forked from micropython/micropython
-
Notifications
You must be signed in to change notification settings - Fork 5
Commit
This commit does not belong to any branch on this repository, and may belong to a fork outside of the repository.
stm32/make-af-csv: Add tool to generate af csv files.
Uses official online source: github/STM32_open_pin_data. Signed-off-by: Andrew Leech <[email protected]>
- Loading branch information
1 parent
958c6d9
commit de89ced
Showing
1 changed file
with
275 additions
and
0 deletions.
There are no files selected for viewing
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
Original file line number | Diff line number | Diff line change |
---|---|---|
@@ -0,0 +1,275 @@ | ||
#!/usr/bin/env python | ||
""" | ||
Generates MCU alternate-function (AF) definition files for stm32 parts | ||
using the official sources from: | ||
https://github.com/STMicroelectronics/STM32_open_pin_data | ||
Usage: | ||
$ python3 make-af-csv.py <mcu_name> | ||
Example: | ||
$ python3 make-af-csv.py stm32wb55 | ||
""" | ||
import json | ||
import re | ||
import sys | ||
import urllib.request | ||
import xml.etree.ElementTree as ET | ||
from collections import defaultdict | ||
from io import BytesIO | ||
from pathlib import Path | ||
|
||
|
||
# https://docs.github.com/en/rest/git/trees?apiVersion=2022-11-28#get-a-tree | ||
# Note this API has a limit of 60 (unauthenticated) requests per hour. | ||
repo_url = "https://api.github.com/repos/STMicroelectronics/STM32_open_pin_data/git/trees/" | ||
|
||
# Raw xml files can be downloaded here | ||
xml_url = "https://raw.githubusercontent.com/STMicroelectronics/STM32_open_pin_data/master/mcu/" | ||
|
||
|
||
mcu_list_all = None | ||
|
||
|
||
def generate_af_csv(target: str) -> None: | ||
""" | ||
Generates an AF CSV file based on the given target. | ||
Parameters: | ||
- target (str): The mcu to generate the AF CSV for. | ||
""" | ||
global mcu_list_all | ||
|
||
print("Generating AF file for:", target) | ||
cpu = target.rstrip("x").upper() | ||
|
||
if mcu_list_all is None: | ||
with urllib.request.urlopen(repo_url + "master") as response: | ||
repo_list_all = json.load(response)["tree"] | ||
mcu_list_url = [entry for entry in repo_list_all if entry["path"] == "mcu"][0]["url"] | ||
with urllib.request.urlopen(mcu_list_url + "?recursive=1") as response: | ||
mcu_list_all = json.load(response)["tree"] | ||
|
||
# Get list of all mcu files matching the target | ||
mcu_list = [mcu for mcu in mcu_list_all if mcu.get("path").upper().startswith(cpu)] | ||
if not mcu_list: | ||
raise SystemExit('ERROR: Could not find mcu "{}" on: \n{}'.format(cpu, mcu_list_url)) | ||
|
||
# Check the mcu definition files for one of the matching mcus, | ||
# pick largest to include all possible pins. | ||
gpio_file_url = None | ||
mcu_xml_len = 0 | ||
mcu_url = None | ||
for mcu in mcu_list: | ||
mcu_xml_url = xml_url + mcu["path"] | ||
with urllib.request.urlopen(mcu_xml_url) as response: | ||
length = int(response.headers["content-length"]) | ||
if length > mcu_xml_len: | ||
mcu_xml_len = length | ||
mcu_url = mcu_xml_url | ||
|
||
with urllib.request.urlopen(mcu_url) as response: | ||
mcuxmlstr = response.read() | ||
print("Downloaded:", mcu_url) | ||
|
||
# The STM xml files have a dummy namespace declared which confuses ElementTree. | ||
# This wrapper iter removes them. | ||
it = ET.iterparse(BytesIO(mcuxmlstr)) | ||
for _, el in it: | ||
_, _, el.tag = el.tag.rpartition("}") # strip ns | ||
root = it.root | ||
|
||
# This mcu definition file declares which pins have ADC pins. Gather them now. | ||
adc_pins = dict() | ||
for pin in root.findall("./Pin"): | ||
for sig in pin.findall("./Signal"): | ||
sig_name = sig.get("Name") | ||
if sig_name.startswith("ADC") and "_IN" in sig_name: | ||
# On some parts they omit the 1 on the first ADC peripheral | ||
sig_name = sig_name.replace("ADC_", "ADC1_") | ||
index, channel = sig_name.split("_") | ||
pname = pin_name(pin.get("Name")) | ||
dual_pin = pin.get("Name").endswith("_C") | ||
ptype = "C_ADC" if dual_pin else "ADC" | ||
tc = (ptype, channel) | ||
# Keep just the ADC index and IN channel. | ||
n_index = re.search("\d+", index)[0] | ||
if pname in adc_pins: | ||
if tc not in adc_pins[pname]: | ||
adc_pins[pname][tc] = n_index | ||
else: | ||
# Merge ADC unit together, eg ADC1 and ADC3 becomes ADC13 | ||
adc_pins[pname][tc] = "".join(sorted(adc_pins[pname][tc] + n_index)) | ||
else: | ||
adc_pins[pname] = {tc: n_index} | ||
|
||
# The mcu definition xml file includes a reference to the GPIO definition file | ||
# matching the chip. This is the file with AF data. | ||
for detail in root.findall("./IP[@Name='GPIO']"): | ||
gpio_file = [ | ||
gpio | ||
for gpio in mcu_list_all | ||
if gpio["path"].startswith("IP/GPIO") and detail.get("Version") in gpio["path"] | ||
][0] | ||
gpio_file_url = xml_url + gpio_file["path"] | ||
break | ||
|
||
if gpio_file_url is None: | ||
raise SystemError("ERROR: Could not find GPIO details in {}".format(mcu_xml_url)) | ||
|
||
with urllib.request.urlopen(gpio_file_url) as response: | ||
xml_data = response.read() | ||
|
||
print("Downloaded:", gpio_file_url) | ||
|
||
# Parse all the alternate function mappings from the xml file. | ||
it = ET.iterparse(BytesIO(xml_data)) | ||
for _, el in it: | ||
_, _, el.tag = el.tag.rpartition("}") | ||
root = it.root | ||
|
||
af_domains = set() | ||
|
||
mapping = defaultdict(list) | ||
for pin in root.findall("./GPIO_Pin"): | ||
pname = pin_name(pin.get("Name")) | ||
if pname is None: | ||
continue | ||
_ = mapping[pname] # Ensure pin gets captured / listed | ||
for pin_signal in pin.findall("./PinSignal"): | ||
for specific_param in pin_signal.findall("SpecificParameter"): | ||
if specific_param.get("Name") != "GPIO_AF": | ||
continue | ||
signal_name = pin_signal.get("Name") | ||
af_fn = specific_param.find("./PossibleValue").text | ||
mapping[pname].append((signal_name, af_fn)) | ||
af_domains.add(af_fn.split("_")[1]) | ||
|
||
# Note: "AF0" though "AF15" are somewhat standard across STM range, | ||
# however not all chips use all domains. List them all for consistency however. | ||
af_domains = ["AF%s" % i for i in range(16)] + ["ADC"] | ||
|
||
# Format the AF data into appropriate CSV file. | ||
# First row in CSV is the heading, going through all the AF domains | ||
heading = ["Port", "Pin"] + af_domains | ||
col_width = [4] * len(heading) | ||
# Second csv row lists the peripherals handled by that column | ||
category_parts = [defaultdict(set) for _ in range(len(heading))] | ||
# Third row onwards are the individual pin function mappings | ||
rows = [] | ||
for pin in sorted(mapping, key=pin_int): | ||
functions = mapping[pin] | ||
row = [""] * len(heading) | ||
row[0] = "Port%s" % pin[1] | ||
row[1] = pin | ||
for signal, af in functions: | ||
# Some signals are loose about whether 1 is declared or not. | ||
signal = signal.replace("CAN_", "CAN1_") | ||
signal = signal.replace("I2S_", "I2S1_") | ||
# / is used later to delineate multiple functions | ||
signal = signal.replace("/", "_") | ||
|
||
if signal.startswith("ETH"): | ||
signal = eth_remap(signal) | ||
|
||
column = heading.index(re.search("(AF\d+)", af).group(1)) | ||
peripheral = re.search("([A-Z1-9]*[A-Z]+)(\d*)(_|$)", signal) | ||
category_parts[column][peripheral[1]].add(peripheral[2]) | ||
signal = signal.replace("SYS_", "") | ||
signal = signal.replace("-", "/") | ||
if row[column]: | ||
if signal not in row[column].split("/"): | ||
# multiple af signals per pin | ||
row[column] = "/".join((row[column], signal)) | ||
else: | ||
row[column] = signal | ||
|
||
if pin in adc_pins: | ||
row[-1] = "/".join( | ||
("{}{}_{}".format(pt, i, ch) for (pt, ch), i in adc_pins[pin].items()) | ||
) | ||
|
||
for i, val in enumerate(row): | ||
col_width[i] = max(col_width[i], len(val)) | ||
|
||
rows.append(row) | ||
|
||
# Simplify the category sets, eg TIM1/TIM2 -> TIM1/2 | ||
category_head = ["" for _ in range(len(heading))] | ||
for i, periph in enumerate(category_parts): | ||
periphs = [] | ||
for key, vals in periph.items(): | ||
if len(vals) > 1: | ||
if "" in vals: | ||
vals.remove("") | ||
vals.add("1") | ||
periphs.append(key + "/".join(sorted(vals, key=int))) | ||
else: | ||
periphs.append(key + vals.pop()) | ||
|
||
category_head[i] = "/".join(sorted(periphs)) | ||
col_width[i] = max(col_width[i], len(category_head[i])) | ||
category_head[-1] = "ADC" | ||
|
||
# Sort the rows by the first two columns; port and pin number | ||
rows.sort(key=lambda row: (row[0], pin_int(row[1]))) | ||
|
||
output_file = Path(__file__).parent / ("%s_af.csv" % target.lower()) | ||
with output_file.open("w") as out: | ||
print("# This was auto-generated by make-af.csv.py", file=out) | ||
padded_heading = [val.ljust(col_width[i]) for i, val in enumerate(heading)] | ||
print(",".join(padded_heading).strip(), file=out) | ||
categories = [val.ljust(col_width[i]) for i, val in enumerate(category_head)] | ||
print(",".join(categories).strip(), file=out) | ||
for row in rows: | ||
padded_row = [val.ljust(col_width[i]) for i, val in enumerate(row)] | ||
print(",".join(padded_row).strip(), file=out) | ||
|
||
print("Written:", output_file.resolve()) | ||
|
||
|
||
def pin_int(pname: str): | ||
# Takes a Pin (or AF) name like PA5, PD15 or AF4 and returns the integer component | ||
return int(re.search("[PA][A-Z](\d+)", pname).group(1)) | ||
|
||
|
||
def pin_name(pin: str): | ||
# Filters out just the pin name, eg PB12 from provided pin string | ||
return (re.search("P[A-Z]\d+", pin) or [None])[0] | ||
|
||
|
||
def eth_remap(signal): | ||
# The AF signal names in stm xml's generally match the names used in datasheets, | ||
# except for ethernet RMII / MII ones... | ||
# This mapping was generated from comparing xml data to datasheet on STM32H573 | ||
eth_signals = { | ||
"ETH_MDC": "ETH_MDC", | ||
"ETH_MDIO": "ETH_MDIO", | ||
"ETH_PPS_OUT": "ETH_PPS_OUT", | ||
"ETH_CRS": "ETH_MII_CRS", | ||
"ETH_COL": "ETH_MII_COL", | ||
"ETH_TX_ER": "ETH_MII_TX_ER", | ||
"ETH_RXD2": "ETH_MII_RXD2", | ||
"ETH_RXD3": "ETH_MII_RXD3", | ||
"ETH_TXD3": "ETH_MII_TXD3", | ||
"ETH_RX_ER": "ETH_MII_RX_ER", | ||
"ETH_TXD2": "ETH_MII_TXD2", | ||
"ETH_TX_CLK": "ETH_MII_TX_CLK", | ||
"ETH_RX_CLK": "ETH_MII_RX_CLK", | ||
"ETH_RX_DV": "ETH_MII_RX_DV", | ||
"ETH_REF_CLK": "ETH_RMII_REF_CLK", | ||
"ETH_CRS_DV": "ETH_RMII_CRS_DV", | ||
"ETH_TX_EN": "ETH_MII_TX_EN/ETH_RMII_TX_EN", | ||
"ETH_TXD0": "ETH_MII_TXD0/ETH_RMII_TXD0", | ||
"ETH_TXD1": "ETH_MII_TXD1/ETH_RMII_TXD1", | ||
"ETH_RXD0": "ETH_MII_RXD0/ETH_RMII_RXD0", | ||
"ETH_RXD1": "ETH_MII_RXD1/ETH_RMII_RXD1", | ||
} | ||
return eth_signals.get(signal, signal) | ||
|
||
|
||
if __name__ == "__main__": | ||
for target in sys.argv[1:]: | ||
generate_af_csv(target) |