esp8266: Add Python modules for initial configuration.
Main entry point is _boot.py which checks whether FAT FS in flash mountable,
and if so, mounts it. Otherwise, it checks if flash is empty, and if so,
performs initial module setup: makes FAT FS, configures default AP name,
etc. As a last option, if flash is not empty, and could not be mounted,
it means filesystem corruption, and warning message with instructions is
printed in an infinite loop.
2016-04-11 22:37:04 +01:00
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import esp
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class FlashBdev:
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SEC_SIZE = 4096
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2016-04-17 23:23:04 +01:00
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START_SEC = 0x89000 // SEC_SIZE
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2016-08-06 13:21:49 +01:00
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NUM_BLK = 0x72
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esp8266: Add Python modules for initial configuration.
Main entry point is _boot.py which checks whether FAT FS in flash mountable,
and if so, mounts it. Otherwise, it checks if flash is empty, and if so,
performs initial module setup: makes FAT FS, configures default AP name,
etc. As a last option, if flash is not empty, and could not be mounted,
it means filesystem corruption, and warning message with instructions is
printed in an infinite loop.
2016-04-11 22:37:04 +01:00
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def __init__(self, blocks=NUM_BLK):
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self.blocks = blocks
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def readblocks(self, n, buf):
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2016-04-19 22:35:46 +01:00
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#print("readblocks(%s, %x(%d))" % (n, id(buf), len(buf)))
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esp8266: Add Python modules for initial configuration.
Main entry point is _boot.py which checks whether FAT FS in flash mountable,
and if so, mounts it. Otherwise, it checks if flash is empty, and if so,
performs initial module setup: makes FAT FS, configures default AP name,
etc. As a last option, if flash is not empty, and could not be mounted,
it means filesystem corruption, and warning message with instructions is
printed in an infinite loop.
2016-04-11 22:37:04 +01:00
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esp.flash_read((n + self.START_SEC) * self.SEC_SIZE, buf)
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def writeblocks(self, n, buf):
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2016-04-19 22:35:46 +01:00
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#print("writeblocks(%s, %x(%d))" % (n, id(buf), len(buf)))
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#assert len(buf) <= self.SEC_SIZE, len(buf)
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esp8266: Add Python modules for initial configuration.
Main entry point is _boot.py which checks whether FAT FS in flash mountable,
and if so, mounts it. Otherwise, it checks if flash is empty, and if so,
performs initial module setup: makes FAT FS, configures default AP name,
etc. As a last option, if flash is not empty, and could not be mounted,
it means filesystem corruption, and warning message with instructions is
printed in an infinite loop.
2016-04-11 22:37:04 +01:00
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esp.flash_erase(n + self.START_SEC)
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esp.flash_write((n + self.START_SEC) * self.SEC_SIZE, buf)
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def ioctl(self, op, arg):
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2016-04-19 22:35:46 +01:00
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#print("ioctl(%d, %r)" % (op, arg))
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esp8266: Add Python modules for initial configuration.
Main entry point is _boot.py which checks whether FAT FS in flash mountable,
and if so, mounts it. Otherwise, it checks if flash is empty, and if so,
performs initial module setup: makes FAT FS, configures default AP name,
etc. As a last option, if flash is not empty, and could not be mounted,
it means filesystem corruption, and warning message with instructions is
printed in an infinite loop.
2016-04-11 22:37:04 +01:00
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if op == 4: # BP_IOCTL_SEC_COUNT
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return self.blocks
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if op == 5: # BP_IOCTL_SEC_SIZE
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return self.SEC_SIZE
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2016-04-20 11:48:33 +01:00
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def set_bl_flash_size(real_size):
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if real_size == 256*1024:
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code = 1
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elif real_size == 512*1024:
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code = 0
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elif real_size == 1024*1024:
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code = 2
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elif real_size == 2048*1024:
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code = 3
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elif real_size == 4096*1024:
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code = 4
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else:
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code = 2
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buf = bytearray(4096)
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esp.flash_read(0, buf)
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buf[3] = (buf[3] & 0xf) | (code << 4)
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esp.flash_erase(0)
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esp.flash_write(0, buf)
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# If bootloader size ID doesn't correspond to real Flash size,
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# fix bootloader value and reboot.
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size = esp.flash_id() >> 16
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# Check that it looks like realistic power of 2 for flash sizes
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# commonly used with esp8266
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if 22 >= size >= 18:
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size = 1 << size
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if size != esp.flash_size():
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import machine
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import time
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print("Bootloader Flash size appear to have been set incorrectly, trying to fix")
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set_bl_flash_size(size)
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machine.reset()
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while 1: time.sleep(1)
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2016-04-25 23:36:32 +01:00
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size = esp.flash_size()
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if size < 1024*1024:
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2016-04-18 15:14:00 +01:00
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bdev = None
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else:
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2016-08-06 13:21:49 +01:00
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# 20K at the flash end is reserved for SDK params storage
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bdev = FlashBdev((size - 20480) // FlashBdev.SEC_SIZE - FlashBdev.START_SEC)
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