_branch == '1')
local METERCONST_FACTOR = 0.449
-- sensor board commands
local GET_HW_VERSION = 'gh'
local GET_HW_VERSION_R = '^gh%s+(%d+)%s+(%d+)$'
local SET_ENABLE = 'se %d %d'
local SET_PHY_TO_LOG = 'sp' -- with [1..MAX_SENSORS] arguments
local SET_METERCONST = 'sm %d %d'
local SET_COUNTER = 'sc %d %d'
local COMMIT = 'ct'
-- LAN settings
local API_PATH = '/www/sensor/'
local CGI_SCRIPT = '/usr/bin/restful'
local AVAHI_PATH = '/etc/avahi/services/flukso.service'
-- WAN settings
local WAN_BASE_URL = flukso.daemon.wan_base_url .. 'sensor/'
local WAN_KEY = '0123456789abcdef0123456789abcdef'
uci:foreach('system', 'system', function(x) WAN_KEY = x.key end) -- quirky but it works
-- https header helpers
local FLUKSO_VERSION = '000'
uci:foreach('system', 'system', function(x) FLUKSO_VERSION = x.version end)
local USER_AGENT = 'Fluksometer v' .. FLUKSO_VERSION
local CACERT = flukso.daemon.cacert
--- Convert from Lua-style to c-style index.
-- @param index Lua-style index startng at 1
-- @return C-style index starting at 0
local function toc(index)
return index - 1
end
--- Log exit status to syslog first, then exit.
-- @param code exit status code
-- @return none
local function exit(code)
local level
if code == 0 then
level = 'info'
else
level = 'err'
end
nixio.syslog(level, string.format('fsync exit status: %d', code))
os.exit(code)
end
--- Create a pair of file descriptors [fd] to the spid control fifo's.
-- @return ctrl object containing the fd's, a line-based iterator and poll flags
local function ctrl_init()
local ctrl = { fdin = nixio.open(CTRL_PATH_IN, O_RDWR_NONBLOCK),
fdout = nixio.open(CTRL_PATH_OUT, O_RDWR_NONBLOCK),
events = POLLIN,
revents = 0 }
if ctrl.fdin == nil or ctrl.fdout == nil then
print('Error. Unable to open the ctrl fifos.')
print('Exiting...')
exit(1)
end
-- acquire an exclusive lock on the ctrl fifos or exit
if not (ctrl.fdin:lock('tlock') and ctrl.fdout:lock('tlock')) then
print('Error. Detected a lock on one of the ctrl fifos.')
print('Exiting...')
exit(1)
end
ctrl.fd = ctrl.fdout -- need this entry for nixio.poll
ctrl.line = ctrl.fdout:linesource()
return ctrl
end
--- Close the spid control fifo's.
-- @param code ctrl object
-- @return none
local function ctrl_close(ctrl)
ctrl.fdin:close()
ctrl.fdout:close()
end
--- Send a command to the control fifo.
-- @param ctrl ctrl object
-- @param cmd command to send
-- @return none
local function send(ctrl, cmd)
while ctrl.line() do end -- flush the out fifo
for i = 1, MAX_TRIES do
ctrl.fdin:write(cmd .. '\n')
local poll, errno, errmsg = nixio.poll({ ctrl }, POLL_TIMEOUT_MS)
if poll < 0 then
print('Error. Poll failed with error message: ' .. errmsg)
elseif poll == 0 then
print('Error. Poll timed out after ' .. POLL_TIMEOUT_MS .. 'ms')
elseif poll > 0 then
reply = ctrl.line()
if cmd:sub(1, 1) == 's' then
if reply == cmd then
print(reply .. ' .. ok')
return reply
else
print(reply .. ' .. nok .. should be ' .. cmd .. ' instead')
end
elseif cmd:sub(1, 2) == reply:sub(1, 2) then
print(reply .. ' .. ok')
return reply
else
print(reply .. ' .. nok')
end
end
end
print(MAX_TRIES .. ' write attempts failed. Exiting ...')
exit(2)
end
--- Check the sensor board hardware version.
-- @param ctrl ctrl object
-- @return none
local function check_hw_version(ctrl)
local hw_major, hw_minor = send(ctrl, GET_HW_VERSION):match(GET_HW_VERSION_R)
if hw_major ~= flukso.main.hw_major or hw_minor > flukso.main.hw_minor then
print(string.format('Hardware check (major: %s, minor: %s) .. nok', hw_major, hw_minor))
if hw_major ~= flukso.main.hw_major then
print('Error. Major version does not match.')
end
if hw_minor > flukso.main.hw_minor then
print('Error. Sensor board minor version is not supported by this package.')
end
if HW_CHECK_OVERRIDE then
print('Overridden. Good luck!')
else
print('Use -f to override this check at your own peril.')
exit(3)
end
else
print(string.format('Hardware check (major: %s, minor: %s) .. ok', hw_major, hw_minor))
end
end
--- Disable all sensors in the sensor board.
-- @param ctrl ctrl object
-- @return none
local function disable_all_sensors(ctrl)
for i = 1, MAX_SENSORS do
local cmd = string.format(SET_ENABLE, toc(i), 0)
send(ctrl, cmd)
end
end
--- Populate the physical (port) to logical (sensor) map on the sensor board.
-- @param ctrl ctrl object
-- @return none
local function set_phy_to_log(ctrl)
local phy_to_log = {}
for i = 1, MAX_SENSORS do
if flukso[tostring(i)] ~= nil then
if flukso[tostring(i)]['class'] == 'analog' and i > MAX_ANALOG_SENSORS then
print(string.format('Error. Analog sensor %s should be less than or equal to max_analog_sensors (%s)', i, MAX_ANALOG_SENSORS))
exit(4)
end
local ports = flukso[tostring(i)].port or {}
for j = 1, #ports do
if tonumber(ports[j]) > MAX_SENSORS then
print(string.format('Error. Port numbering in sensor %s should be less than or equal to max_sensors (%s)', i, MAX_SENSORS))
exit(5)
else
phy_to_log[toc(tonumber(ports[j]))] = toc(i)
end
end
end
end
-- ports that are not in use are mapped to sensor id 0xff
for i = 0, MAX_SENSORS - 1 do
if not phy_to_log[i] then
phy_to_log[i] = 0xff
end
end
local cmd = SET_PHY_TO_LOG .. ' ' .. table.concat(phy_to_log, ' ', 0)
send(ctrl, cmd)
end
--- Populate each sensor's meterconstant on the sensor board.
-- @param ctrl ctrl object
-- @return none
local function set_meterconst(ctrl)
for i = 1, MAX_SENSORS do
local cmd
if flukso[tostring(i)] == nil then
cmd = string.format(SET_METERCONST, toc(i), 0)
elseif flukso[tostring(i)]['class'] == 'analog' then
local voltage = tonumber(flukso[tostring(i)].voltage or "0")
local current = tonumber(flukso[tostring(i)].current or "0")
cmd = string.format(SET_METERCONST, toc(i), math.floor(METERCONST_FACTOR * voltage * current))
elseif flukso[tostring(i)]['class'] == 'pulse'then
local meterconst = tonumber(flukso[tostring(i)].constant or "0")
cmd = string.format(SET_METERCONST, toc(i), meterconst)
else
cmd = string.format(SET_METERCONST, toc(i), 0)
end
if cmd then send(ctrl,cmd) end
end
end
--- Reset each sensor's counter on the sensor board.
-- @param ctrl ctrl object
-- @return none
local function reset_counters(ctrl)
for i = 1, MAX_SENSORS do
local cmd = string.format(SET_COUNTER, toc(i), 0)
send(ctrl, cmd)
end
uci:set('flukso', 'main', 'reset_counters', 0)
uci:commit('flukso')
end
--- Activate the enabled sensors on the sensor board.
-- @param ctrl ctrl object
-- @return none
local function enable_sensors(ctrl)
for i = 1, MAX_SENSORS do
if flukso[tostring(i)] ~= nil and flukso[tostring(i)].enable == '1' then
cmd = string.format(SET_ENABLE, toc(i), 1)
send(ctrl, cmd)
end
end
end
--- Commit all changes on the sensor board.
-- @param ctrl ctrl object
-- @return none
local function commit(ctrl)
send(ctrl, COMMIT)
end
--- Remove all /sensor/xyz endpoint mappings to the cgi script.
-- @return none
local function remove_symlinks()
if nixio.fs.dir(API_PATH) then
for symlink in nixio.fs.dir(API_PATH) do
nixio.fs.unlink(API_PATH .. symlink)
end
end
end
--- Map /sensor/xyz endpoints to the cgi script.
-- @return none
local function create_symlinks()
-- make sure /www/sensor exists
nixio.fs.mkdirr(API_PATH)
-- generate new symlinks
for i = 1, MAX_SENSORS do
if flukso[tostring(i)] ~= nil
and flukso[tostring(i)].enable == '1'
and flukso[tostring(i)].id
and flukso[tostring(i)].class ~= 'uart'
then
local sensor_id = flukso[tostring(i)].id
if sensor_id then
nixio.fs.symlink(CGI_SCRIPT, API_PATH .. sensor_id)
print(string.format('ln -s %s %s%s .. ok', CGI_SCRIPT, API_PATH, sensor_id))
end
end
end
end
--- Remove the avahi-daemon flukso.service xml file.
-- @return none
local function remove_avahi_config()
nixio.fs.unlink(AVAHI_PATH)
end
--- Generate a new flukso.service xml file for the avahi-daemon.
-- @return none
local function create_avahi_config()
avahi = { head = {}, body = {}, tail = {} }
avahi.head[1] = '<?xml version="1.0" standalone="no"?><!--*-nxml-*-->'
avahi.head[2] = '<!DOCTYPE service-group SYSTEM "avahi-service.dtd">'
avahi.head[3] = '<service-group>'
avahi.head[4] = ' <name replace-wildcards="yes">Flukso RESTful API on %h</name>'
avahi.head[5] = ' <service>'
avahi.head[6] = ' <type>_flukso._tcp</type>'
avahi.head[7] = ' <port>8080</port>'
for i = 1, MAX_SENSORS do
if flukso[tostring(i)] ~= nil
and flukso[tostring(i)].enable == '1'
and flukso[tostring(i)].id
and flukso[tostring(i)].class ~= 'uart'
then
avahi.body[#avahi.body + 1] = string.format(' <txt-record>id%d=%s</txt-record>' , i, flukso[tostring(i)].id)
end
end
avahi.tail[1] = ' <txt-record>path=/sensor</txt-record>'
avahi.tail[2] = ' <txt-record>version=1.0</txt-record>'
avahi.tail[3] = ' </service>'
avahi.tail[4] = '</service-group>'
-- generate the new flukso service
fd = nixio.open(AVAHI_PATH, O_RDWR_CREAT)
print(string.format('generating a new %s', AVAHI_PATH))
for i = 1, #avahi.head do
fd:write(avahi.head[i] .. '\n')
end
for i = 1, #avahi.body do
fd:write(avahi.body[i] .. '\n')
end
for i = 1, #avahi.tail do
fd:write(avahi.tail[i] .. '\n')
end
end
--- POST each sensor's parameters to the /sensor/xyz endpoint
-- @return none
local function phone_home()
local function json_config(i) -- type(i) --> "string"
local config = {}
config["class"] = flukso[i]["class"]
config["type"] = flukso[i]["type"]
config["function"] = flukso[i]["function"]
config["voltage"] = tonumber(flukso[i]["voltage"])
config["current"] = tonumber(flukso[i]["current"])
config["constant"] = tonumber(flukso[i]["constant"])
config["enable"] = tonumber(flukso[i]["enable"])
if config["class"] == "analog" then
local phase = tonumber(flukso.main.phase)
if phase == 1 or
phase == 3 and i == "1" then
config["phase"] = phase
end
end
return luci.json.encode{ config = config }
end
local headers = {}
headers['Content-Type'] = 'application/json'
headers['X-Version'] = '1.0'
headers['User-Agent'] = USER_AGENT
local options = {}
options.sndtimeo = 5
options.rcvtimeo = 5
options.tls_context_set_verify = 'peer'
options.cacert = CACERT
options.method = 'POST'
options.headers = headers
local http_persist = httpclient.create_persistent()
for i = 1, MAX_SENSORS do
if flukso[tostring(i)] ~= nil and flukso[tostring(i)].id then
local sensor_id = flukso[tostring(i)].id
if i ~= MAX_SENSORS then
options.headers['Connection'] = 'keep-alive'
else
options.headers['Connection'] = 'close'
end
options.body = json_config(tostring(i))
options.headers['Content-Length'] = tostring(#options.body)
local hash = nixio.crypto.hmac('sha1', WAN_KEY)
hash:update(options.body)
options.headers['X-Digest'] = hash:final()
local url = WAN_BASE_URL .. sensor_id
local response, code, call_info = http_persist(url, options)
local level
if code == 200 or code == 204 then
level = 'info'
else
level = 'err'
end
nixio.syslog(level, string.format('%s %s: %s', options.method, url, code))
-- if available, send additional error info to the syslog
if type(call_info) == 'string' then
nixio.syslog('err', call_info)
elseif type(call_info) == 'table' then
local auth_error = call_info.headers['WWW-Authenticate']
if auth_error then
nixio.syslog('err', string.format('WWW-Authenticate: %s', auth_error))
end
end
end
end
end
-- open the connection to the syslog deamon, specifying our identity
nixio.openlog('fsync', 'pid')
-- sync config to sensor board
local ctrl = ctrl_init()
check_hw_version(ctrl)
disable_all_sensors(ctrl)
set_phy_to_log(ctrl)
set_meterconst(ctrl)
if RESET_COUNTERS then
reset_counters(ctrl)
end
enable_sensors(ctrl)
commit(ctrl)
ctrl_close(ctrl)
-- sync config locally
remove_symlinks()
remove_avahi_config()
if LAN_ENABLED then
create_symlinks()
create_avahi_config()
end
-- sync config with the server
if WAN_ENABLED then
phone_home()
end
print(arg[0] .. ' completed successfully. Bye!')
exit(0)