HackRF-Treasure-Chest/Software/portapack-mayhem/hackrf/firmware/tools/dump_cgu.py
2022-09-22 09:26:57 -07:00

383 lines
6.7 KiB
Python

#!/usr/bin/env python
# Copyright 2013 Jared Boone
#
# Display the LPC43xx Clock Generation Unit (CGU) registers in an
# easy-to-read format.
#
# This file is part of HackRF.
#
# 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 2, 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; see the file COPYING. If not, write to
# the Free Software Foundation, Inc., 51 Franklin Street,
# Boston, MA 02110-1301, USA.
"""
In GDB:
dump binary memory cgu.bin 0x40050014 0x400500cc
"""
import sys
from struct import unpack
address = 0x40050014
f = open(sys.argv[1], 'read')
d = '\x00' * 20 + f.read()
length = len(d)
f.close()
def print_data(d):
for i in range(0, length, 16):
values = unpack('<IIII', d[i:i+16])
values = ['%08x' % v for v in values]
values_str = ' '.join(values)
line = '%08x: %s' % (address + i, values_str)
print(line)
#print_data(d)
#sys.exit(0)
data = {}
for i in range(0, length, 4):
data[i] = unpack('<I', d[i:i+4])[0]
registers = {
0x14: {
'name': 'FREQ_MON',
'fields': (
('RCNT', 0, 9),
('FCNT', 9, 14),
('MEAS', 23, 1),
('CLK_SEL', 24, 5),
),
},
0x18: {
'name': 'XTAL_OSC_CONTROL',
'fields': (
('ENABLE', 0, 1),
('BYPASS', 1, 1),
('HF', 2, 1)
),
},
0x1c: {
'name': 'PLL0USB_STAT',
'fields': (
('LOCK', 0, 1),
('FR', 1, 1),
),
},
0x20: {
'name': 'PLL0USB_CTRL',
'fields': (
('PD', 0, 1),
('BYPASS', 1, 1),
('DIRECTI', 2, 1),
('DIRECTO', 3, 1),
('CLKEN', 4, 1),
('FRM', 6, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x24: {
'name': 'PLL0USB_MDIV',
'fields': (
('MDEC', 0, 17),
('SELP', 17, 5),
('SELI', 22, 6),
('SELR', 28, 4),
),
},
0x28: {
'name': 'PLL0USB_NP_DIV',
'fields': (
('PDEC', 0, 7),
('NDEC', 12, 10),
),
},
0x40: {
'name': 'PLL1_STAT',
'fields': (
('LOCK', 0, 1),
),
},
0x44: {
'name': 'PLL1_CTRL',
'fields': (
('PD', 0, 1),
('BYPASS', 1, 1),
('FBSEL', 6, 1),
('DIRECT', 7, 1),
('PSEL', 8, 2),
('AUTOBLOCK', 11, 1),
('NSEL', 12, 2),
('MSEL', 16, 8),
('CLK_SEL', 24, 5),
),
},
0x48: {
'name': 'IDIVA_CTRL',
'fields': (
('PD', 0, 1),
('IDIV', 2, 2),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x4C: {
'name': 'IDIVB_CTRL',
'fields': (
('PD', 0, 1),
('IDIV', 2, 4),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x50: {
'name': 'IDIVC_CTRL',
'fields': (
('PD', 0, 1),
('IDIV', 2, 4),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x54: {
'name': 'IDIVD_CTRL',
'fields': (
('PD', 0, 1),
('IDIV', 2, 4),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x58: {
'name': 'IDIVE_CTRL',
'fields': (
('PD', 0, 1),
('IDIV', 2, 8),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x5C: {
'name': 'BASE_SAFE_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x60: {
'name': 'BASE_USB0_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x64: {
'name': 'BASE_PERIPH_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x68: {
'name': 'BASE_USB1_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x6C: {
'name': 'BASE_M4_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x70: {
'name': 'BASE_SPIFI_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x74: {
'name': 'BASE_SPI_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x78: {
'name': 'BASE_PHY_RX_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x7C: {
'name': 'BASE_PHY_TX_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x80: {
'name': 'BASE_APB1_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x84: {
'name': 'BASE_APB3_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x88: {
'name': 'BASE_LCD_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x8C: {
'name': 'BASE_VADC_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x90: {
'name': 'BASE_SDIO_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x94: {
'name': 'BASE_SSP0_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x98: {
'name': 'BASE_SSP1_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0x9C: {
'name': 'BASE_UART0_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0xA0: {
'name': 'BASE_UART1_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0xA4: {
'name': 'BASE_UART2_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0xA8: {
'name': 'BASE_UART3_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0xAC: {
'name': 'BASE_OUT_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0xC0: {
'name': 'BASE_APLL_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0xC4: {
'name': 'BASE_CGU_OUT0_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
0xC8: {
'name': 'BASE_CGU_OUT1_CLK',
'fields': (
('PD', 0, 1),
('AUTOBLOCK', 11, 1),
('CLK_SEL', 24, 5),
),
},
# TODO: Add other CGU registers. I did the ones that were
# valuable to me to debug CPU clock issues.
}
for address in sorted(registers):
register = registers[address]
name = register['name']
fields = register['fields']
value = data[address]
bits = bin(value)[2:].zfill(32)
print('%03x %20s %s = %08x' % (address, name, bits, value))
for field in fields:
name, low_bit, count = field
field_value = (value >> low_bit) & ((1 << count) - 1)
field_bits = bin(field_value)[2:].zfill(count) + ' ' * low_bit
field_bits = field_bits.rjust(32)
print('%03s %20s %s = %8x %s' % ('', '', field_bits, field_value, name))