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/*
support_device_groups . ino - device groups support for Tasmota
Copyright ( C ) 2020 Paul C Diem
Device group allow multiple devices to be in a group with power , light
brightness , fade and speed settings and other module - specific settings
kept in sync across all devices in the group .
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/>.
*/
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# ifdef USE_DEVICE_GROUPS
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//#define DEVICE_GROUPS_DEBUG
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# define DGR_MEMBER_TIMEOUT 45000
# define DGR_ANNOUNCEMENT_INTERVAL 60000
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# define DEVICE_GROUP_MESSAGE "TASMOTA_DGR"
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const char kDeviceGroupMessage [ ] PROGMEM = DEVICE_GROUP_MESSAGE ;
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struct device_group_member {
struct device_group_member * flink ;
IPAddress ip_address ;
uint16_t received_sequence ;
uint16_t acked_sequence ;
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uint32_t unicast_count ;
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} ;
struct device_group {
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uint32_t next_announcement_time ;
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uint32_t next_ack_check_time ;
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uint32_t member_timeout_time ;
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uint16_t outgoing_sequence ;
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uint16_t last_full_status_sequence ;
uint16_t message_length ;
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uint16_t ack_check_interval ;
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uint8_t message_header_length ;
uint8_t initial_status_requests_remaining ;
char group_name [ TOPSZ ] ;
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uint8_t message [ 128 ] ;
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struct device_group_member * device_group_members ;
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# ifdef USE_DEVICE_GROUPS_SEND
uint8_t values_8bit [ DGR_ITEM_LAST_8BIT ] ;
uint16_t values_16bit [ DGR_ITEM_LAST_16BIT - DGR_ITEM_MAX_8BIT - 1 ] ;
uint32_t values_32bit [ DGR_ITEM_LAST_32BIT - DGR_ITEM_MAX_16BIT - 1 ] ;
# endif // USE_DEVICE_GROUPS_SEND
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} ;
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WiFiUDP device_groups_udp ;
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struct device_group * device_groups ;
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uint32_t next_check_time ;
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bool device_groups_initialized = false ;
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bool device_groups_up = false ;
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bool building_status_message = false ;
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bool ignore_dgr_sends = false ;
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char * IPAddressToString ( const IPAddress & ip_address )
{
static char buffer [ 16 ] ;
sprintf_P ( buffer , PSTR ( " %u.%u.%u.%u " ) , ip_address [ 0 ] , ip_address [ 1 ] , ip_address [ 2 ] , ip_address [ 3 ] ) ;
return buffer ;
}
uint8_t * BeginDeviceGroupMessage ( struct device_group * device_group , uint16_t flags , bool hold_sequence = false )
{
uint8_t * message_ptr = & device_group - > message [ device_group - > message_header_length ] ;
if ( ! hold_sequence & & ! + + device_group - > outgoing_sequence ) device_group - > outgoing_sequence = 1 ;
* message_ptr + + = device_group - > outgoing_sequence & 0xff ;
* message_ptr + + = device_group - > outgoing_sequence > > 8 ;
* message_ptr + + = flags & 0xff ;
* message_ptr + + = flags > > 8 ;
return message_ptr ;
}
// Return true if we're configured to share the specified item.
bool DeviceGroupItemShared ( bool incoming , uint8_t item )
{
uint32_t mask ;
if ( item = = DGR_ITEM_LIGHT_BRI | | item = = DGR_ITEM_BRI_POWER_ON )
mask = DGR_SHARE_LIGHT_BRI ;
else if ( item = = DGR_ITEM_POWER )
mask = DGR_SHARE_POWER ;
else if ( item = = DGR_ITEM_LIGHT_SCHEME )
mask = DGR_SHARE_LIGHT_SCHEME ;
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else if ( item = = DGR_ITEM_LIGHT_FIXED_COLOR | | item = = DGR_ITEM_LIGHT_CHANNELS )
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mask = DGR_SHARE_LIGHT_COLOR ;
else if ( item = = DGR_ITEM_LIGHT_FADE | | item = = DGR_ITEM_LIGHT_SPEED )
mask = DGR_SHARE_LIGHT_FADE ;
else if ( item = = DGR_ITEM_BRI_PRESET_LOW | | item = = DGR_ITEM_BRI_PRESET_HIGH )
mask = DGR_SHARE_DIMMER_SETTINGS ;
else if ( item = = DGR_ITEM_EVENT )
mask = DGR_SHARE_EVENT ;
else
return true ;
return mask & ( incoming ? Settings . device_group_share_in : Settings . device_group_share_out ) ;
}
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void DeviceGroupsInit ( void )
{
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// If no module set the device group count, ...
if ( ! device_group_count ) {
// If relays in sepaate device groups is enabled, set the device group count to highest numbered
// relay.
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if ( Settings . flag4 . multiple_device_groups ) { // SetOption88 - Enable relays in separate device groups
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for ( uint32_t relay_index = 0 ; relay_index < MAX_RELAYS ; relay_index + + ) {
if ( PinUsed ( GPIO_REL1 , relay_index ) ) device_group_count = relay_index + 1 ;
}
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if ( device_group_count > MAX_DEV_GROUP_NAMES ) device_group_count = MAX_DEV_GROUP_NAMES ;
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}
// Otherwise, set the device group count to 1.
else {
device_group_count = 1 ;
}
}
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// If there are more device group names set than the number of device groups needed by the
// mdoule, use the device group name count as the device group count.
for ( ; device_group_count < MAX_DEV_GROUP_NAMES ; device_group_count + + ) {
if ( ! * SettingsText ( SET_DEV_GROUP_NAME1 + device_group_count ) ) break ;
}
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// Initialize the device information for each device group.
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device_groups = ( struct device_group * ) calloc ( device_group_count , sizeof ( struct device_group ) ) ;
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if ( ! device_groups ) {
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AddLog_P ( LOG_LEVEL_ERROR , PSTR ( " DGR: Error allocating %u-element array " ) , device_group_count ) ;
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return ;
}
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struct device_group * device_group = device_groups ;
for ( uint32_t device_group_index = 0 ; device_group_index < device_group_count ; device_group_index + + , device_group + + ) {
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strcpy ( device_group - > group_name , SettingsText ( SET_DEV_GROUP_NAME1 + device_group_index ) ) ;
// If the device group name is not set, use the MQTT group topic (with the device group index +
// 1 appended for device group indices > 0).
if ( ! device_group - > group_name [ 0 ] ) {
strcpy ( device_group - > group_name , SettingsText ( SET_MQTT_GRP_TOPIC ) ) ;
if ( device_group_index ) {
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snprintf_P ( device_group - > group_name , sizeof ( device_group - > group_name ) , PSTR ( " %s%u " ) , device_group - > group_name , device_group_index + 1 ) ;
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}
}
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device_group - > message_header_length = sprintf_P ( ( char * ) device_group - > message , PSTR ( " %s%s " ) , kDeviceGroupMessage , device_group - > group_name ) + 1 ;
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device_group - > last_full_status_sequence = - 1 ;
}
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// If both in and out shared items masks are 0, assume they're unitialized and initialize them.
if ( ! Settings . device_group_share_in & & ! Settings . device_group_share_out ) {
Settings . device_group_share_in = Settings . device_group_share_out = 0xffffffff ;
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}
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device_groups_initialized = true ;
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}
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void DeviceGroupsStart ( )
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{
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if ( Settings . flag4 . device_groups_enabled & & ! device_groups_up & & ! TasmotaGlobal . restart_flag ) {
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// If we haven't successfuly initialized device groups yet, attempt to do it now.
if ( ! device_groups_initialized ) {
DeviceGroupsInit ( ) ;
if ( ! device_groups_initialized ) return ;
}
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// Subscribe to device groups multicasts.
if ( ! device_groups_udp . beginMulticast ( WiFi . localIP ( ) , IPAddress ( DEVICE_GROUPS_ADDRESS ) , DEVICE_GROUPS_PORT ) ) {
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AddLog_P ( LOG_LEVEL_ERROR , PSTR ( " DGR: Error subscribing " ) ) ;
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return ;
}
device_groups_up = true ;
// The WiFi was down but now it's up and device groups is initialized. (Re-)discover devices in
// our device group(s). Load the status request message for all device groups. This message will
// be multicast 10 times at 200ms intervals.
next_check_time = millis ( ) + 2000 ;
struct device_group * device_group = device_groups ;
for ( uint32_t device_group_index = 0 ; device_group_index < device_group_count ; device_group_index + + , device_group + + ) {
device_group - > next_announcement_time = - 1 ;
device_group - > message_length = BeginDeviceGroupMessage ( device_group , DGR_FLAG_RESET | DGR_FLAG_STATUS_REQUEST ) - device_group - > message ;
device_group - > initial_status_requests_remaining = 10 ;
device_group - > next_ack_check_time = next_check_time ;
}
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AddLog_P ( LOG_LEVEL_DEBUG , PSTR ( " DGR: (Re)discovering members " ) ) ;
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}
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}
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void DeviceGroupsStop ( )
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{
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device_groups_udp . flush ( ) ;
device_groups_up = false ;
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}
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void SendReceiveDeviceGroupMessage ( struct device_group * device_group , struct device_group_member * device_group_member , uint8_t * message , int message_length , bool received )
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{
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char log_buffer [ 512 ] ;
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bool item_processed = false ;
uint16_t message_sequence ;
uint16_t flags ;
int device_group_index = device_group - device_groups ;
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int log_length ;
int log_remaining ;
char * log_ptr ;
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// Find the end and start of the actual message (after the header).
uint8_t * message_end_ptr = message + message_length ;
uint8_t * message_ptr = message + strlen ( ( char * ) message ) + 1 ;
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// Get the message sequence and flags.
if ( message_ptr + 4 > message_end_ptr ) goto badmsg ; // Malformed message - must be at least 16-bit sequence, 16-bit flags left
message_sequence = * message_ptr + + ;
message_sequence | = * message_ptr + + < < 8 ;
flags = * message_ptr + + ;
flags | = * message_ptr + + < < 8 ;
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// Initialize the log buffer.
log_length = sprintf ( log_buffer , PSTR ( " DGR: %s %s message %s %s: seq=%u, flags=%u " ) , ( received ? PSTR ( " Received " ) : PSTR ( " Sending " ) ) , device_group - > group_name , ( received ? PSTR ( " from " ) : PSTR ( " to " ) ) , ( device_group_member ? IPAddressToString ( device_group_member - > ip_address ) : received ? PSTR ( " local " ) : PSTR ( " network " ) ) , message_sequence , flags ) ;
log_ptr = log_buffer + log_length ;
log_remaining = sizeof ( log_buffer ) - log_length ;
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// If this is an announcement, just log it.
if ( flags = = DGR_FLAG_ANNOUNCEMENT ) goto write_log ;
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// If this is a received ack message, save the message sequence if it's newer than the last ack we
// received from this member.
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if ( flags = = DGR_FLAG_ACK ) {
if ( received & & device_group_member & & ( message_sequence > device_group_member - > acked_sequence | | device_group_member - > acked_sequence - message_sequence < 64536 ) ) {
device_group_member - > acked_sequence = message_sequence ;
}
goto write_log ;
}
// If this is a received message, send an ack message to the sender.
if ( device_group_member ) {
if ( received ) {
if ( ! ( flags & DGR_FLAG_MORE_TO_COME ) ) {
* ( message_ptr - 2 ) = DGR_FLAG_ACK ;
* ( message_ptr - 1 ) = 0 ;
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SendReceiveDeviceGroupMessage ( device_group , device_group_member , message , message_ptr - message , false ) ;
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}
}
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// If we're sending this message directly to a member, it's a resend.
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else {
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log_length = snprintf ( log_ptr , log_remaining , PSTR ( " , last ack=%u " ) , device_group_member - > acked_sequence ) ;
log_ptr + = log_length ;
log_remaining - = log_length ;
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goto write_log ;
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}
}
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// If this is a status request message, skip item processing.
if ( ( flags & DGR_FLAG_STATUS_REQUEST ) ) goto write_log ;
// If this is a received message, ...
if ( received ) {
// If we already processed this or a later message from this group member, ignore this message.
if ( device_group_member ) {
if ( message_sequence < = device_group_member - > received_sequence ) {
if ( message_sequence = = device_group_member - > received_sequence | | device_group_member - > received_sequence - message_sequence > 64536 ) {
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log_length = snprintf ( log_ptr , log_remaining , PSTR ( " (old) " ) ) ;
log_ptr + = log_length ;
log_remaining - = log_length ;
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goto write_log ;
}
}
device_group_member - > received_sequence = message_sequence ;
}
/*
XdrvMailbox
bool grpflg
bool usridx
uint16_t command_code Item code
uint32_t index 0 : 15 Flags , 16 : 31 Message sequence
uint32_t data_len String item value length
int32_t payload Integer item value
char * topic Pointer to device group index
char * data Pointer to non - integer item value
char * command nullptr
*/
XdrvMailbox . command = nullptr ; // Indicates the source is a device group update
XdrvMailbox . index = flags | message_sequence < < 16 ;
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if ( device_group_index = = 0 & & first_device_group_is_local ) XdrvMailbox . index | = DGR_FLAG_LOCAL ;
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XdrvMailbox . topic = ( char * ) & device_group_index ;
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if ( flags & ( DGR_FLAG_MORE_TO_COME | DGR_FLAG_DIRECT ) ) TasmotaGlobal . skip_light_fade = true ;
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// Set the flag to ignore device group send message request so callbacks from the drivers do not
// send updates.
ignore_dgr_sends = true ;
}
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uint8_t item ;
int32_t value ;
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for ( ; ; ) {
if ( message_ptr > = message_end_ptr ) goto badmsg ; // Malformed message
item = * message_ptr + + ;
if ( ! item ) break ; // Done
# ifdef DEVICE_GROUPS_DEBUG
switch ( item ) {
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case DGR_ITEM_FLAGS :
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case DGR_ITEM_LIGHT_FADE :
case DGR_ITEM_LIGHT_SPEED :
case DGR_ITEM_LIGHT_BRI :
case DGR_ITEM_LIGHT_SCHEME :
case DGR_ITEM_LIGHT_FIXED_COLOR :
case DGR_ITEM_BRI_PRESET_LOW :
case DGR_ITEM_BRI_PRESET_HIGH :
case DGR_ITEM_BRI_POWER_ON :
case DGR_ITEM_POWER :
case DGR_ITEM_EVENT :
case DGR_ITEM_LIGHT_CHANNELS :
break ;
default :
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AddLog_P ( LOG_LEVEL_ERROR , PSTR ( " DGR: *** Invalid item=%u " ) , item ) ;
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}
# endif // DEVICE_GROUPS_DEBUG
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log_length = snprintf ( log_ptr , log_remaining , PSTR ( " , %u= " ) , item ) ;
log_ptr + = log_length ;
log_remaining - = log_length ;
log_length = 0 ;
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if ( item < = DGR_ITEM_LAST_32BIT ) {
value = * message_ptr + + ;
if ( item > DGR_ITEM_MAX_8BIT ) {
value | = * message_ptr + + < < 8 ;
if ( item > DGR_ITEM_MAX_16BIT ) {
value | = * message_ptr + + < < 16 ;
value | = * message_ptr + + < < 24 ;
# ifdef USE_DEVICE_GROUPS_SEND
device_group - > values_32bit [ item - DGR_ITEM_MAX_16BIT - 1 ] = ( item = = DGR_ITEM_POWER ? value & 0xffffff : value ) ;
# endif // USE_DEVICE_GROUPS_SEND
}
# ifdef USE_DEVICE_GROUPS_SEND
else {
device_group - > values_16bit [ item - DGR_ITEM_MAX_8BIT - 1 ] = value ;
}
# endif // USE_DEVICE_GROUPS_SEND
}
# ifdef USE_DEVICE_GROUPS_SEND
else {
device_group - > values_8bit [ item ] = value ;
}
# endif // USE_DEVICE_GROUPS_SEND
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log_length = snprintf ( log_ptr , log_remaining , PSTR ( " %u " ) , value ) ;
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}
else {
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value = * message_ptr + + ;
if ( received ) XdrvMailbox . data = ( char * ) message_ptr ;
if ( message_ptr + value > = message_end_ptr ) goto badmsg ; // Malformed message
if ( item < = DGR_ITEM_MAX_STRING ) {
log_length = snprintf ( log_ptr , log_remaining , PSTR ( " '%s' " ) , message_ptr ) ;
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}
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else {
switch ( item ) {
case DGR_ITEM_LIGHT_CHANNELS :
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log_length = snprintf ( log_ptr , log_remaining , PSTR ( " %u,%u,%u,%u,%u,%u " ) , * message_ptr , * ( message_ptr + 1 ) , * ( message_ptr + 2 ) , * ( message_ptr + 3 ) , * ( message_ptr + 4 ) , * ( message_ptr + 5 ) ) ;
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break ;
}
}
message_ptr + = value ;
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}
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log_ptr + = log_length ;
log_remaining - = log_length ;
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if ( received & & DeviceGroupItemShared ( true , item ) ) {
item_processed = true ;
XdrvMailbox . command_code = item ;
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XdrvMailbox . payload = value ;
XdrvMailbox . data_len = value ;
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* log_ptr + + = ' * ' ;
log_remaining - - ;
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switch ( item ) {
case DGR_ITEM_POWER :
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if ( Settings . flag4 . multiple_device_groups ) { // SetOption88 - Enable relays in separate device groups
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if ( device_group_index < TasmotaGlobal . devices_present ) {
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bool on = ( value & 1 ) ;
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if ( on ! = ( TasmotaGlobal . power & ( 1 < < device_group_index ) ) ) ExecuteCommandPower ( device_group_index + 1 , ( on ? POWER_ON : POWER_OFF ) , SRC_REMOTE ) ;
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}
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}
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else if ( XdrvMailbox . index & DGR_FLAG_LOCAL ) {
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uint8_t mask_devices = value > > 24 ;
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if ( mask_devices > TasmotaGlobal . devices_present ) mask_devices = TasmotaGlobal . devices_present ;
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for ( uint32_t i = 0 ; i < mask_devices ; i + + ) {
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uint32_t mask = 1 < < i ;
bool on = ( value & mask ) ;
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if ( on ! = ( TasmotaGlobal . power & mask ) ) ExecuteCommandPower ( i + 1 , ( on ? POWER_ON : POWER_OFF ) , SRC_REMOTE ) ;
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}
}
break ;
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# ifdef USE_RULES
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case DGR_ITEM_EVENT :
CmndEvent ( ) ;
break ;
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# endif
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case DGR_ITEM_COMMAND :
ExecuteCommand ( XdrvMailbox . data , SRC_REMOTE ) ;
break ;
}
XdrvCall ( FUNC_DEVICE_GROUP_ITEM ) ;
}
}
if ( received ) {
if ( item_processed ) {
XdrvMailbox . command_code = DGR_ITEM_EOL ;
XdrvCall ( FUNC_DEVICE_GROUP_ITEM ) ;
}
}
write_log :
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* log_ptr + + = 0 ;
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AddLog_P ( LOG_LEVEL_DEBUG_MORE , log_buffer ) ;
// If this is a received status request message, then if the requestor didn't just ack our
// previous full status update, send a full status update.
if ( received ) {
if ( ( flags & DGR_FLAG_STATUS_REQUEST ) ) {
if ( ( flags & DGR_FLAG_RESET ) | | device_group_member - > acked_sequence ! = device_group - > last_full_status_sequence ) {
_SendDeviceGroupMessage ( device_group_index , DGR_MSGTYP_FULL_STATUS ) ;
}
}
}
// If this is a message being sent, send it.
else {
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int attempt ;
IPAddress ip_address = ( device_group_member ? device_group_member - > ip_address : IPAddress ( DEVICE_GROUPS_ADDRESS ) ) ;
for ( attempt = 1 ; attempt < = 5 ; attempt + + ) {
if ( device_groups_udp . beginPacket ( ip_address , DEVICE_GROUPS_PORT ) ) {
device_groups_udp . write ( message , message_length ) ;
if ( device_groups_udp . endPacket ( ) ) break ;
2020-04-21 22:33:07 +01:00
}
delay ( 10 ) ;
}
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if ( attempt > 5 ) AddLog_P ( LOG_LEVEL_ERROR , PSTR ( " DGR: Error sending message " ) ) ;
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}
goto cleanup ;
badmsg :
AddLog_P ( LOG_LEVEL_ERROR , PSTR ( " %s ** incorrect length " ) , log_buffer ) ;
cleanup :
if ( received ) {
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TasmotaGlobal . skip_light_fade = false ;
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ignore_dgr_sends = false ;
}
2020-02-21 15:09:21 +00:00
}
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bool _SendDeviceGroupMessage ( uint8_t device_group_index , DevGroupMessageType message_type , . . . )
2020-02-21 15:09:21 +00:00
{
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// If device groups is not up, ignore this request.
if ( ! device_groups_up ) return 1 ;
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// If the device group index is higher then the number of device groups, ignore this request.
if ( device_group_index > = device_group_count ) return 0 ;
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// Extract the flags from the message type.
bool with_local = ( ( message_type & DGR_MSGTYPFLAG_WITH_LOCAL ) ! = 0 ) ;
message_type = ( DevGroupMessageType ) ( message_type & 0x7F ) ;
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// If we're currently processing a remote device message, ignore this request.
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if ( ignore_dgr_sends & & message_type ! = DGR_MSGTYPE_UPDATE_COMMAND ) return 0 ;
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// Get a pointer to the device information for this device.
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struct device_group * device_group = & device_groups [ device_group_index ] ;
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// If we're still sending initial status requests, ignore this request.
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if ( device_group - > initial_status_requests_remaining ) return 1 ;
2020-02-21 15:09:21 +00:00
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// Load the message header, sequence and flags.
# ifdef DEVICE_GROUPS_DEBUG
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AddLog_P ( LOG_LEVEL_DEBUG , PSTR ( " DGR: Building %s %spacket " ) , device_group - > group_name , ( message_type = = DGR_MSGTYP_FULL_STATUS ? PSTR ( " full status " ) : PSTR ( " " ) ) ) ;
2020-04-21 22:33:07 +01:00
# endif // DEVICE_GROUPS_DEBUG
uint16_t original_sequence = device_group - > outgoing_sequence ;
uint16_t flags = 0 ;
if ( message_type = = DGR_MSGTYP_UPDATE_MORE_TO_COME )
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flags = DGR_FLAG_MORE_TO_COME ;
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else if ( message_type = = DGR_MSGTYP_UPDATE_DIRECT )
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flags = DGR_FLAG_DIRECT ;
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uint8_t * message_ptr = BeginDeviceGroupMessage ( device_group , flags , building_status_message | | message_type = = DGR_MSGTYP_PARTIAL_UPDATE ) ;
2020-04-21 22:33:07 +01:00
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// A full status request is a request from a remote device for the status of every item we
2020-02-24 22:34:45 +00:00
// control. As long as we're building it, we may as well multicast the status update to all
2020-02-21 15:09:21 +00:00
// device group members.
if ( message_type = = DGR_MSGTYP_FULL_STATUS ) {
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device_group - > last_full_status_sequence = device_group - > outgoing_sequence ;
device_group - > message_length = 0 ;
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// Set the flag indicating we're currently building a status message. SendDeviceGroupMessage
// will build but not send messages while this flag is set.
building_status_message = true ;
// Call the drivers to build the status update.
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SendDeviceGroupMessage ( device_group_index , DGR_MSGTYP_PARTIAL_UPDATE , DGR_ITEM_POWER , TasmotaGlobal . power ) ;
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XdrvMailbox . index = 0 ;
if ( device_group_index = = 0 & & first_device_group_is_local ) XdrvMailbox . index = DGR_FLAG_LOCAL ;
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XdrvMailbox . command_code = DGR_ITEM_STATUS ;
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XdrvMailbox . topic = ( char * ) & device_group_index ;
2020-03-12 17:51:54 +00:00
XdrvCall ( FUNC_DEVICE_GROUP_ITEM ) ;
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building_status_message = false ;
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// Set the status update flag in the outgoing message.
* ( message_ptr - 2 ) | = DGR_FLAG_FULL_STATUS ;
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// If we have nothing to share with the other members, just send the EOL item.
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if ( ! device_group - > message_length ) {
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* message_ptr + + = 0 ;
device_group - > message_length = message_ptr - device_group - > message ;
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}
}
else {
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# ifdef USE_DEVICE_GROUPS_SEND
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uint8_t out_buffer [ 128 ] ;
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bool escaped ;
char chr ;
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char oper ;
uint32_t old_value ;
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uint8_t * out_ptr = out_buffer ;
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# endif // USE_DEVICE_GROUPS_SEND
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struct item {
uint8_t item ;
uint32_t value ;
void * value_ptr ;
} item_array [ 32 ] ;
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bool shared ;
uint8_t item ;
uint32_t value ;
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uint8_t * value_ptr ;
uint8_t * first_item_ptr = message_ptr ;
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struct item * item_ptr ;
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va_list ap ;
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// Build an array of all the items and values in this update.
item_ptr = item_array ;
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# ifdef USE_DEVICE_GROUPS_SEND
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if ( message_type = = DGR_MSGTYPE_UPDATE_COMMAND ) {
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value_ptr = ( uint8_t * ) XdrvMailbox . data ;
while ( ( item = strtoul ( ( char * ) value_ptr , ( char * * ) & value_ptr , 0 ) ) ) {
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item_ptr - > item = item ;
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if ( * value_ptr ! = ' = ' ) return 1 ;
value_ptr + + ;
if ( item < = DGR_ITEM_MAX_32BIT ) {
oper = 0 ;
if ( * value_ptr = = ' @ ' ) {
oper = value_ptr [ 1 ] ;
value_ptr + = 2 ;
}
value = ( isdigit ( * value_ptr ) ? strtoul ( ( char * ) value_ptr , ( char * * ) & value_ptr , 0 ) : 1 ) ;
if ( oper ) {
old_value = ( item < = DGR_ITEM_MAX_8BIT ? device_group - > values_8bit [ item ] : ( item < = DGR_ITEM_MAX_16BIT ? device_group - > values_16bit [ item - DGR_ITEM_MAX_8BIT - 1 ] : device_group - > values_32bit [ item - DGR_ITEM_MAX_16BIT - 1 ] ) ) ;
value = ( oper = = ' + ' ? old_value + value : ( oper = = ' - ' ? old_value - value : ( oper = = ' ^ ' ? old_value ^ ( value ? value : 0xffffffff ) : old_value ) ) ) ;
2020-04-19 04:37:05 +01:00
}
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item_ptr - > value = value ;
}
else {
item_ptr - > value_ptr = out_ptr ;
if ( item < = DGR_ITEM_MAX_STRING ) {
2020-04-19 04:37:05 +01:00
escaped = false ;
while ( ( chr = * value_ptr + + ) ) {
if ( chr = = ' ' & & ! escaped ) break ;
if ( ! ( escaped = ( chr = = ' \\ ' & & ! escaped ) ) ) * out_ptr + + = chr ;
}
* out_ptr = 0 ;
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}
else {
switch ( item ) {
case DGR_ITEM_LIGHT_CHANNELS :
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for ( int i = 0 ; i < 6 ; i + + ) {
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* out_ptr + + = strtoul ( ( char * ) value_ptr , ( char * * ) & value_ptr , 0 ) ;
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if ( * value_ptr = = ' , ' ) value_ptr + + ;
}
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break ;
}
2020-02-21 15:09:21 +00:00
}
}
2020-04-19 04:37:05 +01:00
item_ptr + + ;
}
}
else {
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# endif // USE_DEVICE_GROUPS_SEND
2020-04-19 04:37:05 +01:00
va_start ( ap , message_type ) ;
while ( ( item = va_arg ( ap , int ) ) ) {
item_ptr - > item = item ;
if ( item < = DGR_ITEM_MAX_32BIT )
item_ptr - > value = va_arg ( ap , int ) ;
else if ( item < = DGR_ITEM_MAX_STRING )
item_ptr - > value_ptr = va_arg ( ap , char * ) ;
else {
2020-04-24 15:12:43 +01:00
item_ptr - > value_ptr = va_arg ( ap , uint8_t * ) ;
2020-04-19 04:37:05 +01:00
}
item_ptr + + ;
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}
va_end ( ap ) ;
2020-04-19 04:37:05 +01:00
# ifdef USE_DEVICE_GROUPS_SEND
}
# endif // USE_DEVICE_GROUPS_SEND
2020-04-24 15:12:43 +01:00
item_ptr - > item = 0 ;
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// If we're still building this update or all group members haven't acknowledged the previous
// update yet, update the message to include these new updates. First we need to rebuild the
// previous update message to remove any items and their values that are included in this new
// update.
if ( device_group - > message_length ) {
int kept_item_count = 0 ;
2020-02-21 15:09:21 +00:00
2020-04-07 19:25:58 +01:00
// Rebuild the previous update message, removing any items whose values are included in this
// new update.
2020-04-24 15:12:43 +01:00
uint8_t * previous_message_ptr = message_ptr ;
2020-02-21 15:09:21 +00:00
while ( item = * previous_message_ptr + + ) {
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// Determine the length of this item's value.
if ( item < = DGR_ITEM_MAX_32BIT ) {
value = 1 ;
if ( item > DGR_ITEM_MAX_8BIT ) {
value = 2 ;
if ( item > DGR_ITEM_MAX_16BIT ) {
value = 4 ;
}
}
}
else {
value = * previous_message_ptr + 1 ;
}
2020-02-21 15:09:21 +00:00
// Search for this item in the new update.
2020-04-19 04:37:05 +01:00
for ( item_ptr = item_array ; item_ptr - > item ; item_ptr + + ) {
if ( item_ptr - > item = = item ) break ;
2020-02-21 15:09:21 +00:00
}
2020-04-24 15:12:43 +01:00
// If this item was not found in the new update, copy it to the new update message.
if ( ! item_ptr - > item ) {
2020-02-21 15:09:21 +00:00
kept_item_count + + ;
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* message_ptr + + = item ;
memmove ( message_ptr , previous_message_ptr , value ) ;
message_ptr + = value ;
2020-02-21 15:09:21 +00:00
}
2020-04-24 15:12:43 +01:00
// Advance past the item value.
previous_message_ptr + = value ;
2020-02-21 15:09:21 +00:00
}
# ifdef DEVICE_GROUPS_DEBUG
2020-11-06 16:09:13 +00:00
AddLog_P ( LOG_LEVEL_DEBUG , PSTR ( " DGR: %u items carried over " ) , kept_item_count ) ;
2020-02-21 15:09:21 +00:00
# endif // DEVICE_GROUPS_DEBUG
}
// Itertate through the passed items adding them and their values to the message.
2020-04-19 04:37:05 +01:00
for ( item_ptr = item_array ; ( item = item_ptr - > item ) ; item_ptr + + ) {
2020-04-07 19:25:58 +01:00
2020-04-19 04:37:05 +01:00
// If this item is shared with the group add it to the message.
2020-04-07 19:25:58 +01:00
shared = true ;
2020-04-24 15:50:29 +01:00
if ( ! device_group_index & & message_type ! = DGR_MSGTYPE_UPDATE_COMMAND ) shared = DeviceGroupItemShared ( false , item ) ;
2020-04-19 04:37:05 +01:00
if ( shared ) {
* message_ptr + + = item ;
// For integer items, add the value to the message.
if ( item < = DGR_ITEM_MAX_32BIT ) {
value = item_ptr - > value ;
2020-02-21 15:09:21 +00:00
* message_ptr + + = value & 0xff ;
if ( item > DGR_ITEM_MAX_8BIT ) {
value > > = 8 ;
* message_ptr + + = value & 0xff ;
2020-04-07 19:25:58 +01:00
if ( item > DGR_ITEM_MAX_16BIT ) {
value > > = 8 ;
* message_ptr + + = value & 0xff ;
value > > = 8 ;
// For the power item, the device count is overlayed onto the highest 8 bits.
2020-10-30 11:29:48 +00:00
if ( item = = DGR_ITEM_POWER & & ! value ) value = ( device_group_index = = 0 & & first_device_group_is_local ? TasmotaGlobal . devices_present : 1 ) ;
2020-04-07 19:25:58 +01:00
* message_ptr + + = value ;
}
2020-02-21 15:09:21 +00:00
}
}
2020-04-07 19:25:58 +01:00
2020-04-24 15:12:43 +01:00
// For string items and special items, get the value length.
2020-04-19 04:37:05 +01:00
else {
2020-04-24 15:12:43 +01:00
if ( item < = DGR_ITEM_MAX_STRING ) {
value = strlen ( ( const char * ) item_ptr - > value_ptr ) + 1 ;
}
else {
switch ( item ) {
case DGR_ITEM_LIGHT_CHANNELS :
2020-04-25 23:49:34 +01:00
value = 6 ;
2020-04-24 15:12:43 +01:00
break ;
}
2020-04-19 04:37:05 +01:00
}
2020-04-24 15:12:43 +01:00
// Load the length and copy the value.
* message_ptr + + = value ;
memcpy ( message_ptr , item_ptr - > value_ptr , value ) ;
message_ptr + = value ;
2020-04-07 19:25:58 +01:00
}
}
2020-02-21 15:09:21 +00:00
}
2020-04-21 22:33:07 +01:00
// If we added any items, add the EOL item code and calculate the message length.
2020-04-24 15:12:43 +01:00
if ( message_ptr ! = first_item_ptr ) {
2020-04-21 22:33:07 +01:00
* message_ptr + + = 0 ;
device_group - > message_length = message_ptr - device_group - > message ;
2020-04-24 15:12:43 +01:00
}
2020-02-21 15:09:21 +00:00
// If there's going to be more items added to this message, return.
2020-04-24 15:12:43 +01:00
if ( building_status_message | | message_type = = DGR_MSGTYP_PARTIAL_UPDATE ) return 0 ;
2020-02-21 15:09:21 +00:00
}
2020-04-21 22:33:07 +01:00
// If there is no message, restore the sequence number and return.
if ( ! device_group - > message_length ) {
device_group - > outgoing_sequence = original_sequence ;
2020-04-24 15:12:43 +01:00
return 0 ;
2020-04-21 22:33:07 +01:00
}
2020-02-24 22:34:45 +00:00
// Multicast the packet.
2020-04-24 15:12:43 +01:00
SendReceiveDeviceGroupMessage ( device_group , nullptr , device_group - > message , device_group - > message_length , false ) ;
2020-04-21 22:33:07 +01:00
# ifdef USE_DEVICE_GROUPS_SEND
2020-10-05 21:15:32 +01:00
// If requested, handle this updated locally as well.
if ( with_local ) {
2020-04-21 22:33:07 +01:00
struct XDRVMAILBOX save_XdrvMailbox = XdrvMailbox ;
2020-04-24 15:12:43 +01:00
SendReceiveDeviceGroupMessage ( device_group , nullptr , device_group - > message , device_group - > message_length , true ) ;
2020-04-21 22:33:07 +01:00
XdrvMailbox = save_XdrvMailbox ;
}
# endif // USE_DEVICE_GROUPS_SEND
2020-02-21 15:09:21 +00:00
2020-03-12 17:51:54 +00:00
uint32_t now = millis ( ) ;
2020-02-21 15:09:21 +00:00
if ( message_type = = DGR_MSGTYP_UPDATE_MORE_TO_COME ) {
2020-04-06 18:29:50 +01:00
device_group - > message_length = 0 ;
2020-03-12 17:51:54 +00:00
device_group - > next_ack_check_time = 0 ;
2020-02-21 15:09:21 +00:00
}
else {
2020-04-21 22:33:07 +01:00
device_group - > ack_check_interval = 200 ;
2020-03-12 17:51:54 +00:00
device_group - > next_ack_check_time = now + device_group - > ack_check_interval ;
if ( device_group - > next_ack_check_time < next_check_time ) next_check_time = device_group - > next_ack_check_time ;
device_group - > member_timeout_time = now + DGR_MEMBER_TIMEOUT ;
2020-02-21 15:09:21 +00:00
}
2020-03-12 17:51:54 +00:00
device_group - > next_announcement_time = now + DGR_ANNOUNCEMENT_INTERVAL ;
if ( device_group - > next_announcement_time < next_check_time ) next_check_time = device_group - > next_announcement_time ;
2020-04-24 15:12:43 +01:00
return 0 ;
2020-02-21 15:09:21 +00:00
}
2020-04-24 15:12:43 +01:00
void ProcessDeviceGroupMessage ( uint8_t * message , int message_length )
2020-02-21 15:09:21 +00:00
{
// Search for a device group with the target group name. If one isn't found, return.
2020-04-06 18:29:50 +01:00
uint8_t device_group_index = 0 ;
2020-04-24 15:12:43 +01:00
struct device_group * device_group = device_groups ;
char * message_group_name = ( char * ) message + sizeof ( DEVICE_GROUP_MESSAGE ) - 1 ;
2020-02-21 15:09:21 +00:00
for ( ; ; ) {
if ( ! strcmp ( message_group_name , device_group - > group_name ) ) break ;
if ( + + device_group_index > = device_group_count ) return ;
2020-04-24 15:12:43 +01:00
device_group + + ;
2020-02-21 15:09:21 +00:00
}
// Find the group member. If this is a new group member, add it.
2020-04-21 22:33:07 +01:00
struct device_group_member * device_group_member ;
2020-04-24 15:12:43 +01:00
IPAddress remote_ip = device_groups_udp . remoteIP ( ) ;
2020-02-21 15:09:21 +00:00
struct device_group_member * * flink = & device_group - > device_group_members ;
for ( ; ; ) {
device_group_member = * flink ;
if ( ! device_group_member ) {
device_group_member = ( struct device_group_member * ) calloc ( 1 , sizeof ( struct device_group_member ) ) ;
if ( device_group_member = = nullptr ) {
2020-11-06 16:09:13 +00:00
AddLog_P ( LOG_LEVEL_ERROR , PSTR ( " DGR: Error allocating member block " ) ) ;
2020-02-21 15:09:21 +00:00
return ;
}
device_group_member - > ip_address = remote_ip ;
* flink = device_group_member ;
2020-11-06 16:09:13 +00:00
AddLog_P ( LOG_LEVEL_DEBUG , PSTR ( " DGR: Member %s added " ) , IPAddressToString ( remote_ip ) ) ;
2020-02-21 15:09:21 +00:00
break ;
}
else if ( device_group_member - > ip_address = = remote_ip ) {
break ;
}
flink = & device_group_member - > flink ;
}
2020-04-24 15:12:43 +01:00
SendReceiveDeviceGroupMessage ( device_group , device_group_member , message , message_length , true ) ;
2020-02-21 15:09:21 +00:00
}
2020-04-15 14:40:18 +01:00
void DeviceGroupStatus ( uint8_t device_group_index )
{
if ( Settings . flag4 . device_groups_enabled & & device_group_index < device_group_count ) {
char buffer [ 1024 ] ;
int member_count = 0 ;
struct device_group * device_group = & device_groups [ device_group_index ] ;
buffer [ 0 ] = buffer [ 1 ] = 0 ;
for ( struct device_group_member * device_group_member = device_group - > device_group_members ; device_group_member ; device_group_member = device_group_member - > flink ) {
2020-04-21 22:33:07 +01:00
snprintf_P ( buffer , sizeof ( buffer ) , PSTR ( " %s,{ \" IPAddress \" : \" %s \" , \" ResendCount \" :%u, \" LastRcvdSeq \" :%u, \" LastAckedSeq \" :%u} " ) , buffer , IPAddressToString ( device_group_member - > ip_address ) , device_group_member - > unicast_count , device_group_member - > received_sequence , device_group_member - > acked_sequence ) ;
2020-04-15 14:40:18 +01:00
member_count + + ;
}
2020-08-30 23:55:11 +01:00
Response_P ( PSTR ( " { \" " D_CMND_DEVGROUPSTATUS " \" :{ \" Index \" :%u, \" GroupName \" : \" %s \" , \" MessageSeq \" :%u, \" MemberCount \" :%d, \" Members \" :[%s]}} " ) , device_group_index , device_group - > group_name , device_group - > outgoing_sequence , member_count , & buffer [ 1 ] ) ;
2020-04-15 14:40:18 +01:00
}
}
2020-02-21 15:09:21 +00:00
void DeviceGroupsLoop ( void )
{
2020-10-29 11:21:24 +00:00
if ( ! device_groups_up | | TasmotaGlobal . restart_flag ) return ;
2020-04-24 15:12:43 +01:00
while ( device_groups_udp . parsePacket ( ) ) {
uint8_t packet_buffer [ 512 ] ;
int length = device_groups_udp . read ( packet_buffer , sizeof ( packet_buffer ) - 1 ) ;
if ( length > 0 ) {
packet_buffer [ length ] = 0 ;
if ( ! strncmp_P ( ( char * ) packet_buffer , kDeviceGroupMessage , sizeof ( DEVICE_GROUP_MESSAGE ) - 1 ) ) {
ProcessDeviceGroupMessage ( packet_buffer , length ) ;
2020-02-21 15:09:21 +00:00
}
}
2020-04-24 15:12:43 +01:00
}
2020-02-21 15:09:21 +00:00
2020-04-24 15:12:43 +01:00
uint32_t now = millis ( ) ;
2020-02-25 00:40:44 +00:00
2020-04-24 15:12:43 +01:00
// If it's time to check on things, iterate through the device groups.
if ( ( long ) ( now - next_check_time ) > = 0 ) {
2020-03-12 17:51:54 +00:00
# ifdef DEVICE_GROUPS_DEBUG
2020-11-06 16:09:13 +00:00
AddLog_P ( LOG_LEVEL_DEBUG , PSTR ( " DGR: Checking next_check_time=%u, now=%u " ) , next_check_time , now ) ;
2020-03-12 17:51:54 +00:00
# endif // DEVICE_GROUPS_DEBUG
2020-04-24 15:12:43 +01:00
next_check_time = now + DGR_ANNOUNCEMENT_INTERVAL * 2 ;
2020-03-12 17:51:54 +00:00
2020-04-24 15:12:43 +01:00
struct device_group * device_group = device_groups ;
for ( uint32_t device_group_index = 0 ; device_group_index < device_group_count ; device_group_index + + , device_group + + ) {
2020-03-12 17:51:54 +00:00
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// If we're still waiting for acks to the last update from this device group, ...
if ( device_group - > next_ack_check_time ) {
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// If it's time to check for acks, ...
if ( ( long ) ( now - device_group - > next_ack_check_time ) > = 0 ) {
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// If we're still sending the initial status request message, send it.
if ( device_group - > initial_status_requests_remaining ) {
if ( - - device_group - > initial_status_requests_remaining ) {
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# ifdef DEVICE_GROUPS_DEBUG
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AddLog_P ( LOG_LEVEL_DEBUG , PSTR ( " DGR: Sending initial status request for group %s " ) , device_group - > group_name ) ;
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# endif // DEVICE_GROUPS_DEBUG
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SendReceiveDeviceGroupMessage ( device_group , nullptr , device_group - > message , device_group - > message_length , false ) ;
device_group - > message [ device_group - > message_header_length + 2 ] = DGR_FLAG_STATUS_REQUEST ; // The reset flag is on only for the first packet - turn it off now
next_check_time = device_group - > next_ack_check_time = now + 200 ;
continue ;
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}
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// If we've sent the initial status request message the set number of times, send our
// status to all the members.
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else {
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_SendDeviceGroupMessage ( device_group_index , DGR_MSGTYP_FULL_STATUS ) ;
}
}
// If we're done initializing, iterate through the group memebers, ...
else {
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# ifdef DEVICE_GROUPS_DEBUG
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AddLog_P ( LOG_LEVEL_DEBUG , PSTR ( " DGR: Checking for ack's " ) ) ;
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# endif // DEVICE_GROUPS_DEBUG
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bool acked = true ;
struct device_group_member * * flink = & device_group - > device_group_members ;
struct device_group_member * device_group_member ;
while ( ( device_group_member = * flink ) ) {
// If we have not received an ack to our last message from this member, ...
if ( device_group_member - > acked_sequence ! = device_group - > outgoing_sequence ) {
// If we haven't receive an ack from this member in DGR_MEMBER_TIMEOUT ms, assume
// they're offline and remove them from the group.
if ( ( long ) ( now - device_group - > member_timeout_time ) > = 0 ) {
* flink = device_group_member - > flink ;
free ( device_group_member ) ;
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AddLog_P ( LOG_LEVEL_DEBUG , PSTR ( " DGR: Member %s removed " ) , IPAddressToString ( device_group_member - > ip_address ) ) ;
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continue ;
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}
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// Otherwise, unicast the last message directly to this member.
SendReceiveDeviceGroupMessage ( device_group , device_group_member , device_group - > message , device_group - > message_length , false ) ;
device_group_member - > unicast_count + + ;
acked = false ;
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}
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flink = & device_group_member - > flink ;
}
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// If we've received an ack to the last message from all members, clear the ack check
// time and zero-out the message length.
if ( acked ) {
device_group - > next_ack_check_time = 0 ;
device_group - > message_length = 0 ; // Let _SendDeviceGroupMessage know we're done with this update
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}
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// If there are still members we haven't received an ack from, set the next ack check
// time. We start at 200ms and double the interval each pass with a maximum interval of
// 5 seconds.
else {
device_group - > ack_check_interval * = 2 ;
if ( device_group - > ack_check_interval > 5000 ) device_group - > ack_check_interval = 5000 ;
device_group - > next_ack_check_time = now + device_group - > ack_check_interval ;
}
}
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}
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if ( device_group - > next_ack_check_time < next_check_time ) next_check_time = device_group - > next_ack_check_time ;
}
// If it's time to send a multicast announcement for this group, send it. This is to
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// announce ourself to any members that have somehow not heard about us. We send it at the
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// announcement interval plus a random number of milliseconds so that even if all the devices
// booted at the same time, they don't all multicast their announcements at the same time.
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# ifdef DEVICE_GROUPS_DEBUG
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AddLog_P ( LOG_LEVEL_DEBUG , PSTR ( " DGR: next_announcement_time=%u, now=%u " ) , device_group - > next_announcement_time , now ) ;
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# endif // DEVICE_GROUPS_DEBUG
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if ( ( long ) ( now - device_group - > next_announcement_time ) > = 0 ) {
SendReceiveDeviceGroupMessage ( device_group , nullptr , device_group - > message , BeginDeviceGroupMessage ( device_group , DGR_FLAG_ANNOUNCEMENT , true ) - device_group - > message , false ) ;
device_group - > next_announcement_time = now + DGR_ANNOUNCEMENT_INTERVAL + random ( 10000 ) ;
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}
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if ( device_group - > next_announcement_time < next_check_time ) next_check_time = device_group - > next_announcement_time ;
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}
}
}
# endif // USE_DEVICE_GROUPS