####################################################################### # Partition manager for ESP32 - ESP32C3 - ESP32S2 # # use : `import partition` # # Provides low-level objects and a Web UI ####################################################################### var partition = module('partition') ####################################################################### # Class for a partition table entry # # typedef struct { # uint16_t magic; # uint8_t type; # uint8_t subtype; # uint32_t offset; # uint32_t size; # uint8_t label[16]; # uint32_t flags; # } esp_partition_info_t_simplified; # ####################################################################### class Partition_info var type var subtype var start var size var label var flags #- remove trailing NULL chars from a buffer before converting to string -# #- Berry strings can contain NULL, but this messes up C-Berry interface -# static def remove_trailing_zeroes(b) while size(b) > 0 if b[-1] == 0 b.resize(size(b)-1) else break end end return b end # def init(raw) if raw == nil || !issubclass(bytes, raw) # no payload, empty partition information self.type = 0 self.subtype = 0 self.start = 0 self.size = 0 self.label = '' self.flags = 0 return end #- we have a payload, parse it -# var magic = raw.get(0,2) if magic == 0x50AA #- partition entry -# self.type = raw.get(2,1) self.subtype = raw.get(3,1) self.start = raw.get(4,4) self.size = raw.get(8,4) self.label = self.remove_trailing_zeroes(raw[12..27]).asstring() self.flags = raw.get(28,4) elif magic == 0xEBEB #- MD5 -# else import string raise "internal_error", string.format("invalid magic number %02X", magic) end end # check if the parition is an OTA partition # if yes, return OTA number (starting at 0) # if no, return nil def is_ota() if self.type == 0 && (self.subtype >= 0x10 && self.subtype < 0x20) return self.subtype - 0x10 end end # check if the parition is a SPIFFS partition # returns bool def is_spiffs() return self.type == 1 && self.subtype == 130 end # get the actual image size give of the partition # returns -1 if the partition is not an app ota partition def get_image_size() import flash if self.is_ota() == nil return -1 end try var addr = self.start var magic_byte = flash.read(addr, 1).get(0, 1) if magic_byte != 0xE9 return -1 end var seg_count = flash.read(addr+1, 1).get(0, 1) # print("Segment count", seg_count) var seg_offset = addr + 0x20 # sizeof(esp_image_header_t) + sizeof(esp_image_segment_header_t) = 24 + 8 for seg_num:0..seg_count-1 # print(string.format("Reading 0x%08X", seg_offset)) var segment_header = flash.read(seg_offset - 8, 8) var seg_start_addr = segment_header.get(0, 4) var seg_size = segment_header.get(4,4) # print(string.format("Segment %i: flash_offset=0x%08X start_addr=0x%08X size=0x%08X", seg_num, seg_offset, seg_start_addr, seg_size)) seg_offset += seg_size + 8 # add segment_length + sizeof(esp_image_segment_header_t) end var total_size = seg_offset - addr + 1 # add 1KB for safety # print(string.format("Total size = %i KB", total_size/1024)) return total_size except .. as e, m print("BRY: Exception> '" + e + "' - " + m) return -1 end end def tostring() import string var type_s = "" var subtype_s = "" if self.type == 0 type_s = "app" if self.subtype == 0 subtype_s = "factory" elif self.subtype >= 0x10 && self.subtype < 0x20 subtype_s = "ota" + str(self.subtype - 0x10) elif self.subtype == 0x20 subtype_s = "test" end elif self.type == 1 type_s = "data" if self.subtype == 0x00 subtype_s = "otadata" elif self.subtype == 0x01 subtype_s = "phy" elif self.subtype == 0x02 subtype_s = "nvs" elif self.subtype == 0x03 subtype_s = "coredump" elif self.subtype == 0x04 subtype_s = "nvskeys" elif self.subtype == 0x05 subtype_s = "efuse_em" elif self.subtype == 0x80 subtype_s = "esphttpd" elif self.subtype == 0x81 subtype_s = "fat" elif self.subtype == 0x82 subtype_s = "spiffs" end end #- reformat strings -# if type_s != "" type_s = " (" + type_s + ")" end if subtype_s != "" subtype_s = " (" + subtype_s + ")" end return string.format("", self.type, type_s, self.subtype, subtype_s, self.start, self.size, self.label, self.flags) end def tobytes() #- convert to raw bytes -# var b = bytes('AA50') #- set magic number -# b.resize(32).resize(2) #- pre-reserve 32 bytes -# b.add(self.type, 1) b.add(self.subtype, 1) b.add(self.start, 4) b.add(self.size, 4) var label = bytes().fromstring(self.label) label.resize(16) b = b + label b.add(self.flags, 4) return b end end partition.Partition_info = Partition_info #------------------------------------------------------------- - OTA Data - - Selection of the active OTA partition - typedef struct { uint32_t ota_seq; uint8_t seq_label[20]; uint32_t ota_state; uint32_t crc; /* CRC32 of ota_seq field only */ } esp_ota_select_entry_t; - Excerp from esp_ota_ops.c esp32_idf use two sector for store information about which partition is running it defined the two sector as ota data partition,two structure esp_ota_select_entry_t is saved in the two sector named data in first sector as otadata[0], second sector data as otadata[1] e.g. if otadata[0].ota_seq == otadata[1].ota_seq == 0xFFFFFFFF,means ota info partition is in init status so it will boot factory application(if there is),if there's no factory application,it will boot ota[0] application if otadata[0].ota_seq != 0 and otadata[1].ota_seq != 0,it will choose a max seq ,and get value of max_seq%max_ota_app_number and boot a subtype (mask 0x0F) value is (max_seq - 1)%max_ota_app_number,so if want switch to run ota[x],can use next formulas. for example, if otadata[0].ota_seq = 4, otadata[1].ota_seq = 5, and there are 8 ota application, current running is (5-1)%8 = 4,running ota[4],so if we want to switch to run ota[7], we should add otadata[0].ota_seq (is 4) to 4 ,(8-1)%8=7,then it will boot ota[7] if A=(B - C)%D then B=(A + C)%D + D*n ,n= (0,1,2...) so current ota app sub type id is x , dest bin subtype is y,total ota app count is n seq will add (x + n*1 + 1 - seq)%n -------------------------------------------------------------# class Partition_otadata var maxota #- number of highest OTA partition, default 1 (double ota0/ota1) -# var offset #- offset of the otadata partition (0x2000 in length), default 0xE000 -# var active_otadata #- which otadata block is active, 0 or 1, i.e. 0xE000 or 0xF000 -# var seq0 #- ota_seq of first block -# var seq1 #- ota_seq of second block -# #------------------------------------------------------------- - Simple CRC32 imple - - adapted from Python https://rosettacode.org/wiki/CRC-32#Python -------------------------------------------------------------# static def crc32_create_table() var a = [] for i:0..255 var k = i for j:0..7 if k & 1 k = (k >> 1) & 0x7FFFFFFF k ^= 0xedb88320 else k = (k >> 1) & 0x7FFFFFFF end end a.push(k) end return a end static crc32_table = Partition_otadata.crc32_create_table() static def crc32_update(buf, crc) crc ^= 0xffffffff for k:0..size(buf)-1 crc = (crc >> 8 & 0x00FFFFFF) ^ Partition_otadata.crc32_table[(crc & 0xff) ^ buf[k]] end return crc ^ 0xffffffff end #- crc32 for ota_seq as 32 bits unsigned, with init vector -1 -# static def crc32_ota_seq(seq) return Partition_otadata.crc32_update(bytes().add(seq, 4), 0xFFFFFFFF) end #---------------------------------------------------------------------# # Rest of the class #---------------------------------------------------------------------# def init(maxota, offset) self.maxota = maxota if self.maxota == nil self.maxota = 1 end self.offset = offset if self.offset == nil self.offset = 0xE000 end self.active_otadata = 0 self.load() end #- update ota_max, needs to recompute everything -# def set_ota_max(n) self.maxota = n end # change the active OTA partition def set_active(n) var seq_max = 0 #- current highest seq number -# var block_act = 0 #- block number containing the highest seq number -# if self.seq0 != nil seq_max = self.seq0 block_act = 0 end if self.seq1 != nil && self.seq1 > seq_max seq_max = self.seq1 block_act = 1 end #- compute the next sequence number -# var actual_ota = (seq_max - 1) % (self.maxota + 1) if actual_ota != n #- change only if different -# if n > actual_ota seq_max += n - actual_ota else seq_max += (self.maxota + 1) - actual_ota + n end #- update internal structure -# if block_act == 1 #- current block is 1, so update block 0 -# self.seq0 = seq_max else #- or write to block 1 -# self.seq1 = seq_max end self._validate() end end #- load otadata from SPI Flash -# def load() import flash var otadata0 = flash.read(0xE000, 32) var otadata1 = flash.read(0xF000, 32) self.seq0 = otadata0.get(0, 4) #- ota_seq for block 1 -# self.seq1 = otadata1.get(0, 4) #- ota_seq for block 2 -# var valid0 = otadata0.get(28, 4) == self.crc32_ota_seq(self.seq0) #- is CRC32 valid? -# var valid1 = otadata1.get(28, 4) == self.crc32_ota_seq(self.seq1) #- is CRC32 valid? -# if !valid0 self.seq0 = nil end if !valid1 self.seq1 = nil end self._validate() end #- internally used, validate data -# def _validate() self.active_otadata = 0 #- if none is valid, default to OTA0 -# if self.seq0 != nil self.active_otadata = (self.seq0 - 1) % (self.maxota + 1) end if self.seq1 != nil && (self.seq0 == nil || self.seq1 > self.seq0) self.active_otadata = (self.seq1 - 1) % (self.maxota + 1) end end # Save partition information to SPI Flash def save() import flash #- check the block number to save, 0 or 1. Choose the highest ota_seq -# var block_to_save = -1 #- invalid -# var seq_to_save = -1 #- invalid value -# # check seq0 if self.seq0 != nil seq_to_save = self.seq0 block_to_save = 0 end if (self.seq1 != nil) && (self.seq1 > seq_to_save) seq_to_save = self.seq1 block_to_save = 1 end # if none was good if block_to_save < 0 block_to_save = 0 end if seq_to_save < 0 seq_to_save = 1 end var offset_to_save = self.offset + 0x1000 * block_to_save #- default 0xE000 or 0xF000 -# var bytes_to_save = bytes() bytes_to_save.add(seq_to_save, 4) bytes_to_save += bytes("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF") bytes_to_save.add(self.crc32_ota_seq(seq_to_save), 4) #- erase flash area and write -# flash.erase(offset_to_save, 0x1000) flash.write(offset_to_save, bytes_to_save) end # Produce a human-readable representation of the object with relevant information def tostring() import string return string.format("", self.active_otadata, self.seq0, self.seq1, self.maxota) end end partition.Partition_otadata = Partition_otadata #------------------------------------------------------------- - Class for a partition table entry -------------------------------------------------------------# class Partition var raw #- raw bytes of the partition table in flash -# var md5 #- md5 hash of partition list -# var slots var otadata #- instance of Partition_otadata() -# def init() self.slots = [] self.load() self.parse() self.load_otadata() end # Load partition information from SPI Flash def load() import flash self.raw = flash.read(0x8000,0x1000) end #- parse the raw bytes to a structured list of partition items -# def parse() for i:0..94 # there are maximum 95 slots + md5 (0xC00) var item_raw = self.raw[i*32..(i+1)*32-1] var magic = item_raw.get(0,2) if magic == 0x50AA #- partition entry -# var slot = Partition_info(item_raw) self.slots.push(slot) elif magic == 0xEBEB #- MD5 -# self.md5 = self.raw[i*32+16..i*33-1] break else break end end end def get_ota_slot(n) for slot: self.slots if slot.is_ota() == n return slot end end return nil end #- compute the highest ota partition -# def ota_max() var ota_max = 0 for slot:self.slots if slot.type == 0 && (slot.subtype >= 0x10 && slot.subtype < 0x20) var ota_num = slot.subtype - 0x10 if ota_num > ota_max ota_max = ota_num end end end return ota_max end def load_otadata() #- look for otadata partition offset, and max_ota -# var otadata_offset = 0xE000 #- default value -# var ota_max = self.ota_max() for slot:self.slots if slot.type == 1 && slot.subtype == 0 #- otadata -# otadata_offset = slot.start end end self.otadata = Partition_otadata(ota_max, otadata_offset) end # get the active OTA app partition number def get_active() return self.otadata.active_otadata end #- change the active partition -# def set_active(n) if n < 0 || n > self.ota_max() raise "value_error", "Invalid ota partition number" end self.otadata.set_ota_max(self.ota_max()) #- update ota_max if it changed -# self.otadata.set_active(n) end #- convert to human readble -# def tostring() var ret = " 95 raise "value_error", "Too many partiition slots" end var b = bytes() for slot: self.slots b += slot.tobytes() end #- compute MD5 -# var md5 = MD5() md5.update(b) #- add the last segment -# b += bytes("EBEBFFFFFFFFFFFFFFFFFFFFFFFFFFFF") b += md5.finish() #- complete -# return b end #- write back to flash -# def save() import flash var b = self.tobytes() #- erase flash area and write -# flash.erase(0x8000, 0x1000) flash.write(0x8000, b) self.otadata.save() end #- invalidate SPIFFS partition to force format at next boot -# #- we simply erase the first byte of the first 2 blocks in the SPIFFS partition -# def invalidate_spiffs() import flash #- we expect the SPIFFS partition to be the last one -# var spiffs = self.slots[-1] if !spiffs.is_spiffs() raise 'value_error', 'No FS partition found' end var b = bytes("00") #- flash memory: we can turn bits from '1' to '0' -# flash.write(spiffs.start , b) #- block #0 -# flash.write(spiffs.start + 0x1000, b) #- block #1 -# end end partition.Partition = Partition ################################################################################# # Partition_manager_UI # # WebUI for the partition manager ################################################################################# class Partition_manager_UI static app_size_min = 896 # Min OTA size - let's set it at a safe 896KB for minimal Tasmota32 with TLS static app_size_max = 3072 # Max OTA size - (4096 - 896 - 128) # create a method for adding a button to the main menu # the button 'Partition Manager' redirects to '/part_mgr?' def web_add_button() import webserver webserver.content_send( "

") end #- ---------------------------------------------------------------------- -# # Show a single OTA Partition #- ---------------------------------------------------------------------- -# def page_show_partition(slot, active, ota_num, maxota) import webserver import string #- define `bdis` style for gray disabled buttons -# webserver.content_send("
") webserver.content_send(string.format(" %s%s ", slot.start / 0x1000, slot.label, active ? " (active)" : "")) webserver.content_send(string.format("

Partition size: %i KB

", slot.size / 1024)) var used = slot.get_image_size() if used > slot.size slot.used = -1 end # we may have a leftover of a previous firmware but the slot shrank - in this case the slot is inknown if used >= 0 webserver.content_send(string.format("

Used: %i KB

", used / 1024)) webserver.content_send(string.format("

Free: %i KB

", (slot.size - used) / 1024)) else webserver.content_send("

Used: unknown

") webserver.content_send("

Free: unknown

") end if maxota != nil && maxota > 0 if !active && used > 0 webserver.content_send("

") webserver.content_send("") webserver.content_send(string.format("", ota_num)) webserver.content_send("

") else # put a fake disabled button webserver.content_send("

") if used >= 0 webserver.content_send("") else webserver.content_send("") end webserver.content_send("

") end end webserver.content_send("

") end #- ---------------------------------------------------------------------- -# # Show a single OTA Partition #- ---------------------------------------------------------------------- -# def page_show_spiffs(slot, free_mem) import webserver import string webserver.content_send(string.format("
 filesystem ", slot.start / 0x1000)) webserver.content_send(string.format("

Partition size: %i KB

", slot.size / 1024)) if free_mem != nil webserver.content_send(string.format("

Max size: %i KB

", (slot.size + free_mem) / 1024)) webserver.content_send(string.format("

Unallocated: %i KB

", free_mem / 1024)) end #- display Resize button -# webserver.content_send("

New size: (multiple of 16 KB)

") webserver.content_send("
") webserver.content_send(string.format("", (slot.size + free_mem) / 1024, ((slot.size + free_mem) / 1024 / 16)*16)) webserver.content_send("

") webserver.content_send("

") end #- ---------------------------------------------------------------------- -# #- Show each partition one after the other - only OTA and SPIFFS #- ---------------------------------------------------------------------- -# def page_show_partitions(p) # display ota partitions for slot: p.slots # is the slot app? var ota_num = slot.is_ota() if ota_num != nil # we have an OTA partition self.page_show_partition(slot, ota_num == p.otadata.active_otadata, ota_num, p.otadata.maxota) elif slot.is_factory() self.page_show_partition(slot, false, nil, nil) elif slot.is_spiffs() var flash_size = tasmota.memory()['flash'] * 1024 var used_size = (slot.start + slot.size) self.page_show_spiffs(slot, slot == p.slots[-1] ? flash_size - used_size : nil) end end end #- ---------------------------------------------------------------------- -# #- Display the Re-partition section - both OTA different sizes #- ---------------------------------------------------------------------- -# def page_show_repartition_asym(p) import webserver import string if p.get_active() != 0 webserver.content_send("

Re-partition can be done only if 'app0' is active.

") else # we can proceed var app0 = p.get_ota_slot(0) var app0_size_kb = ((app0.size / 1024 + 63) / 64) * 64 # rounded to upper 64kb var app0_used_kb = (((app0.get_image_size()) / 1024 / 64) + 1) * 64 var app1 = p.get_ota_slot(1) var app1_size_kb = ((app1.size / 1024 + 63) / 64) * 64 # rounded to upper 64kb # var app1_used_kb = (((app1.get_image_size()) / 1024 / 64) + 1) * 64 # we don't actually need it var flash_size_kb = tasmota.memory()['flash'] webserver.content_send("

Resize app Partitions.
It is highly recommended to set
both partition with the same size.
Filesystem is adjusted accordinlgy.

") webserver.content_send("
") webserver.content_send("

app0:

") webserver.content_send(string.format("

Min: %i KB

", app0_used_kb)) webserver.content_send(string.format("

Max: %i KB

", self.app_size_max)) webserver.content_send("

New: (multiple of 64 KB)

") webserver.content_send(string.format("", app0_used_kb, self.app_size_max, app0_size_kb)) webserver.content_send("

app1:

") webserver.content_send(string.format("

Min: %i KB

", self.app_size_min)) webserver.content_send(string.format("

Max: %i KB

", self.app_size_max)) webserver.content_send("

New: (multiple of 64 KB)

") webserver.content_send(string.format("", self.app_size_min, self.app_size_max, app1_size_kb)) webserver.content_send("

") end end ####################################################################### # Display the complete page ####################################################################### def page_part_mgr() import webserver import string import partition_core if !webserver.check_privileged_access() return nil end var p = partition_core.Partition() webserver.content_start("Partition Manager") #- title of the web page -# webserver.content_send_style() #- send standard Tasmota styles -# # webserver.content_send("

Warning: This can brick your device. Don't use unless you know what you are doing.

") webserver.content_send("
 Partition Manager 

") webserver.content_send("

Warning: This can brick your device.

") self.page_show_partitions(p) webserver.content_send("

") if p.otadata.maxota > 0 webserver.content_send("
 Re-partition 

") self.page_show_repartition_asym(p) webserver.content_send("

") end webserver.content_button(webserver.BUTTON_MANAGEMENT) #- button back to management page -# webserver.content_stop() #- end of web page -# end ####################################################################### # Web Controller, called by POST to `/part_mgr` ####################################################################### def page_part_ctl() import webserver import string import partition_core if !webserver.check_privileged_access() return nil end #- check that the partition is valid -# var p = partition_core.Partition() try #---------------------------------------------------------------------# # Switch OTA partition from one to another #---------------------------------------------------------------------# if webserver.has_arg("ota") #- OTA switch partition -# var ota_target = int(webserver.arg("ota")) if ota_target < 0 || ota_target > p.ota_max() raise "value_error", string.format("Invalid partition #%d", ota_target) end var ota_slot = p.get_ota_slot(ota_target) if ota_slot == nil || ota_slot.get_image_size() < 0 raise "value_error", string.format("Invalid OTA slot #%d", ota_target) end print(string.format("Trying to change active partition to %d", ota_target)) #- do the change -# p.set_active(ota_target) p.otadata.save() #- write to disk -# #- and force restart -# webserver.redirect("/?rst=") #---------------------------------------------------------------------# # Resize the SPIFFS partition, generally to extend it to full free size #---------------------------------------------------------------------# elif webserver.has_arg("fs_size") #- SPIFFS size change -# var spiffs_size_kb = int(webserver.arg("fs_size")) var spiffs_slot = p.slots[-1] # last slot var spiffs_max_size = ((tasmota.memory()['flash'] - (spiffs_slot.start / 1024)) / 16) * 16 if spiffs_slot == nil || !spiffs_slot.is_spiffs() raise "value_error", "Last slot is not FS type" end var flash_size_kb = tasmota.memory()['flash'] if spiffs_size_kb < 0 || spiffs_size_kb > spiffs_max_size raise "value_error", string.format("Invalid fs_size %i, should be between 0 and %i", spiffs_size_kb, spiffs_max_size) end if spiffs_size_kb == spiffs_slot.size/1024 raise "value_error", "FS size unchanged, abort" end #- write the new SPIFFS partition size -# spiffs_slot.size = spiffs_size_kb * 1024 p.save() p.invalidate_spiffs() # erase SPIFFS or data is corrupt #- and force restart -# webserver.redirect("/?rst=") #---------------------------------------------------------------------# # Repartition symmetrical OTA with a new SPIFFS size #---------------------------------------------------------------------# elif webserver.has_arg("repartition") if p.get_active() != 0 raise "value_error", "Can't repartition unless active partition is app0" end #- complete repartition -# var app0 = p.get_ota_slot(0) var app1 = p.get_ota_slot(1) var spiffs = p.slots[-1] if !spiffs.is_spiffs() raise 'internal_error', 'No FS partition found' end if app0 == nil || app1 == nil raise "internal_error", "Unable to find partitions app0 and app1" end if p.ota_max() != 1 raise "internal_error", "There are more than 2 OTA partition, abort" end var app0_size_kb = ((app0.size / 1024 + 63) / 64) * 64 # rounded to upper 64kb var app0_used_kb = (((app0.get_image_size()) / 1024 / 64) + 1) * 64 var flash_size_kb = tasmota.memory()['flash'] var part_size_kb = int(webserver.arg("repartition")) if part_size_kb < app0_used_kb || part_size_kb > self.app_size_max raise "value_error", string.printf("Invalid partition size %i KB, should be between %i and %i", part_size_kb, app0_used_kb, self.app_size_max) end if part_size_kb == app0_size_kb raise "value_error", "No change to partition size, abort" end #- all good, proceed -# # resize app0 app0.size = part_size_kb * 1024 # change app1 app1.start = app0.start + app0.size app1.size = part_size_kb * 1024 # change spiffs spiffs.start = app1.start + app1.size spiffs.size = flash_size_kb * 1024 - spiffs.start p.save() p.invalidate_spiffs() # erase SPIFFS or data is corrupt #- and force restart -# webserver.redirect("/?rst=") #---------------------------------------------------------------------# # Repartition OTA with a new SPIFFS size #---------------------------------------------------------------------# elif webserver.has_arg("app0") && webserver.has_arg("app1") if p.get_active() != 0 raise "value_error", "Can't repartition unless active partition is app0" end #- complete repartition -# var app0 = p.get_ota_slot(0) var app1 = p.get_ota_slot(1) var spiffs = p.slots[-1] if !spiffs.is_spiffs() raise 'internal_error', 'No FS partition found' end if app0 == nil || app1 == nil raise "internal_error", "Unable to find partitions app0 and app1" end if p.ota_max() != 1 raise "internal_error", "There are more than 2 OTA partition, abort" end var app0_size_kb = ((app0.size / 1024 + 63) / 64) * 64 # rounded to upper 64kb var app0_used_kb = (((app0.get_image_size()) / 1024 / 64) + 1) * 64 var app1_size_kb = ((app1.size / 1024 + 63) / 64) * 64 # rounded to upper 64kb var flash_size_kb = tasmota.memory()['flash'] var part0_size_kb = int(webserver.arg("app0")) if part0_size_kb < app0_used_kb || part0_size_kb > self.app_size_max raise "value_error", string.printf("Invalid partition size app%i %i KB, should be between %i and %i", 0, part0_size_kb, app0_used_kb, self.app_size_max) end var part1_size_kb = int(webserver.arg("app1")) if part1_size_kb < self.app_size_min || part1_size_kb > self.app_size_max raise "value_error", string.printf("Invalid partition size app%i %i KB, should be between %i and %i", 1, part1_size_kb, self.app_size_min, self.app_size_max) end if part0_size_kb == app0_size_kb && part1_size_kb == app1_size_kb raise "value_error", "No change to partition sizes, abort" end #- all good, proceed -# # resize app0 app0.size = part0_size_kb * 1024 # change app1 app1.start = app0.start + app0.size app1.size = part1_size_kb * 1024 # change spiffs spiffs.start = app1.start + app1.size spiffs.size = flash_size_kb * 1024 - spiffs.start p.save() p.invalidate_spiffs() # erase SPIFFS or data is corrupt #- and force restart -# webserver.redirect("/?rst=") #---------------------------------------------------------------------# else raise "value_error", "Unknown command" end except .. as e, m print(string.format("BRY: Exception> '%s' - %s", e, m)) #- display error page -# webserver.content_start("Parameter error") #- title of the web page -# webserver.content_send_style() #- send standard Tasmota styles -# webserver.content_send(string.format("

Exception:
'%s'
%s

", e, m)) # webserver.content_send("

") webserver.content_button(webserver.BUTTON_MANAGEMENT) #- button back to management page -# webserver.content_stop() #- end of web page -# end end #- ---------------------------------------------------------------------- -# # respond to web_add_handler() event to register web listeners #- ---------------------------------------------------------------------- -# #- this is called at Tasmota start-up, as soon as Wifi/Eth is up and web server running -# def web_add_handler() import webserver #- we need to register a closure, not just a function, that captures the current instance -# webserver.on("/part_mgr", / -> self.page_part_mgr(), webserver.HTTP_GET) webserver.on("/part_mgr", / -> self.page_part_ctl(), webserver.HTTP_POST) end end partition.Partition_manager_UI = Partition_manager_UI #- create and register driver in Tasmota -# if tasmota import partition_core var partition_manager_ui = partition.Partition_manager_UI() tasmota.add_driver(partition_manager_ui) ## can be removed if put in 'autoexec.bat' partition_manager_ui.web_add_handler() end return partition #- Example import partition # read p = partition.Partition() print(p) -#