rockbox/utils/nwztools/database/gen_db.py

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nwztools/database: add database of information on Sony NWZ linux players There must be an evil genius in Sony's Walkman division. Someone who made sure that each model is close enough to the previous one so that little code is needed but different enough so that an educated guess is not enough. Each linux-based Sony player has a model ID (mid) which is a 32-bit integer. I was able to extract a list of all model IDs and the correspoding name of the player (see README). This gives us 1) a nice list of all players (because NWZ-A729 vs NWZ-A729B, really Sony?) 2) an easy way to find the name of player programatically. It seems that the lower 8-bit of the model ID gives the storage size but don't bet your life on it. The remaining bytes seem to follow some kind of pattern but there are exceptions. From this list, I was able to build a list of all Sony's series (up to quite recent one). The only safe way to build that is by hand, with a list of series, each series having a list of model IDs. The notion of series is very important because all models in a series share the same firmware. A very important concept on Sony's players is the NVP, an area of the flash that stores data associated with keys. The README contains more information but basically this is where is record the model ID, the destination, the boot flags, the firmware upgrade flags, the boot image, the DRM keys, and a lot of other stuff. Of course Sony decided to slightly tweak the index of the keys regularly over time which means that each series has a potentially different map, and we need this map to talk to the NVP driver. Fortunately, Sony distributes the kernel for all its players and they contain a kernel header with this information. I wrote a script to unpack kernel sources and parse this header, producing a bunch of nw-*.txt files, included in this commit. This map is very specific though: it maps Sony's 3-letter names (bti) to indexes (1). This is not very useful without the decription (bti = boot image) and its size (262144). This information is harder to come by, and is only stored in one place: if icx_nvp_emmc.ko drivers, found on the device. Fortunately, Sony distributes a number of firmware upgrade, that contain the rootfs, than once extracted contain this driver. The driver is a standard ELF files with symbols. I wrote a parsing tool (nvptool) that is able to extract this information from the drivers. Using that, I produced a bunch of nodes-nw*.txt files. A reasonable assumption is that nodes meaning and size do not change over time (bti is always the boot image and is always 262144 bytes), so by merging a few of those file, we can get a complete picture (note that some nodes that existed in older player do not exists anymore so we really need to merge several ones from different generations). The advantage of storing all this information in plain text files, is that it now makes it easy to parse it and produce whatever format we want to use it. I wrote a python script that parses all this mess and produces a C file and header with all this information (nwz_db.{c,h}). Change-Id: Id790581ddd527d64418fe9e4e4df8e0546117b80
2016-11-11 14:40:56 +00:00
#!/usr/bin/python3
import glob
import os
import re
import subprocess
# parse models.txt
g_models = []
with open('models.txt') as fp:
for line in fp:
# we unpack and repack 1) to make the format obvious 2) to catch errors
mid,name = line.rstrip().split(",")
g_models.append({'mid': int(mid, 0), 'name': name})
# parse series.txt
g_series = []
g_series_codename = set()
nwztools/database: add database of information on Sony NWZ linux players There must be an evil genius in Sony's Walkman division. Someone who made sure that each model is close enough to the previous one so that little code is needed but different enough so that an educated guess is not enough. Each linux-based Sony player has a model ID (mid) which is a 32-bit integer. I was able to extract a list of all model IDs and the correspoding name of the player (see README). This gives us 1) a nice list of all players (because NWZ-A729 vs NWZ-A729B, really Sony?) 2) an easy way to find the name of player programatically. It seems that the lower 8-bit of the model ID gives the storage size but don't bet your life on it. The remaining bytes seem to follow some kind of pattern but there are exceptions. From this list, I was able to build a list of all Sony's series (up to quite recent one). The only safe way to build that is by hand, with a list of series, each series having a list of model IDs. The notion of series is very important because all models in a series share the same firmware. A very important concept on Sony's players is the NVP, an area of the flash that stores data associated with keys. The README contains more information but basically this is where is record the model ID, the destination, the boot flags, the firmware upgrade flags, the boot image, the DRM keys, and a lot of other stuff. Of course Sony decided to slightly tweak the index of the keys regularly over time which means that each series has a potentially different map, and we need this map to talk to the NVP driver. Fortunately, Sony distributes the kernel for all its players and they contain a kernel header with this information. I wrote a script to unpack kernel sources and parse this header, producing a bunch of nw-*.txt files, included in this commit. This map is very specific though: it maps Sony's 3-letter names (bti) to indexes (1). This is not very useful without the decription (bti = boot image) and its size (262144). This information is harder to come by, and is only stored in one place: if icx_nvp_emmc.ko drivers, found on the device. Fortunately, Sony distributes a number of firmware upgrade, that contain the rootfs, than once extracted contain this driver. The driver is a standard ELF files with symbols. I wrote a parsing tool (nvptool) that is able to extract this information from the drivers. Using that, I produced a bunch of nodes-nw*.txt files. A reasonable assumption is that nodes meaning and size do not change over time (bti is always the boot image and is always 262144 bytes), so by merging a few of those file, we can get a complete picture (note that some nodes that existed in older player do not exists anymore so we really need to merge several ones from different generations). The advantage of storing all this information in plain text files, is that it now makes it easy to parse it and produce whatever format we want to use it. I wrote a python script that parses all this mess and produces a C file and header with all this information (nwz_db.{c,h}). Change-Id: Id790581ddd527d64418fe9e4e4df8e0546117b80
2016-11-11 14:40:56 +00:00
with open('series.txt') as fp:
for line in fp:
# we unpack and repack 1) to make the format obvious 2) to catch errors
arr = line.rstrip().split(",")
codename = arr[0]
name = arr[1]
models = arr[2:]
# handle empty list
if len(models) == 1 and models[0] == "":
models = []
models = [int(mid,0) for mid in models]
g_series.append({'codename': codename, 'name': name, 'models': models})
g_series_codename.add(codename)
nwztools/database: add database of information on Sony NWZ linux players There must be an evil genius in Sony's Walkman division. Someone who made sure that each model is close enough to the previous one so that little code is needed but different enough so that an educated guess is not enough. Each linux-based Sony player has a model ID (mid) which is a 32-bit integer. I was able to extract a list of all model IDs and the correspoding name of the player (see README). This gives us 1) a nice list of all players (because NWZ-A729 vs NWZ-A729B, really Sony?) 2) an easy way to find the name of player programatically. It seems that the lower 8-bit of the model ID gives the storage size but don't bet your life on it. The remaining bytes seem to follow some kind of pattern but there are exceptions. From this list, I was able to build a list of all Sony's series (up to quite recent one). The only safe way to build that is by hand, with a list of series, each series having a list of model IDs. The notion of series is very important because all models in a series share the same firmware. A very important concept on Sony's players is the NVP, an area of the flash that stores data associated with keys. The README contains more information but basically this is where is record the model ID, the destination, the boot flags, the firmware upgrade flags, the boot image, the DRM keys, and a lot of other stuff. Of course Sony decided to slightly tweak the index of the keys regularly over time which means that each series has a potentially different map, and we need this map to talk to the NVP driver. Fortunately, Sony distributes the kernel for all its players and they contain a kernel header with this information. I wrote a script to unpack kernel sources and parse this header, producing a bunch of nw-*.txt files, included in this commit. This map is very specific though: it maps Sony's 3-letter names (bti) to indexes (1). This is not very useful without the decription (bti = boot image) and its size (262144). This information is harder to come by, and is only stored in one place: if icx_nvp_emmc.ko drivers, found on the device. Fortunately, Sony distributes a number of firmware upgrade, that contain the rootfs, than once extracted contain this driver. The driver is a standard ELF files with symbols. I wrote a parsing tool (nvptool) that is able to extract this information from the drivers. Using that, I produced a bunch of nodes-nw*.txt files. A reasonable assumption is that nodes meaning and size do not change over time (bti is always the boot image and is always 262144 bytes), so by merging a few of those file, we can get a complete picture (note that some nodes that existed in older player do not exists anymore so we really need to merge several ones from different generations). The advantage of storing all this information in plain text files, is that it now makes it easy to parse it and produce whatever format we want to use it. I wrote a python script that parses all this mess and produces a C file and header with all this information (nwz_db.{c,h}). Change-Id: Id790581ddd527d64418fe9e4e4df8e0546117b80
2016-11-11 14:40:56 +00:00
# parse all maps in nvp/
# since most nvps are the same, what we actually do is to compute the md5sum hash
# of all files, to identify groups and then each entry in the name is in fact the
# hash, and we only parse one file per hash group
g_hash_nvp = dict() # hash -> nvp
g_nvp_hash = dict() # codename -> hash
HASH_SIZE=6
map_files = glob.glob('nvp/nw*.txt')
for line in subprocess.run(["md5sum"] + map_files, stdout = subprocess.PIPE).stdout.decode("utf-8").split("\n"):
if len(line.rstrip()) == 0:
continue
hash, file = line.rstrip().split()
codename = re.search('nvp/(.*)\.txt', file).group(1)
# sanity check
if not (codename in g_series_codename):
print("Warning: file %s does not have a match series in series.txt" % file)
nwztools/database: add database of information on Sony NWZ linux players There must be an evil genius in Sony's Walkman division. Someone who made sure that each model is close enough to the previous one so that little code is needed but different enough so that an educated guess is not enough. Each linux-based Sony player has a model ID (mid) which is a 32-bit integer. I was able to extract a list of all model IDs and the correspoding name of the player (see README). This gives us 1) a nice list of all players (because NWZ-A729 vs NWZ-A729B, really Sony?) 2) an easy way to find the name of player programatically. It seems that the lower 8-bit of the model ID gives the storage size but don't bet your life on it. The remaining bytes seem to follow some kind of pattern but there are exceptions. From this list, I was able to build a list of all Sony's series (up to quite recent one). The only safe way to build that is by hand, with a list of series, each series having a list of model IDs. The notion of series is very important because all models in a series share the same firmware. A very important concept on Sony's players is the NVP, an area of the flash that stores data associated with keys. The README contains more information but basically this is where is record the model ID, the destination, the boot flags, the firmware upgrade flags, the boot image, the DRM keys, and a lot of other stuff. Of course Sony decided to slightly tweak the index of the keys regularly over time which means that each series has a potentially different map, and we need this map to talk to the NVP driver. Fortunately, Sony distributes the kernel for all its players and they contain a kernel header with this information. I wrote a script to unpack kernel sources and parse this header, producing a bunch of nw-*.txt files, included in this commit. This map is very specific though: it maps Sony's 3-letter names (bti) to indexes (1). This is not very useful without the decription (bti = boot image) and its size (262144). This information is harder to come by, and is only stored in one place: if icx_nvp_emmc.ko drivers, found on the device. Fortunately, Sony distributes a number of firmware upgrade, that contain the rootfs, than once extracted contain this driver. The driver is a standard ELF files with symbols. I wrote a parsing tool (nvptool) that is able to extract this information from the drivers. Using that, I produced a bunch of nodes-nw*.txt files. A reasonable assumption is that nodes meaning and size do not change over time (bti is always the boot image and is always 262144 bytes), so by merging a few of those file, we can get a complete picture (note that some nodes that existed in older player do not exists anymore so we really need to merge several ones from different generations). The advantage of storing all this information in plain text files, is that it now makes it easy to parse it and produce whatever format we want to use it. I wrote a python script that parses all this mess and produces a C file and header with all this information (nwz_db.{c,h}). Change-Id: Id790581ddd527d64418fe9e4e4df8e0546117b80
2016-11-11 14:40:56 +00:00
hash = hash[:HASH_SIZE]
# only keep one file
if not (hash in g_hash_nvp):
g_hash_nvp[hash] = set()
g_hash_nvp[hash].add(codename);
g_nvp_hash[codename] = hash
# we have some file nodes (nodes-*) but not necessarily for all series
# so for each hash group, try to find at least one
for hash in g_hash_nvp:
# look at all codename and see if we can find one with a node file
node_codename = ""
for codename in g_hash_nvp[hash]:
if os.path.isfile("nvp/nodes-%s.txt" % codename):
node_codename = codename
break
# if we didn't find one, we just keep the first one
# otherwise keep the one we found
if node_codename == "":
node_codename = g_hash_nvp[hash].pop()
g_hash_nvp[hash] = node_codename
# for each entry in g_hash_nvp, replace the file name by the actual table
# that we parse, and compute all nvp names at the same time
g_nvp_names = set() # set of all nvp names
g_nvp_desc = dict() # name -> set of all description of a node
g_nvp_size = dict() # name -> set of all possible sizes of a node
for hash in g_hash_nvp:
codename = g_hash_nvp[hash]
# extract codename from file
# parse file
map = dict()
with open("nvp/%s.txt" % codename) as fp:
for line in fp:
# we unpack and repack 1) to make the format obvious 2) to catch errors
name,index = line.rstrip().split(",")
# convert node to integer but be careful of leading 0 (ie 010 is actually
# 10 in decimal, it is not in octal)
index = int(index, 10)
map[index] = name
g_nvp_names.add(name)
# parse node map if any
node_map = dict()
if os.path.isfile("nvp/nodes-%s.txt" % codename):
with open("nvp/nodes-%s.txt" % codename) as fp:
for line in fp:
# we unpack and repack 1) to make the format obvious 2) to catch errors
index,size,desc = line.rstrip().split(",")
# convert node to integer but be careful of leading 0 (ie 010 is actually
# 10 in decimal, it is not in octal)
index = int(index, 10)
desc = desc.rstrip()
node_map[index] = {'size': size, 'desc': desc}
# compute final nvp
nvp = dict()
for index in map:
size = 0
desc = ""
name = map[index]
if index in node_map:
size = node_map[index]["size"]
desc = node_map[index]["desc"]
nvp[name] = index
if not (name in g_nvp_desc):
g_nvp_desc[name] = set()
if len(desc) != 0:
g_nvp_desc[name].add(desc)
if not (name in g_nvp_size):
g_nvp_size[name] = set()
if size != 0:
g_nvp_size[name].add(size)
g_hash_nvp[hash] = nvp
#
# generate header
#
header_begin = \
"""\
/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \\
* \/ \/ \/ \/ \/
*
* Copyright (C) 2016 Amaury Pouly
*
* 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
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#ifndef __NWZ_DB_H__
#define __NWZ_DB_H__
/** /!\ This file was automatically generated, DO NOT MODIFY IT DIRECTLY /!\ */
/* List of all known NVP nodes */
enum nwz_nvp_node_t
{
"""
header_end = \
"""\
NWZ_NVP_COUNT /* Number of nvp nodes */
};
/* Invalid NVP index */
#define NWZ_NVP_INVALID -1 /* Non-existent entry */
/* Number of models */
#define NWZ_MODEL_COUNT %s
/* Number of series */
#define NWZ_SERIES_COUNT %s
/* NVP node info */
struct nwz_nvp_info_t
{
const char *name; /* Sony's name: "bti" */
unsigned long size; /* Size in bytes */
const char *desc; /* Description: "bootloader image" */
};
/* NVP index map (nwz_nvp_node_t -> index) */
typedef int nwz_nvp_index_t[NWZ_NVP_COUNT];
/* Model info */
struct nwz_model_info_t
{
unsigned long mid; /* Model ID: first 4 bytes of the NVP mid entry */
const char *name; /* Human name: "NWZ-E463" */
};
/* Series info */
struct nwz_series_info_t
{
const char *codename; /* Rockbox codename: nwz-e460 */
const char *name; /* Human name: "NWZ-E460 Series" */
int mid_count; /* number of entries in mid_list */
unsigned long *mid; /* List of model IDs */
/* Pointer to a name -> index map, nonexistent entries map to NWZ_NVP_INVALID */
nwz_nvp_index_t *nvp_index;
};
/* List of all NVP entries, indexed by nwz_nvp_node_t */
extern struct nwz_nvp_info_t nwz_nvp[NWZ_NVP_COUNT];
/* List of all models, sorted by increasing values of model ID */
extern struct nwz_model_info_t nwz_model[NWZ_MODEL_COUNT];
/* List of all series */
extern struct nwz_series_info_t nwz_series[NWZ_SERIES_COUNT];
#endif /* __NWZ_DB_H__ */
"""
with open("nwz_db.h", "w") as fp:
fp.write(header_begin)
# generate list of all nvp nodes
for name in sorted(g_nvp_names):
# create comment to explain the meaning, gather several meaning together
# if there are more than one (sorted to keep a stable order when we update)
nwztools/database: add database of information on Sony NWZ linux players There must be an evil genius in Sony's Walkman division. Someone who made sure that each model is close enough to the previous one so that little code is needed but different enough so that an educated guess is not enough. Each linux-based Sony player has a model ID (mid) which is a 32-bit integer. I was able to extract a list of all model IDs and the correspoding name of the player (see README). This gives us 1) a nice list of all players (because NWZ-A729 vs NWZ-A729B, really Sony?) 2) an easy way to find the name of player programatically. It seems that the lower 8-bit of the model ID gives the storage size but don't bet your life on it. The remaining bytes seem to follow some kind of pattern but there are exceptions. From this list, I was able to build a list of all Sony's series (up to quite recent one). The only safe way to build that is by hand, with a list of series, each series having a list of model IDs. The notion of series is very important because all models in a series share the same firmware. A very important concept on Sony's players is the NVP, an area of the flash that stores data associated with keys. The README contains more information but basically this is where is record the model ID, the destination, the boot flags, the firmware upgrade flags, the boot image, the DRM keys, and a lot of other stuff. Of course Sony decided to slightly tweak the index of the keys regularly over time which means that each series has a potentially different map, and we need this map to talk to the NVP driver. Fortunately, Sony distributes the kernel for all its players and they contain a kernel header with this information. I wrote a script to unpack kernel sources and parse this header, producing a bunch of nw-*.txt files, included in this commit. This map is very specific though: it maps Sony's 3-letter names (bti) to indexes (1). This is not very useful without the decription (bti = boot image) and its size (262144). This information is harder to come by, and is only stored in one place: if icx_nvp_emmc.ko drivers, found on the device. Fortunately, Sony distributes a number of firmware upgrade, that contain the rootfs, than once extracted contain this driver. The driver is a standard ELF files with symbols. I wrote a parsing tool (nvptool) that is able to extract this information from the drivers. Using that, I produced a bunch of nodes-nw*.txt files. A reasonable assumption is that nodes meaning and size do not change over time (bti is always the boot image and is always 262144 bytes), so by merging a few of those file, we can get a complete picture (note that some nodes that existed in older player do not exists anymore so we really need to merge several ones from different generations). The advantage of storing all this information in plain text files, is that it now makes it easy to parse it and produce whatever format we want to use it. I wrote a python script that parses all this mess and produces a C file and header with all this information (nwz_db.{c,h}). Change-Id: Id790581ddd527d64418fe9e4e4df8e0546117b80
2016-11-11 14:40:56 +00:00
explain = ""
if name in g_nvp_desc:
explain = " | ".join(sorted(list(g_nvp_desc[name])))
nwztools/database: add database of information on Sony NWZ linux players There must be an evil genius in Sony's Walkman division. Someone who made sure that each model is close enough to the previous one so that little code is needed but different enough so that an educated guess is not enough. Each linux-based Sony player has a model ID (mid) which is a 32-bit integer. I was able to extract a list of all model IDs and the correspoding name of the player (see README). This gives us 1) a nice list of all players (because NWZ-A729 vs NWZ-A729B, really Sony?) 2) an easy way to find the name of player programatically. It seems that the lower 8-bit of the model ID gives the storage size but don't bet your life on it. The remaining bytes seem to follow some kind of pattern but there are exceptions. From this list, I was able to build a list of all Sony's series (up to quite recent one). The only safe way to build that is by hand, with a list of series, each series having a list of model IDs. The notion of series is very important because all models in a series share the same firmware. A very important concept on Sony's players is the NVP, an area of the flash that stores data associated with keys. The README contains more information but basically this is where is record the model ID, the destination, the boot flags, the firmware upgrade flags, the boot image, the DRM keys, and a lot of other stuff. Of course Sony decided to slightly tweak the index of the keys regularly over time which means that each series has a potentially different map, and we need this map to talk to the NVP driver. Fortunately, Sony distributes the kernel for all its players and they contain a kernel header with this information. I wrote a script to unpack kernel sources and parse this header, producing a bunch of nw-*.txt files, included in this commit. This map is very specific though: it maps Sony's 3-letter names (bti) to indexes (1). This is not very useful without the decription (bti = boot image) and its size (262144). This information is harder to come by, and is only stored in one place: if icx_nvp_emmc.ko drivers, found on the device. Fortunately, Sony distributes a number of firmware upgrade, that contain the rootfs, than once extracted contain this driver. The driver is a standard ELF files with symbols. I wrote a parsing tool (nvptool) that is able to extract this information from the drivers. Using that, I produced a bunch of nodes-nw*.txt files. A reasonable assumption is that nodes meaning and size do not change over time (bti is always the boot image and is always 262144 bytes), so by merging a few of those file, we can get a complete picture (note that some nodes that existed in older player do not exists anymore so we really need to merge several ones from different generations). The advantage of storing all this information in plain text files, is that it now makes it easy to parse it and produce whatever format we want to use it. I wrote a python script that parses all this mess and produces a C file and header with all this information (nwz_db.{c,h}). Change-Id: Id790581ddd527d64418fe9e4e4df8e0546117b80
2016-11-11 14:40:56 +00:00
# overwrite desc set with a single string for later
g_nvp_desc[name] = explain
fp.write(" NWZ_NVP_%s, /* %s */\n" % (name.upper(), explain))
fp.write(header_end % (len(g_models), len(g_series)))
#
# generate tables
#
impl_begin = \
"""\
/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \\
* \/ \/ \/ \/ \/
*
* Copyright (C) 2016 Amaury Pouly
*
* 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
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
/** /!\ This file was automatically generated, DO NOT MODIFY IT DIRECTLY /!\ */
#include "nwz_db.h"
struct nwz_model_info_t nwz_model[NWZ_MODEL_COUNT] =
{
"""
def by_mid(model):
return model["mid"]
def by_name(nvp_entry):
return nvp_entry["name"]
def codename_to_c(codename):
return re.sub('[^a-zA-Z0-9]', '_', codename, 0)
with open("nwz_db.c", "w") as fp:
fp.write(impl_begin)
# generate model list (sort by mid)
for model in sorted(g_models, key = by_mid):
fp.write(" { %s, \"%s\" },\n" % (hex(model["mid"]), model["name"]))
fp.write("};\n")
# generate nvps
for hash in sorted(g_hash_nvp):
nwztools/database: add database of information on Sony NWZ linux players There must be an evil genius in Sony's Walkman division. Someone who made sure that each model is close enough to the previous one so that little code is needed but different enough so that an educated guess is not enough. Each linux-based Sony player has a model ID (mid) which is a 32-bit integer. I was able to extract a list of all model IDs and the correspoding name of the player (see README). This gives us 1) a nice list of all players (because NWZ-A729 vs NWZ-A729B, really Sony?) 2) an easy way to find the name of player programatically. It seems that the lower 8-bit of the model ID gives the storage size but don't bet your life on it. The remaining bytes seem to follow some kind of pattern but there are exceptions. From this list, I was able to build a list of all Sony's series (up to quite recent one). The only safe way to build that is by hand, with a list of series, each series having a list of model IDs. The notion of series is very important because all models in a series share the same firmware. A very important concept on Sony's players is the NVP, an area of the flash that stores data associated with keys. The README contains more information but basically this is where is record the model ID, the destination, the boot flags, the firmware upgrade flags, the boot image, the DRM keys, and a lot of other stuff. Of course Sony decided to slightly tweak the index of the keys regularly over time which means that each series has a potentially different map, and we need this map to talk to the NVP driver. Fortunately, Sony distributes the kernel for all its players and they contain a kernel header with this information. I wrote a script to unpack kernel sources and parse this header, producing a bunch of nw-*.txt files, included in this commit. This map is very specific though: it maps Sony's 3-letter names (bti) to indexes (1). This is not very useful without the decription (bti = boot image) and its size (262144). This information is harder to come by, and is only stored in one place: if icx_nvp_emmc.ko drivers, found on the device. Fortunately, Sony distributes a number of firmware upgrade, that contain the rootfs, than once extracted contain this driver. The driver is a standard ELF files with symbols. I wrote a parsing tool (nvptool) that is able to extract this information from the drivers. Using that, I produced a bunch of nodes-nw*.txt files. A reasonable assumption is that nodes meaning and size do not change over time (bti is always the boot image and is always 262144 bytes), so by merging a few of those file, we can get a complete picture (note that some nodes that existed in older player do not exists anymore so we really need to merge several ones from different generations). The advantage of storing all this information in plain text files, is that it now makes it easy to parse it and produce whatever format we want to use it. I wrote a python script that parses all this mess and produces a C file and header with all this information (nwz_db.{c,h}). Change-Id: Id790581ddd527d64418fe9e4e4df8e0546117b80
2016-11-11 14:40:56 +00:00
nvp = g_hash_nvp[hash]
fp.write("\nstatic int nvp_index_%s[NWZ_NVP_COUNT] =\n" % hash)
fp.write("{\n")
for name in sorted(g_nvp_names):
index = "NWZ_NVP_INVALID"
if name in nvp:
index = nvp[name]
fp.write(" [NWZ_NVP_%s] = %s,\n" % (name.upper(), index))
fp.write("};\n")
# generate nvp info
fp.write("\nstruct nwz_nvp_info_t nwz_nvp[NWZ_NVP_COUNT] =\n")
fp.write("{\n")
for name in sorted(g_nvp_names):
size = 0
if name in g_nvp_size:
size_set = g_nvp_size[name]
if len(size_set) == 0:
size = 0
elif len(size_set) == 1:
size = next(iter(size_set))
else:
print("Warning: nvp node \"%s\" has several possible sizes: %s"
% (name, size_set))
size = 0
desc = ""
if name in g_nvp_desc:
desc = g_nvp_desc[name]
fp.write(" [NWZ_NVP_%s] = { \"%s\", %s, \"%s\" },\n" % (name.upper(),
name, size, desc))
fp.write("};\n")
# generate list of models for each series
for series in g_series:
c_codename = codename_to_c(series["codename"])
list = [hex(mid) for mid in series["models"]]
limit = 3
c_list = ""
while len(list) != 0:
if len(list) <= limit:
c_list = c_list + ", ".join(list)
list = []
else:
c_list = c_list + ", ".join(list[:limit]) + ",\n "
list = list[limit:]
limit = 6
fp.write("\nstatic unsigned long models_%s[] = { %s };\n" % (c_codename, c_list))
# generate series list
fp.write("\nstruct nwz_series_info_t nwz_series[NWZ_SERIES_COUNT] =\n{\n")
for series in g_series:
name = series["name"]
codename = series["codename"]
c_codename = codename_to_c(codename)
nvp = "0"
if codename in g_nvp_hash:
nvp = "&nvp_index_%s" % g_nvp_hash[codename]
fp.write(" { \"%s\", \"%s\", %s, models_%s, %s },\n" % (codename,
name, len(series["models"]), c_codename, nvp))
fp.write("};\n")