[v1.02][ARM] Fixed M2 bug, support for M2 should now be complete

Latest versions of windows have support for the parsing VT100 escape
code sequences, allowing for terminal colors similar to Linux.

https://docs.microsoft.com/en-us/windows/console/console-virtual-terminal-sequences#screen-colors

Here I have it get the console mode, set the
`ENABLE_VIRTUAL_TERMINAL_PROCESSING` flag, and then grab the console
mode again to both verify that VT100 escape sequences are supported and
that it is enabled after setting it to determine if the printer should
allow for fancy-color mode.

.github/workflows/lockdown.yml

@@ -0,0 +1,36 @@
+name: 'Disable PR in cpufetch'
+
+on:
+  issues:
+    types: opened
+  pull_request_target:
+    types: opened
+
+permissions:
+  issues: write
+  pull-requests: write
+
+jobs:
+  action:
+    runs-on: ubuntu-latest
+    steps:
+      - uses: dessant/repo-lockdown@v2
+        with:
+          github-token: ${{ github.token }}
+          exclude-issue-created-before: ''
+          exclude-issue-labels: ''
+          issue-labels: ''
+          issue-comment: ''
+          skip-closed-issue-comment: false
+          close-issue: false
+          lock-issue: true
+          issue-lock-reason: ''
+          exclude-pr-created-before: ''
+          exclude-pr-labels: ''
+          pr-labels: ''
+          pr-comment: 'cpufetch does not accept pull requests, see [the contributing guidelines](https://github.com/Dr-Noob/cpufetch/blob/master/CONTRIBUTING.md) for details'
+          skip-closed-pr-comment: false
+          close-pr: true
+          lock-pr: false
+          pr-lock-reason: ''
+          process-only: 'prs'

.gitignore

@@ -1 +1,2 @@
 cpufetch
+*.o

CONTRIBUTING.md

@@ -0,0 +1,52 @@
+# cpufetch contributing guidelines
+
+<!-- START doctoc generated TOC please keep comment here to allow auto update -->
+<!-- DON'T EDIT THIS SECTION, INSTEAD RE-RUN doctoc TO UPDATE -->
+
+- [1. cpufetch does not accept pull requests](#1-cpufetch-does-not-accept-pull-requests)
+- [2. Creating an issue](#2-creating-an-issue)
+  - [2.1: I found a bug in cpufetch (the program provides incorrect / invalid information)](#21-i-found-a-bug-in-cpufetch-the-program-provides-incorrect--invalid-information)
+  - [2.2: I found a bug in cpufetch (the program crashes / does not work properly)](#22-i-found-a-bug-in-cpufetch-the-program-crashes--does-not-work-properly)
+    - [Stacktrace option 1 (best)](#stacktrace-option-1-best)
+    - [Stacktrace option 2 (use this option if option 1 does not work)](#stacktrace-option-2-use-this-option-if-option-1-does-not-work)
+  - [2.3: I have an idea for a new feature in cpufetch / I want to suggest a change in cpufetch](#23-i-have-an-idea-for-a-new-feature-in-cpufetch--i-want-to-suggest-a-change-in-cpufetch)
+
+<!-- END doctoc generated TOC please keep comment here to allow auto update -->
+Thanks for your interest in contributing to cpufetch! Please, read this page carefully to understand how to contribute to cpufetch.
+
+## 1. cpufetch does not accept pull requests
+cpufetch is a small project, and I enjoy developing it. There are for sure some bugs and exciting features to add, but I prefer to make these
+changes myself. For that reason, you should always use the issues page to report anything related to cpufetch. In the rare case that there is
+a concise bug or feature that I am unable to implement myself, I will enable pull requests for this.
+
+## 2. Creating an issue
+
+### 2.1: I found a bug in cpufetch (the program provides incorrect / invalid information)
+In the github issue **you must include**:
+- Exact CPU model.
+- Operating system.
+- The output of `cpufetch`.
+- The output of `cpufetch --debug`.
+
+### 2.2: I found a bug in cpufetch (the program crashes / does not work properly)
+- Exact CPU model.
+- Operating system.
+- The output of `cpufetch`.
+- The output of `cpufetch --debug`.
+- A stacktrace (if program crashes):
+
+#### Stacktrace option 1 (best)
+1. Build cpufetch with debug symbols (`make clean; make debug`).
+2. Install valgrind (if it is not already installed)
+3. Run cpufetch with valgrind (`valgrind ./cpufetch`)
+4. Paste the complete output (preferably on a platform like pastebin)
+
+#### Stacktrace option 2 (use this option if option 1 does not work)
+1. Build cpufetch with debug symbols (`make clean; make debug`).
+2. Install gdb (if it is not already installed)
+3. Debug cpufetch with gdb (`gdb cpufetch`)
+3. Run cpufetch (just r inside gdb console)
+4. Paste the complete output (preferably on a platform like pastebin)
+
+### 2.3: I have an idea for a new feature in cpufetch / I want to suggest a change in cpufetch
+Just explain the feature in the issue and include references (links) to relevant sources if appropriate.

LICENSE

@@ -1,21 +1,339 @@
-MIT License
+                    GNU GENERAL PUBLIC LICENSE
+                       Version 2, June 1991
 
-Copyright (c) 2018 Dr-Noob
+ Copyright (C) 1989, 1991 Free Software Foundation, Inc.,
+ 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
+ Everyone is permitted to copy and distribute verbatim copies
+ of this license document, but changing it is not allowed.
 
-Permission is hereby granted, free of charge, to any person obtaining a copy
-of this software and associated documentation files (the "Software"), to deal
-in the Software without restriction, including without limitation the rights
-to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-copies of the Software, and to permit persons to whom the Software is
-furnished to do so, subject to the following conditions:
+                            Preamble
 
-The above copyright notice and this permission notice shall be included in all
-copies or substantial portions of the Software.
+  The licenses for most software are designed to take away your
+freedom to share and change it.  By contrast, the GNU General Public
+License is intended to guarantee your freedom to share and change free
+software--to make sure the software is free for all its users.  This
+General Public License applies to most of the Free Software
+Foundation's software and to any other program whose authors commit to
+using it.  (Some other Free Software Foundation software is covered by
+the GNU Lesser General Public License instead.)  You can apply it to
+your programs, too.
 
-THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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+  When we speak of free software, we are referring to freedom, not
+price.  Our General Public Licenses are designed to make sure that you
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+   TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION
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+  2. You may modify your copy or copies of the Program or any portion
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+
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+
+  Yoyodyne, Inc., hereby disclaims all copyright interest in the program
+  `Gnomovision' (which makes passes at compilers) written by James Hacker.
+
+  <signature of Ty Coon>, 1 April 1989
+  Ty Coon, President of Vice
+
+This General Public License does not permit incorporating your program into
+proprietary programs.  If your program is a subroutine library, you may
+consider it more useful to permit linking proprietary applications with the
+library.  If this is what you want to do, use the GNU Lesser General
+Public License instead of this License.

Makefile

@@ -1,32 +1,99 @@
-CXX=gcc
+CC ?= gcc
 
-CXXFLAGS=-Wall -Wextra -Werror -fstack-protector-all -pedantic -Wno-unused -std=c99
-SANITY_FLAGS=-Wfloat-equal -Wshadow -Wpointer-arith -Wstrict-overflow=5 -Wformat=2
+CFLAGS+=-Wall -Wextra -pedantic
+SANITY_FLAGS=-Wfloat-equal -Wshadow -Wpointer-arith
 
-SRC_DIR=src/
-SOURCE=$(SRC_DIR)main.c $(SRC_DIR)standart.c $(SRC_DIR)extended.c $(SRC_DIR)cpuid.c $(SRC_DIR)printer.c $(SRC_DIR)args.c $(SRC_DIR)global.c
-HEADERS=$(SRC_DIR)standart.h $(SRC_DIR)extended.h  $(SRC_DIR)cpuid.h $(SRC_DIR)printer.h $(SRC_DIR)ascii.h $(SRC_DIR)args.h $(SRC_DIR)global.h
+PREFIX ?= /usr
+
+SRC_COMMON=src/common/
+
+COMMON_SRC = $(SRC_COMMON)main.c $(SRC_COMMON)cpu.c $(SRC_COMMON)udev.c $(SRC_COMMON)printer.c $(SRC_COMMON)args.c $(SRC_COMMON)global.c
+COMMON_HDR = $(SRC_COMMON)ascii.h $(SRC_COMMON)cpu.h $(SRC_COMMON)udev.h $(SRC_COMMON)printer.h $(SRC_COMMON)args.h $(SRC_COMMON)global.h
 
 ifneq ($(OS),Windows_NT)
-	SOURCE += $(SRC_DIR)udev.c
-	HEADERS += $(SRC_DIR)udev.h
+	arch := $(shell uname -m)
+	ifeq ($(arch), $(filter $(arch), x86_64 amd64 i386 i486 i586 i686))
+		SRC_DIR=src/x86/
+		SOURCE += $(COMMON_SRC) $(SRC_DIR)cpuid.c $(SRC_DIR)apic.c $(SRC_DIR)cpuid_asm.c $(SRC_DIR)uarch.c
+		HEADERS += $(COMMON_HDR) $(SRC_DIR)cpuid.h $(SRC_DIR)apic.h $(SRC_DIR)cpuid_asm.h $(SRC_DIR)uarch.h $(SRC_DIR)freq/freq.h
+
+                os := $(shell uname -s)
+                ifeq ($(os), Linux)
+			SOURCE += $(SRC_DIR)freq/freq.c freq_nov.o freq_avx.o freq_avx512.o
+			HEADERS += $(SRC_DIR)freq/freq.h
+			CFLAGS += -pthread
+                endif
+		CFLAGS += -DARCH_X86 -std=c99 -fstack-protector-all
+	else ifeq ($(arch), $(filter $(arch), ppc64le ppc64 ppcle ppc))
+		SRC_DIR=src/ppc/
+		SOURCE += $(COMMON_SRC) $(SRC_DIR)ppc.c $(SRC_DIR)uarch.c $(SRC_DIR)udev.c
+		HEADERS += $(COMMON_HDR) $(SRC_DIR)ppc.h $(SRC_DIR)uarch.h  $(SRC_DIR)udev.c
+		CFLAGS += -DARCH_PPC -std=gnu99 -fstack-protector-all
+	else ifeq ($(arch), $(filter $(arch), arm aarch64_be aarch64 arm64 armv8b armv8l armv7l armv6l))
+		SRC_DIR=src/arm/
+		SOURCE += $(COMMON_SRC) $(SRC_DIR)midr.c $(SRC_DIR)uarch.c $(SRC_DIR)soc.c $(SRC_DIR)udev.c
+		HEADERS += $(COMMON_HDR) $(SRC_DIR)midr.h $(SRC_DIR)uarch.h  $(SRC_DIR)soc.h $(SRC_DIR)udev.c $(SRC_DIR)socs.h
+		CFLAGS += -DARCH_ARM -Wno-unused-parameter -std=c99 -fstack-protector-all
+
+		os := $(shell uname -s)
+		ifeq ($(os), Darwin)
+			SOURCE += $(SRC_DIR)sysctl.c
+			HEADERS += $(SRC_DIR)sysctl.h
+		endif
+	else
+		# Error lines should not be tabulated because Makefile complains about it
+$(warning Unsupported arch detected: $(arch). See https://github.com/Dr-Noob/cpufetch#1-support)
+$(warning If your architecture is supported but the compilation fails, please open an issue in https://github.com/Dr-Noob/cpufetch/issues)
+$(error Aborting compilation)
 	endif
 
 	OUTPUT=cpufetch
+else
+	# Assume x86_64
+	SRC_DIR=src/x86/
+	SOURCE += $(COMMON_SRC) $(SRC_DIR)cpuid.c $(SRC_DIR)apic.c $(SRC_DIR)cpuid_asm.c $(SRC_DIR)uarch.c
+	HEADERS += $(COMMON_HDR) $(SRC_DIR)cpuid.h $(SRC_DIR)apic.h $(SRC_DIR)cpuid_asm.h $(SRC_DIR)uarch.h
+	CFLAGS += -DARCH_X86 -std=c99
+	SANITY_FLAGS += -Wno-pedantic-ms-format
+	OUTPUT=cpufetch.exe
+endif
 
+all: CFLAGS += -O2
 all: $(OUTPUT)
 
-debug: CXXFLAGS += -g -O0
+debug: CFLAGS += -g -O0
 debug: $(OUTPUT)
 
-release: CXXFLAGS += -static -O3
-release: $(OUTPUT)
+static: CFLAGS += -static -O2
+static: $(OUTPUT)
+
+strict: CFLAGS += -O2 -Werror -fsanitize=undefined -D_FORTIFY_SOURCE=2
+strict: $(OUTPUT)
+
+freq_nov.o: Makefile $(SRC_DIR)freq/freq_nov.c $(SRC_DIR)freq/freq_nov.h $(SRC_DIR)freq/freq.h
+	$(CC) $(CFLAGS) $(SANITY_FLAGS) -c -pthread $(SRC_DIR)freq/freq_nov.c -o $@
+
+freq_avx.o: Makefile $(SRC_DIR)freq/freq_avx.c $(SRC_DIR)freq/freq_avx.h $(SRC_DIR)freq/freq.h
+	$(CC) $(CFLAGS) $(SANITY_FLAGS) -c -mavx -pthread $(SRC_DIR)freq/freq_avx.c -o $@
+
+freq_avx512.o: Makefile $(SRC_DIR)freq/freq_avx512.c $(SRC_DIR)freq/freq_avx512.h $(SRC_DIR)freq/freq.h
+	$(CC) $(CFLAGS) $(SANITY_FLAGS) -c -mavx512f -pthread $(SRC_DIR)freq/freq_avx512.c -o $@
 
 $(OUTPUT): Makefile $(SOURCE) $(HEADERS)
-	$(CXX) $(CXXFLAGS) $(SANITY_FLAGS) $(SOURCE) -o $(OUTPUT)
+	$(CC) $(CFLAGS) $(SANITY_FLAGS) $(SOURCE) -o $(OUTPUT)
 
-run:
+run: $(OUTPUT)
 	./$(OUTPUT)
 
 clean:
-	@rm $(OUTPUT)
+	@rm -f $(OUTPUT) *.o
+
+install: $(OUTPUT)
+	install -Dm755 "cpufetch"   "$(DESTDIR)$(PREFIX)/bin/cpufetch"
+	install -Dm644 "LICENSE"    "$(DESTDIR)$(PREFIX)/share/licenses/cpufetch-git/LICENSE"
+	install -Dm644 "cpufetch.1" "$(DESTDIR)$(PREFIX)/share/man/man1/cpufetch.1.gz"
+
+uninstall:
+	rm -f "$(DESTDIR)$(PREFIX)/bin/cpufetch"
+	rm -f "$(DESTDIR)$(PREFIX)/share/licenses/cpufetch-git/LICENSE"
+	rm -f "$(DESTDIR)$(PREFIX)/share/man/man1/cpufetch.1.gz"

README.md

@@ -1,13 +1,84 @@
-# cpufetch
+<p align="center"><img width=50% src="./pictures/cpufetch.png"></p>
 
-Prints a fancy summary of the CPU with some advanced information
+<h4 align="center">Simple yet fancy CPU architecture fetching tool</h4>
 
-### Platforms
-This tool works on both 64 only and under Linux because of its [implementation details](#implementation). AMD support is not guaranteed so information may not be correct
+<p align="center"> </p>
 
-### Usage and installation
+<div align="center">
+  <img height="22px" src="https://img.shields.io/github/v/tag/Dr-Noob/cpufetch?label=cpufetch&style=flat-square">
+  <a href="https://github.com/Dr-Noob/cpufetch/stargazers">
+    <img height="22px" src="https://img.shields.io/github/stars/Dr-Noob/cpufetch?color=4CC61F&style=flat-square">
+  </a>
+  <a href="https://github.com/Dr-Noob/cpufetch/issues">
+    <img height="22px" src="https://img.shields.io/github/issues/Dr-Noob/cpufetch?style=flat-square">
+  </a>
+  <a href="https://github.com/Dr-Noob/cpufetch/blob/master/README.md#1-support">
+    <img height="22px" src="pictures/os-shield.jpg">
+  </a>
+  <a href="https://github.com/Dr-Noob/cpufetch/blob/master/LICENSE">
+    <img height="22px" src="https://img.shields.io/github/license/Dr-Noob/cpufetch?color=orange&style=flat-square">
+  </a>
+</div>
 
-Just clone the repo and use `make` to compile it
+<p align="center"> </p>
+
+<p align="center">
+cpufetch is a command-line tool written in C that displays the CPU information in a clean and beautiful way
+</p>
+
+<p align="center">
+<img width=80% src="./pictures/examples.gif">
+</p>
+
+# Table of contents
+<!-- UPDATE with: doctoc --notitle README.md -->
+<!-- START doctoc generated TOC please keep comment here to allow auto update -->
+<!-- DON'T EDIT THIS SECTION, INSTEAD RE-RUN doctoc TO UPDATE -->
+
+
+- [1. Support](#1-support)
+- [2. Installation](#2-installation)
+  - [2.1 Installing from a package](#21-installing-from-a-package)
+  - [2.2 Building from source](#22-building-from-source)
+  - [2.3 Android](#23-android)
+- [3. Examples](#3-examples)
+  - [3.1 x86_64](#31-x86_64)
+  - [3.2 ARM](#32-arm)
+  - [3.3 PowerPC](#33-powerpc)
+- [4. Colors](#4-colors)
+  - [4.1 Specifying a name](#41-specifying-a-name)
+  - [4.2 Specifying the colors in RGB format](#42-specifying-the-colors-in-rgb-format)
+- [5. Implementation](#5-implementation)
+- [6. Bugs or improvements](#6-bugs-or-improvements)
+- [7. Acknowledgements](#7-acknowledgements)
+- [8. cpufetch for GPUs (gpufetch)](#8-cpufetch-for-gpus-gpufetch)
+
+<!-- END doctoc generated TOC please keep comment here to allow auto update -->
+
+## 1. Support
+
+| OS          | x86_64 / x86       | ARM                | PowerPC            |
+|:-----------:|:------------------:|:------------------:|:------------------:|
+| GNU / Linux | :heavy_check_mark: | :heavy_check_mark: | :heavy_check_mark: |
+| Windows     | :heavy_check_mark: | :x:                | :x:                |
+| Android     | :heavy_check_mark: | :heavy_check_mark: | :x:                |
+| macOS       | :heavy_check_mark: | :heavy_check_mark: | :x:                |
+| FreeBSD     | :heavy_check_mark: | :x:                | :x:                |
+
+**NOTES:**
+- Colors will be used in Windows only if the terminal supports it.
+- Support in macOS ARM is limited to Apple M1 only
+
+## 2. Installation
+### 2.1 Installing from a package
+Choose the right package for your operating system:
+
+[![Packaging status](https://repology.org/badge/vertical-allrepos/cpufetch.svg)](https://repology.org/project/cpufetch/versions)
+
+If there is no available package for your OS, you can download the cpufetch binary from [the releases page](https://github.com/Dr-Noob/cpufetch/releases), or [build cpufetch from source](#22-building-from-source-linuxwindowsmacos) (see below).
+
+### 2.2 Building from source
+You will need a C compiler (e.g, `gcc`) and `make` to compile `cpufetch`. Just clone the repo and run `make`:
 
 ```
 git clone https://github.com/Dr-Noob/cpufetch
@@ -16,38 +87,74 @@ make
 ./cpufetch
 ```
 
-### Example
+### 2.3 Android
+1. Install `termux` app (terminal emulator)
+2. Run `pkg install -y git make clang` inside termux.
+3. Build from source normally:
+  - git clone https://github.com/Dr-Noob/cpufetch
+  - cd cpufetch
+  - make
+  - ./cpufetch
 
-This is the output of `cpufetch` in a i7-4790K
+## 3. Examples
+### 3.1 x86_64
 
-![Example](/preview.png)
+<p align="center"><img width=90% src="pictures/epyc.png"></p>
+<p align="center">AMD EPYC HPC server</p>
+<p align="center"><img width=90% src="pictures/cascade_lake.jpg"></p>
+<p align="center">Intel Xeon HPC server</p>
 
-### Output
+### 3.2 ARM
 
-Output is detailed as follows:
+<p align="center">
+<img width=45% src="pictures/exynos.jpg">
+&nbsp;
+<img width=45% src="pictures/snapd.png">
+</p>
+<p align="center">Samsung Galaxy S8 (left) Xiaomi Redmi Note 7 (right)</p>
 
-| Field      | Description             | Possible Values  |
-|:----------:|:-----------------------:|:-----------------:|
-| Name       | Name of the CPU   | Any valid CPU name |
-| Frequency  | Max frequency of the CPU(in GHz) | X.XX(GHz or MHz)
-| N.Cores    | Number of cores the CPU has. If CPU supports `Hyperthreading` or similar, this will show cores and threads separately | X(cores)X(threads)
-| AVX        | Type of AVX supported by the CPU or None. AVX instructions allows the CPU to vectorize the code with a witdh of 256 bits in single precision(or 512bits if AVX512 is supported) | AVX,AVX2,AVX512,None
-| SSE        | Same as AVX, but SSE family are 128bits witdh | SSE, SSE2, SSE3, SSSE3, SSE4a, SSE4_1, SSE4_2,None |
-| FMA        | Does this CPU support FMA(Fused Multiply Add)?This instruction allows the CPU to multiply and add a value on the same clock cycle | FMA3,FMA4,None |
-| AES        | Does this CPU support AES? This instruction is allows the CPU to make AES cypher efficiently | Yes or No |
-| SHA        | Does this CPU support SHA? This instruction is allows the CPU to make SHA hashing efficiently | Yes or No |
-| L1 Size    | Size(in bytes) of the L1 cache, separated in data and instructions | XXB(Data)XXB(instructions) |
-| L2 Size    | Size(in bytes) of the L2 cache(both are unified) | XXXKB or None |
-| L3 Size    | Same as L3 | XXXXKB or None |
-| Peak FLOPS | Max FLOPS(Floating Point Operation Per Second) this CPU could theoretical achieve. This is calculated by: `N.Cores*Freq*2(Because 2 functional units)*2(If has FMA)*VectorWidth` | XXX.XX (G/T)FLOPs |
+### 3.3 PowerPC
 
-`cpufetch` also prints a simple ascii art of the manufacturer logo.
+<p align="center"><img width=90% src="pictures/ibm.png"></p>
+<p align="center">Talos II</p>
 
-### Implementation
+## 4. Colors
+By default, `cpufetch` will print the CPU logo with the system colorscheme. However, you can set a custom color scheme in two different ways:
 
-`cpufetch` makes use of two techniques to fetch data:
-* __cpuid__: CPU name, number of threads per core and instructions features are fetched via _cpuid_. See [this](http://www.sandpile.org/x86/cpuid.htm) and [Intel  Processor Identification and the CPUID Instruction](https://www.scss.tcd.ie/~jones/CS4021/processor-identification-cpuid-instruction-note.pdf) for more information.
-* __udev__: Cache and frequency are fetched via _udev_, by looking at specific files from `/sys/devices/system/cpu`
+### 4.1 Specifying a name
 
-### Bugs or improvements
-Feel free to open a issue on the repo to report a issue or propose any improvement in the tool
+ By specifying a name, cpufetch will use the specific colors of each manufacture. Valid values are:
+
+- intel
+- intel-new
+- amd
+- ibm
+- arm
+
+```
+./cpufetch --color intel (default color for Intel)
+```
+
+### 4.2 Specifying the colors in RGB format
+
+5 colors must be given in RGB with the format: ``[R,G,B:R,G,B:R,G,B:R,G,B:R,G,B]``. These colors correspond to the CPU logo color (first 3 colors) and for the text colors (following 2).
+
+```
+./cpufetch --color 239,90,45:210,200,200:0,0,0:100,200,45:0,200,200
+```
+
+## 5. Implementation
+See [cpufetch programming documentation](https://github.com/Dr-Noob/cpufetch/tree/master/doc).
+
+## 6. Bugs or improvements
+See [cpufetch contributing guidelines](https://github.com/Dr-Noob/cpufetch/blob/master/CONTRIBUTING.md).
+
+## 7. Acknowledgements
+Thanks to the fellow contributors and interested people in the project. Special thanks to:
+- [Gonzalocl](https://github.com/Gonzalocl), [OdnetninI](https://github.com/OdnetninI): Tested cpufetch in the earlier versions of the project in many different CPUs.
+- [Kyngo](https://github.com/Kyngo): Tested cpufetch in the Apple M1 CPU.
+- [avollmerhaus](https://github.com/avollmerhaus): Gave me ssh acess to a PowerPC machine, allowing me to develop the PowerPC port.
+- [bbonev](https://github.com/bbonev), [stephan-cr](https://github.com/stephan-cr): Reviewed the source code.
+
+## 8. cpufetch for GPUs (gpufetch)
+See [gpufetch](https://github.com/Dr-Noob/gpufetch) project!

ascii/amdASCII

@@ -1,21 +0,0 @@
-
-
-
-
-
-
-     @@@@      @@@%      @@@.  @@@@@@@@(      .############
-    @@@@@@     @@@@@   %@@@@.  @@@    @@@@      .((((((####
-   @@@  @@@    @@@/@@@@@@&@@.  @@@     %@@%     #      ####
-  @@@,  (@@#   @@@  @@@/ @@@.  @@@     .@@@   ###      ####
- ,@@@@@@@@@@,  @@@       @@@.  @@@     @@@   ####      ####
- @@@      @@@  @@@       @@@.  @@@@@@@@@&    #######/   .##
-
-
-
-
-
-
-
-
- 

ascii/intelASCII

@@ -1,19 +0,0 @@
-                              ################
-                      #######                #######
-                 ####                              ####
-             ###                                     ####
-        ###                                             ###
-        ###                                  ###        ###
-     #                    ###                ###        ###
-   ##   ###   #########   ######   ######    ###        ###
-  ##    ###   ###    ###  ###    ####  ####  ###        ###
- ##     ###   ###    ###  ###    ###    ###  ###       ###
-##      ###   ###    ###  ###    ##########  ###     ####
-##      ###   ###    ###  ###    ###         ###   #####
-##       ##   ###    ###   #####  #########   ##  ###
-###
-(###
- ####                                        ####
-   #####                               ##########
-     ##########               ################
-         ###############################

cpufetch.1

@@ -0,0 +1,91 @@
+.\" DO NOT MODIFY THIS FILE!  It was generated by help2man 1.48.3. It was also manually adapted to look correctly
+.\" help2man -N -n "Simple yet fancy CPU architecture fetching tool" ./cpufetch > cpufetch.1
+.TH CPUFETCH "1" "September 2021" "cpufetch v1.00 (Linux x86_64 build)" "User Commands"
+.SH NAME
+cpufetch \- Simple yet fancy CPU architecture fetching tool
+.SH SYNOPSIS
+.B cpufetch
+[\fI\,OPTION\/\fR]...
+.SH DESCRIPTION
+cpufetch is a command-line tool written in C that displays the CPU information in a clean and beautiful way
+.SH OPTIONS
+.TP
+\fB\-c\fR, \fB\-\-color\fR
+Set the color scheme (by default, cpufetch uses the system color scheme)
+.TP
+\fB\-s\fR, \fB\-\-style\fR
+Set the style of CPU logo
+.TP
+\fB\-d\fR, \fB\-\-debug\fR
+Print CPU model and cpuid levels (debug purposes)
+.TP
+\fB\-\-logo\-short\fR
+Show the short version of the logo
+.TP
+\fB\-\-logo\-long\fR
+Show the long version of the logo
+.TP
+\fB\-v\fR, \fB\-\-verbose\fR
+Print extra information (if available) about how cpufetch tried fetching information
+.TP
+\fB\-\-logo\-intel\-old\fR
+Show the old Intel logo
+.TP
+\fB\-\-logo\-intel\-new\fR
+Show the new Intel logo
+.TP
+\fB\-F\fR, \fB\-\-full\-cpu\-name\fR
+Show the full CPU name (do not abbreviate it)
+.TP
+\fB\-r\fR, \fB\-\-raw\fR
+Print raw cpuid data (debug purposes)
+.TP
+\fB\-h\fR, \fB\-\-help\fR
+Print this help and exit
+.TP
+\fB\-V\fR, \fB\-\-version\fR
+Print cpufetch version and exit
+.SH COLORS
+.TP
+* "intel":
+Use Intel default color scheme
+.TP
+* "amd":
+Use AMD default color scheme
+.TP
+* "ibm",
+Use IBM default color scheme
+.TP
+* "arm":
+Use ARM default color scheme
+.TP
+* custom:
+If the argument of \fB\-\-color\fR does not match any of the previous strings, a custom scheme can be specified. 5 colors must be given in RGB with the format: R,G,B:R,G,B:...The first 3 colors are the CPU art color and the next 2 colors are the text colors
+.SH STYLES
+.TP
+* "fancy":
+Default style
+.TP
+* "retro":
+Old cpufetch style
+.TP
+* "legacy":
+Fallback style for terminals that do not support colors
+.SH LOGOS
+.TP
+cpufetch will try to adapt the logo size and the text to the terminal width. When the output (logo and text) is wider than the terminal width, cpufetch will print a smaller version of the logo (if it exists). This behavior can be overridden by \fB\-\-logo\-short\fR  and \fB\-\-logo\-long\fR, which always sets the logo size as specified by the user, even if it is too big. After the logo selection (either automatically or set by the user), cpufetch will check again if the output fits in the terminal. If not, it will use a shorter name for the fields (the left part of the text). If, after all of this, the output still does not fit, cpufetch will cut the text and will only print the text until there is no space left in each line 
+.SH EXAMPLES
+.TP
+Run cpufetch with Intel color scheme:
+.IP
+\&./cpufetch \fB\-\-color\fR intel
+.TP
+Run cpufetch with a custom color scheme:
+.IP
+\&./cpufetch \fB\-\-color\fR 239,90,45:210,200,200:0,0,0:100,200,45:0,200,200
+.SH BUGS
+.TP
+Report bugs to https://github.com/Dr\-Noob/cpufetch/issues
+.SH NOTE
+.TP
+Peak performance information is NOT accurate. cpufetch computes peak performance using the max frequency of the CPU. However, to compute the peak performance, you need to know the frequency of the CPU running AVX code. This value is not be fetched by cpufetch since it depends on each specific CPU. To correctly measure peak performance, see: https://github.com/Dr\-Noob/peakperf

cpufetch.8

@@ -1,33 +0,0 @@
-.TH man 8 "22 Jun 2018" "0.32" "cpufetch man page"
-.SH NAME
-cpufetch \- Prints a fancy summary of the CPU with some advanced information
-.SH SYNOPSIS
-cpufetch [--help] [--style STYLE]
-.SH DESCRIPTION
-cpufetch will print CPU information, for which will query cpuid instructions and udev directories on Linux. It should display:
-.IP \[bu] 2
-Name
-.IP \[bu]
-Frequency
-.IP \[bu]
-Number of cores(Physical and Logical)
-.IP \[bu]
-AVX,SSE,FMA,AES and SHA support
-.IP \[bu]
-L1,L2 and L3 size
-.IP \[bu]
-Theoretical peak flops
-.SH OPTIONS
-.TP
-\fB\-\-help\fR
-Prints help
-.TP
-\fB\-\-version\fR
-Prints cpufetch version
-.TP
-\fB\-\-style\fR
-Specify the color style of ascii logo
-.SH BUGS
-No known bugs. AMD CPUs may not be fully supported
-.SH AUTHOR
-Dr-Noob (https://github.com/Dr-Noob)

doc/DOCUMENTATION_ARM.md

@@ -0,0 +1,60 @@
+### 2. Why ARM cpufetch works on Linux based systems?
+CPUID instructions (present in x86 architectures) [[1](#references)] allow user level applications to obtain information about the CPU. In ARM architectures, there are many registers (MIDR [[2](#references)], CCSIDR [[3](#references)]) that provide information about the CPU too. However, those registers can only be read from privilege mode (PL1 or higher). Therefore, any user level tool which can actually read information about the running CPU must use the operating system to do so. cpufetch uses some Linux kernel features (see the remaining sections). Therefore, cpufetch in ARM processors is limited to Linux kernel based systems, such as __GNU/Linux__ and __Android__
+
+### 3. How to get CPU microarchitecture?
+__Involved code: [get_midr_from_cpuinfo (udev.c)](https://github.com/Dr-Noob/cpufetch/blob/master/src/arm/udev.c), [midr.c](https://github.com/Dr-Noob/cpufetch/blob/master/src/arm/midr.c)__
+
+Microarchitecture information is acquired from the Main ID Register (MIDR) [[2](#references)]. Currently, cpufetch rebuilds this register using `/proc/cpuinfo` file. While this file does not contain the value of the register per se, it contains the following fields:
+- `CPU implementer`,
+- `CPU architecture`
+- `CPU variant`
+- `CPU part`
+- `CPU revision`
+
+The MIDR register can be built with this information. Another possible approach is to read MIDR directly from `/sys/devices/system/cpu/cpu*/regs/identification/midr_el1`
+
+With the MIDR available, the approach is the same as the one used in x86_64 architectures. cpufetch has a file that acts like a database that tries to match the MIDR register with the specific CPU microarchitecture.
+
+### 4. How to get CPU topology?
+__Involved code: [get_ncores_from_cpuinfo (udev.c)](https://github.com/Dr-Noob/cpufetch/blob/master/src/arm/udev.c), [midr.c](https://github.com/Dr-Noob/cpufetch/blob/master/src/arm/midr.c)__
+
+ARM provides a new interesting architecture feature: big.LITTLE architectures [[4](#references)]. An ARM CPU can be organized like a typical x86_64 CPU, where all cores share the same microarchitecture. However, ARM big.LITTLE architecture breaks this schema. In a big.LITTLE CPU, two or more CPUs microarchitecture live in the same chip.
+
+This means that cpufetch can't just read which microarchitecture is the first core and assume that the rest of them shares the same microarchitecture. To get the CPU topology, cpufetch first reads the number of CPU cores. This can be obtained from `/sys/devices/system/cpu/present`
+
+Then, for each core, cpufetch reads the MIDR and also the frequency (see section 5). Then, cpufetch assumes that two cores are different when their MIDR are different. This idea allows cpufetch to detect big.LITTLE architectures, and to know how many cores of each architecture the running CPU has.
+
+### 5. How to get the frequency?
+Frequency is read directly from `/sys/devices/system/cpu/cpu*/cpufreq/cpuinfo_max_freq`
+
+### 6. How to get system on chip model?
+__Involved code: [soc.c](https://github.com/Dr-Noob/cpufetch/blob/master/src/arm/soc.c)__
+
+System on chip (SoC) model is obtained using the same idea as the microarchitecture. First, SoC string is read. Then, the string has to be matched against a database-like function (__parse_soc_from_string__). The SoC string of the running CPU can be obtained using two different approaches:
+
+- Using `/proc/cpuinfo`. This is the first thing to try. Linux kernel usually provides the string under the `Hardware` keyword. However, the Linux kernel may be unable to provide this information, or this string may not be found in the database-like function.
+- Using Android properties: This only works on Android systems. Android properties can be read using `__system_property_get` function. cpufetch tries to read two properties:
+  - `ro.mediatek.platform`
+  - `ro.product.board`
+
+  If any string is returned, cpufetch tries to find a match in the database (using the same database as in the case of `/proc/cpuinfo`).
+
+The expected strings have to be hardcoded. I found two ways of knowing which string should correspond to which SoC:
+
+  - Searching on the internet. Manufacturers __usually__ provide this information. For example, Qualcomm usually publishes the chip name along with other characteristics (under the `Part` or `Part number` keyword [[6](#references)]).
+  - "Hunting" for the strings. For example, finding smartphones with a given SoC and manually reading the `/proc/cpuinfo` or the `build.prop` file. A very good resource to do this is the SpecDevice webpage [[7](#references)]).
+
+### 7. How to get cache size and topology?
+ARM architecture supports reading the cache information via some registers (for example, the CCSIDR register  [[3](#references)]). As mentioned earlier, user level applications are not able to read these registers directly. The remaining option is to ask the operating system for this information. However, at the moment, the __Linux kernel does not provide cache information__. Therefore, cpufetch does not print any cache information on ARM CPUs at the moment. There are, however, other approaches to be explored:
+
+- Read the registers in kernel mode. This can be accomplished by running a kernel module [[4](#references)]. Unfortunately, running a custom kernel module is tricky, and sometimes impossible to do reasonably (for example, in Android devices). In any case, my decision is to run cpufetch on user level only.
+- Hardcode the cache information for each SoC: Sometimes, manufacturers publish technical information about the chips, where cache topology and size are shown. This method is impractical, since this kind of information is very hard (or impossible) to find online, and the number of SoC is huge.
+
+#### References
+- [1] [cpufetch x86_64 documentation](https://github.com/Dr-Noob/cpufetch/blob/master/doc/DOCUMENTATION_X86.md)
+- [2] [Main ID Register](https://developer.arm.com/documentation/ddi0433/c/system-control/register-descriptions/main-id-register)
+- [3] [Cache size ID Register](https://developer.arm.com/documentation/100403/0200/register-descriptions/aarch32-system-registers/ccsidr--cache-size-id-register)
+- [4] [How to get the size of the CPU cache in Linux](https://stackoverflow.com/a/63474811/9975463)
+- [5] [ARM big.LITTLE](https://en.wikipedia.org/wiki/ARM_big.LITTLE)
+- [6] [Snapdragon 855+ Mobile Platform](https://www.qualcomm.com/products/snapdragon-855-plus-mobile-platform)
+- [7] [SpecDevice](http://specdevice.com/unmoderated.php)

doc/DOCUMENTATION_PPC.md

@@ -0,0 +1,26 @@
+### 2. How to get CPU microarchitecture?
+__Involved code: [get_uarch_from_pvr (uarch.c)](https://github.com/Dr-Noob/cpufetch/src/ppc/uarch.c)__
+
+Microarchitecture is deduced from the PVR register, which is read using the `mfpvr` instruction. The correspondence between the PVR and the specific microarchitecture has been implemented using the values in `arch/powerpc/kernel/cputable.c` in the Linux kernel. Some of them have been removed. The manufacturing process has been queried by searching on the internet.
+
+### 3. How to get CPU topology?
+__Involved code: [get_topology_info (ppc.c)](https://github.com/Dr-Noob/cpufetch/src/ppc/ppc.c)__
+
+The total number of cores is queried using `sysconf(_SC_NPROCESSORS_ONLN)`. Then, with the number of sockets and the number of physical cores, we can calculate the number of threads per core.
+
+The number of sockets is queried using `/sys/devices/system/cpu/cpu*/topology/physical_package_id`. Once this file has been read for all of the cores, a simple custom algorithm is used to determine the number of sockets.
+
+The number of physical cores is queried using `/sys/devices/system/cpu/cpu*/topology/core_id`. Again, a custom algorithm is used to determine the number of physical cores.
+
+### 4. How to get the frequency?
+Frequency is read directly from `/sys/devices/system/cpu/cpu*/cpufreq/cpuinfo_max_freq`
+
+### 5. How to get cache size and topology?
+Cache size is retrieved directly from Linux (using `/sys/devices/system/cpu/cpu0/cache/index*/size`).
+
+To find the cache topology, the files `/sys/devices/system/cpu/cpu0/cache/index*/shared_cpu_map` are used, and a custom algorithm is used to determine how many caches are there at each level.
+
+_NOTE_: To avoid Linux dependencies at this point, it looks like it is possible to derive the cache size and topology from the microarchitecture. For example, in the POWER9 architecture, wikichip assumes that all the POWER9 CPUs have the same cache size for each core and topology [[1](#references)].
+
+#### References
+- [1] [POWER9 - wikichip](https://en.wikichip.org/wiki/ibm/microarchitectures/power9)

doc/DOCUMENTATION_X86.md

@@ -0,0 +1,120 @@
+### 2. Why differences between Intel and AMD?
+There are many different CPUID leaves [[1](#references)]. In some cases, a given leaf does the same thing in Intel and AMD processors, but in the majority of them, they don't. For example, leaf 0x4 gives you the caches information, but in AMD is a reserved (invalid) leaf! In the case of AMD, is more common to fetch information using extended levels than using the standard levels (the other way around with Intel).
+
+### 3. How to get the frequency?
+__Involved code: [get_frequency_info (cpuid.c)](https://github.com/Dr-Noob/cpufetch/blob/master/src/x86/cpuid.c)__
+
+CPUID leaf 0x16 is used.
+
+If the CPU does not support supports such level:
+- Linux: cpufetch will try to obtain this information using `/sys` filesystem in Linux. I think that Linux knows the frequency using model specific registers (MSRs), which you can't read at the user level.
+- Windows: cpufetch can't obtain CPU frequency. This means that peak performance can't be computed because the frequency is needed to compute it.
+
+### 4. How to get cache sizes?
+__Involved code: [get_cache_info (cpuid.c)](https://github.com/Dr-Noob/cpufetch/blob/master/src/x86/cpuid.c)__
+
+- Intel: CPUID leaf 0x4 is used (using __get_cache_info_general__). If the CPU does not support it, cpufetch can't get this information.
+- AMD: Extended CPUID leaf 0x1D is used (using __get_cache_info_general__). If the CPU does not support this level, cpufetch uses a fallback method, which uses extended leaves 0x5 and 0x6. This fallback method uses __get_cache_info_amd_fallback__.
+
+
+### 5. How to get CPU microarchitecture?
+__Involved code: [get_cpu_uarch (cpuid.c)](https://github.com/Dr-Noob/cpufetch/blob/master/src/x86/cpuid.c), [get_uarch_from_cpuid (uarch.c)](https://github.com/Dr-Noob/cpufetch/blob/master/src/x86/uarch.c)__
+
+CPUID leaf 0x1 is used. From there, we get:
+- Model
+- Extended Model
+- Family
+- Extended Family
+- Stepping
+
+Knowing this information, we can distinguish any CPU microarchitecture. Inside __uarch.c__ there is a function that behaves like a database or a lookup table. The function of this database is to find a match between the information obtained from 0x1 and what kind of microarchitecture the current CPU is. I got the data using and adapting the code from Todd Allen's cpuid program [[5](#references)]. Knowing the microarchitecture, we can obtain the manufacturing process (or technology, the size in nm of the transistors).
+
+### 6. How to get CPU topology?
+__Involved code: [cpuid.h](https://github.com/Dr-Noob/cpufetch/blob/master/src/x86/cpuid.h), [get_topology_info (cpuid.c)](https://github.com/Dr-Noob/cpufetch/blob/master/src/x86/cpuid.c), [apic.c](https://github.com/Dr-Noob/cpufetch/blob/master/src/x86/apic.c)__
+
+cpufetch aims to support the most complex systems, so it supports multi-socket CPUs and detailed SMT (Intel HyperThreading) information. The CPU topology is stored in the following struct:
+
+```
+struct topology {
+  int64_t total_cores;
+  uint32_t physical_cores;
+  uint32_t logical_cores;
+  uint32_t smt_available;
+  uint32_t smt_supported;
+  uint32_t sockets;
+};
+```
+
+This structure needs a bit of explanation, to know what are we looking for:
+- `physical_cores`: Number of physical cores. In a multi socket system, this field stores the number of cores for just one socket.
+- `logical_cores`: Number of logical cores. In a multi socket system, this field stores the number of logical cores for just one socket.
+- `total_cores`: Total number of logical cores. In a multi socket system, this field stores the number of logical cores for the entire system.
+- `sockets`: How many sockets the system has.
+- `smt_supported`: Stores if SMT (or Intel HT) is supported in the CPU, storing the number of threads per core. So, if `smt_supported == 1`, it means that there is 1 thread per core, and SMT is not supported. If SMT is supported, then `smt_supported >= 1`. Note this field tells if the CPU if supports it, but not if SMT is activated or not.
+- `smt_available`: The same idea as `smt_supported`, but it stores if SMT is available. If SMT is not supported, then `smt_available` is always `1`. The differentiation between supported and available lets cpufetch distinguish when a CPU has SMT capabilities, but are disabled (probably in the BIOS).
+
+Let's give two CPU examples and the values that `struct topology` would have in these CPUs.
+- Example 1: Dual Socket Intel Xeon 6248:
+
+```
+total_cores = 80
+physical_cores = 20
+logical_cores = 40
+smt_available = 2
+smt_supported = 2
+sockets = 2
+```
+
+- Example 2: Intel Core i7-4790K with SMT disabled in BIOS:
+
+```
+total_cores = 8
+physical_cores = 4
+logical_cores = 8
+smt_available = 1
+smt_supported = 2
+sockets = 1
+```
+
+Now that we know what data are we looking for, let's see how we get it:
+
+- __Intel__: The methodology used is explained in the Intel webpage [[2](#references)]. Intel explains how to do it and also gives an example source code. I used it and modified it to fit cpufetch style. The core of this methodology is the usage of the APIC id, so the code is inside __apic.c__.
+- __AMD__: Intel's algorithm using APIC does not work for AMD. To get the same information in AMD, I used the reference from OSdev [[3](#references)] and also ideas from lscpu [[4](#references)]. This uses:
+  - CPUID extended leaf 0x8: Fill `logical_cores`
+  - CPUID extended leaf 0x1E: Fill `smt_supported`
+  - CPUID standard leaf 0x1 (APIC): Fill `smt_available`
+
+  If any of these levels are not supported, these fields are just guessed. For example, if we are not able to know if SMT is supported, we guess it is not. With all of these data, we can calculate the rest of the fields:
+
+  ```
+  physical_cores = logical_cores / smt_available;  
+  if(topo->smt_supported > 1)
+    sockets = total_cores / smt_supported / physical_cores; // Idea borrowed from lscpu
+  else
+    sockets = total_cores / physical_cores;    
+  ```
+
+### 7. How to get cache topology?
+__Involved code: [get_cache_topology_amd (cpuid.c)](https://github.com/Dr-Noob/cpufetch/blob/master/src/x86/cpuid.c), [apic.c](https://github.com/Dr-Noob/cpufetch/blob/master/src/x86/apic.c)__
+
+The topology of a cache gives us information about how many caches we have at a given level. It usually follows the rule of:
+- L1: The same as the number of cores (one L1i and one L1d per core).
+- L2: If L2 is the last level cache, one L2. If not, the same as the number of cores (one L2 per core).
+- L3: One L3 cache per socket (shared among all cores).
+
+These assumptions are generally (but not always) true. For example, for the AMD Zen generation, or the Intel Xeon Phi KNL. Thus, cpufetch does not assume the topology but obtains it instead.
+
+- __Intel__: The idea is similar to the mentioned in CPU topology [[2](#references)](it also covers how to get cache topology using APIC id).
+
+- __AMD__: Again, we have to look for another path for AMD. This time, the way to do it is easier and (I think) more solid and future proof. The idea is to use extended CPUID leaf 0x1D. If the CPU does not support it, we can still guess the topology of the caches (as mentioned earlier). If it does, CPUID can give us how many cores shares a given level of cache. So, if we have the number of cores, we can guess how many caches are there for any given level (see __get_cache_topology_amd__).
+
+#### References
+- [1] [sandpile CPUID webpage](https://www.sandpile.org/x86/cpuid.htm)
+- [2] [CPU topology and cache topology: Intel](https://software.intel.com/content/www/us/en/develop/articles/intel-64-architecture-processor-topology-enumeration.html)
+- [3] [CPU topology: AMD](https://wiki.osdev.org/Detecting_CPU_Topology_(80x86))
+- [4] [lscpu](https://github.com/karelzak/util-linux/blob/master/sys-utils/lscpu.c)
+- [5] [Todd Allen's cpuid](http://www.etallen.com/cpuid.html)
+- [6] [AMD specific CPUID specification](https://www.amd.com/system/files/TechDocs/25481.pdf)
+- [7] [Intel vs AMD CPU Architectural Differences: Chips and Chiplets](https://c.mi.com/thread-2585048-1-0.html)
+
+In addition to all these resources, I found it very interesting to search in the Linux kernel source code (for example, the directory [`arch/x86/kernel/cpu/`](https://elixir.bootlin.com/linux/latest/source/arch/x86/kernel/cpu)), because sometimes you can find ideas that cannot be found anywhere else!

doc/README.md

@@ -0,0 +1,69 @@
+# cpufetch programming documentation (v0.98)
+This documentation explains how cpufetch works internally and all the design decisions I made. This document intends to be useful for me in the future, for everyone interested in the project, and for anyone who is trying to obtain any specific information from the CPU. In this way, this can be used as a manual or a page that collects interesting material in this area.
+
+### 1. Basics
+cpufetch works for __x86_64__ (Intel and AMD),  __ARM__ and __PowerPC__ CPUs. However, cpufetch is expected to work better on x86_64, because the codebase is older and has been tested much more than the ARM and PowerPC versions. Depending on the architecture, cpufetch choose certain files to be compiled. A summarized tree of the source code of cpufetch is shown below.
+
+```
+cpufetch/
+├── doc
+│   ├── DOCUMENTATION_ARM.md
+|   ├── DOCUMENTATION_PPC.md
+│   ├── DOCUMENTATION_X86.md
+│   └── README.md
+├── Makefile
+├── README.md
+└── src/
+    ├── arm/
+    │   ├── midr.c
+    │   ├── midr.h
+    │   └── other files ...
+    ├── common/
+    │   └── common files ...
+    ├── ppc/
+    |   ├── ppc.c
+    |   ├── ppc.h
+    |   └── other files ...
+    └── x86/
+        ├── cpuid.c
+        ├── cpuid.h
+        └── other files ...
+```
+
+Source code is divided into four directories:
+
+- `common/`: Source code shared between all architectures
+- `arm/`: ARM source code
+- `ppc/`: PowerPC source code
+- `x86/`: x86 source code
+
+##### 1.1 Basics (x86_64)
+
+In x86, __cpufetch works using the CPUID instruction__. It is called directly using assembly (see `src/x86/cpuid_asm.c`). To understand how CPUID works, see [DOCUMENTATION_X86.md](https://github.com/Dr-Noob/cpufetch/blob/master/doc/DOCUMENTATION_X86.md).
+
+At the beginning of execution, cpufetch needs to know the max standard CPUID level and max CPUID extended level supported in the running CPU. We also need to know if the x86 CPU is Intel or AMD because sometimes, the way to obtain the information depends on the manufacturer. This information will be stored in:
+
+```
+struct cpuInfo {
+  ...
+  VENDOR cpu_vendor;
+  uint32_t maxLevels;  
+  uint32_t maxExtendedLevels;
+  ...
+};
+```
+
+To use any CPUID leaf, cpufetch always needs to check that it is supported in the current CPU.
+
+##### 1.2 Basics (ARM)
+In ARM, __cpufetch works using the MIDR register and Linux filesystem__. MIDR (Main ID Register) is read from `/proc/cpuinfo`. It allows the detection of the microarchitecture of the cores. Furthermore, Linux filesystem `/sys/devices/system/cpu/` is used to fetch the number of cores and other information. This is the main reason to explain __why `cpufetch` for ARM only works on Linux systems.__
+
+##### 1.3 Basics (PowerPC)
+In PowerPC, __cpufetch works using the PVR register and Linux filesystem__. PVR (Processor Version Register) is read using assembly and it is used to identify the microarchitecture of the CPU. Linux is also used to query the rest of the information, like the CPU topology, frequency, etc. This is the main reason to explain __why `cpufetch` for PowerPC only works on Linux systems.__
+
+##### 1.4 Documentation organization
+The rest of the documentation is divided in specific files for each architecture, since each one needs different implementations:
+
+- [DOCUMENTATION_ARM.md](https://github.com/Dr-Noob/cpufetch/blob/master/doc/DOCUMENTATION_ARM.md)
+- [DOCUMENTATION_PPC.md](https://github.com/Dr-Noob/cpufetch/blob/master/doc/DOCUMENTATION_PPC.md)
+- [DOCUMENTATION_X86.md](https://github.com/Dr-Noob/cpufetch/blob/master/doc/DOCUMENTATION_X86.md)

src/args.c

@@ -1,134 +0,0 @@
-#include <getopt.h>
-#include <stdio.h>
-#include <string.h>
-#include "args.h"
-
-#define ARG_STR_STYLE    "style"
-#define ARG_STR_HELP     "help"
-#define ARG_STR_LEVELS   "levels"
-#define ARG_STR_VERSION  "version"
-#define ARG_CHAR_STYLE    's'
-#define ARG_CHAR_HELP     'h'
-#define ARG_CHAR_LEVELS   'l'
-#define ARG_CHAR_VERSION  'v'
-#define STYLE_STR_1 "default"
-#define STYLE_STR_2 "dark"
-#define STYLE_STR_3 "none"
-
-struct args_struct {
-  bool levels_flag;
-  bool help_flag;
-  bool version_flag;
-  STYLE style;
-};
-
-static const char* SYTLES_STR_LIST[STYLES_COUNT] = { STYLE_STR_1, STYLE_STR_2, STYLE_STR_3 };
-static struct args_struct args;
-
-STYLE parse_style(char* style) {
-  int i = 0;
-  while(i != STYLES_COUNT && strcmp(SYTLES_STR_LIST[i],style) != 0)
-    i++;
-
-  if(i == STYLES_COUNT)
-    return STYLE_INVALID;
-  return i;
-}
-
-STYLE get_style() {
-  return args.style;
-}
-
-bool show_help() {
-  return args.help_flag;
-}
-
-bool show_version() {
-  return args.version_flag;
-}
-
-bool show_levels() {
-  return args.levels_flag;
-}
-
-bool verbose_enabled() {
-  return false;
-}
-
-bool parse_args(int argc, char* argv[]) {
-  int c;
-  int digit_optind = 0;
-  int option_index = 0;
-  opterr = 0;
-
-  args.levels_flag = false;
-  args.help_flag = false;
-  args.style = STYLE_EMPTY;
-
-  static struct option long_options[] = {
-      {ARG_STR_STYLE,    required_argument, 0, ARG_CHAR_STYLE   },
-      {ARG_STR_HELP,     no_argument,       0, ARG_CHAR_HELP    },
-      {ARG_STR_LEVELS,   no_argument,       0, ARG_CHAR_LEVELS  },
-      {ARG_STR_VERSION,  no_argument,       0, ARG_CHAR_VERSION },
-      {0, 0, 0, 0}
-  };
-
-  c = getopt_long(argc, argv,"",long_options, &option_index);
-
-  while (c != -1) {
-     if(c == ARG_CHAR_STYLE) {
-       if(args.style != STYLE_EMPTY) {
-         printf("ERROR: Style option specified more than once\n");
-         return false;
-       }
-       args.style = parse_style(optarg);
-       if(args.style == STYLE_INVALID) {
-          printf("ERROR: Invalid style '%s'\n",optarg);
-          return false;
-       }
-     }
-     else if(c == ARG_CHAR_HELP) {
-       if(args.help_flag) {
-         printf("ERROR: Help option specified more than once\n");
-         return false;
-       }
-       args.help_flag  = true;
-     }
-     else if(c == ARG_CHAR_LEVELS) {
-       if(args.levels_flag) {
-         printf("ERROR: Levels option specified more than once\n");
-         return false;
-       }
-       args.levels_flag  = true;
-     }
-     else if (c == ARG_CHAR_VERSION) {
-       if(args.version_flag) {
-         printf("ERROR: Version option specified more than once\n");
-         return false;
-       }
-       args.version_flag = true;
-     }
-     else if(c == '?') {
-       printf("WARNING: Invalid options\n");
-       args.help_flag  = true;
-       break;
-     }
-     else
-      printf("Bug at line number %d in file %s\n", __LINE__, __FILE__);
-
-    option_index = 0;
-    c = getopt_long(argc, argv,"",long_options, &option_index);
-  }
-
-  if (optind < argc) {
-    printf("WARNING: Invalid options\n");
-    args.help_flag  = true;
-  }
-
-  if((args.help_flag + args.version_flag + (args.style != STYLE_EMPTY)) > 1) {
-    printf("WARNING: You should specify just one option\n");
-    args.help_flag  = true;
-  }
-
-  return true;
-}

src/args.h

@@ -1,14 +0,0 @@
-#ifndef __ARGS__
-#define __ARGS__
-
-#include <stdbool.h>
-#include "printer.h"
-
-bool parse_args(int argc, char* argv[]);
-STYLE get_style();
-bool show_help();
-bool show_levels();
-bool show_version();
-bool verbose_enabled();
-
-#endif

src/arm/midr.c

@@ -0,0 +1,444 @@
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <assert.h>
+#include <stdbool.h>
+#include <errno.h>
+
+#ifdef __linux__
+  #include <sys/auxv.h>
+  #include <asm/hwcap.h>
+#elif defined __APPLE__ || __MACH__
+  #include "sysctl.h"
+#endif
+
+#include "../common/global.h"
+#include "udev.h"
+#include "midr.h"
+#include "uarch.h"
+#include "soc.h"
+
+bool cores_are_equal(int c1pos, int c2pos, uint32_t* midr_array, int32_t* freq_array) {
+  return midr_array[c1pos] == midr_array[c2pos] && freq_array[c1pos] == freq_array[c2pos];
+}
+
+struct cache* get_cache_info(struct cpuInfo* cpu) {
+  struct cache* cach = emalloc(sizeof(struct cache));
+  init_cache_struct(cach);
+
+  cach->max_cache_level = 2;
+  for(int i=0; i < cach->max_cache_level + 1; i++) {
+    cach->cach_arr[i]->exists = true;
+    cach->cach_arr[i]->num_caches = 1;
+    cach->cach_arr[i]->size = 0;
+  }
+
+  return cach;
+}
+
+struct frequency* get_frequency_info(uint32_t core) {
+  struct frequency* freq = emalloc(sizeof(struct frequency));
+
+  freq->base = UNKNOWN_DATA;
+  freq->max = get_max_freq_from_file(core);
+
+  return freq;
+}
+
+struct topology* get_topology_info(struct cpuInfo* cpu, struct cache* cach, uint32_t* midr_array, int32_t* freq_array, int socket_idx, int ncores) {
+  struct topology* topo = emalloc(sizeof(struct topology));
+  init_topology_struct(topo, cach);
+
+  int sockets_seen = 0;
+  int first_core_idx = 0;
+  int currrent_core_idx = 0;
+  int cores_in_socket = 0;
+
+  while(socket_idx + 1 > sockets_seen) {
+    if(currrent_core_idx < ncores && cores_are_equal(first_core_idx, currrent_core_idx, midr_array, freq_array)) {
+      currrent_core_idx++;
+      cores_in_socket++;
+    }
+    else {
+      topo->total_cores = cores_in_socket;
+      cores_in_socket = 0;
+      first_core_idx = currrent_core_idx;
+      sockets_seen++;
+    }
+  }
+
+  return topo;
+}
+
+int64_t get_peak_performance(struct cpuInfo* cpu) {
+  struct cpuInfo* ptr = cpu;
+
+  //First check we have consistent data
+  for(int i=0; i < cpu->num_cpus; ptr = ptr->next_cpu, i++) {
+    if(get_freq(ptr->freq) == UNKNOWN_DATA) {
+      return -1;
+    }
+  }
+
+  int64_t flops = 0;
+
+  ptr = cpu;
+  for(int i=0; i < cpu->num_cpus; ptr = ptr->next_cpu, i++) {
+    flops += ptr->topo->total_cores * (get_freq(ptr->freq) * 1000000);
+  }
+  if(cpu->feat->NEON) flops = flops * 4;
+
+  return flops;
+}
+
+uint32_t fill_ids_from_midr(uint32_t* midr_array, int32_t* freq_array, uint32_t* ids_array, int len) {
+  uint32_t latest_id = 0;
+  bool found;
+  ids_array[0] = latest_id;
+
+  for (int i = 1; i < len; i++) {
+    int j = 0;
+    found = false;
+
+    for (j = 0; j < len && !found; j++) {
+      if (i != j && cores_are_equal(i, j, midr_array, freq_array)) {
+        if(j > i) {
+          latest_id++;
+          ids_array[i] = latest_id;
+        }
+        else {
+          ids_array[i] = ids_array[j];
+        }
+        found = true;
+      }
+    }
+    if(!found) {
+      latest_id++;
+      ids_array[i] = latest_id;
+    }
+  }
+
+  return latest_id+1;
+}
+
+void init_cpu_info(struct cpuInfo* cpu) {
+  cpu->next_cpu = NULL;
+}
+
+// We assume all cpus share the same hardware
+// capabilities but I'm not sure it is always
+// true...
+// ARM32 https://elixir.bootlin.com/linux/latest/source/arch/arm/include/uapi/asm/hwcap.h
+// ARM64 https://elixir.bootlin.com/linux/latest/source/arch/arm64/include/uapi/asm/hwcap.h
+struct features* get_features_info() {
+  struct features* feat = emalloc(sizeof(struct features));
+  bool *ptr = &(feat->AES);
+  for(uint32_t i = 0; i < sizeof(struct features)/sizeof(bool); i++, ptr++) {
+    *ptr = false;
+  }
+
+#ifdef __linux__
+  errno = 0;
+  long hwcaps = getauxval(AT_HWCAP);
+
+  if(errno == ENOENT) {
+    printWarn("Unable to retrieve AT_HWCAP using getauxval");
+  }
+#ifdef __aarch64__
+  else {
+    feat->AES = hwcaps & HWCAP_AES;
+    feat->CRC32 = hwcaps & HWCAP_CRC32;
+    feat->SHA1 = hwcaps & HWCAP_SHA1;
+    feat->SHA2 = hwcaps & HWCAP_SHA2;
+    feat->NEON = hwcaps & HWCAP_ASIMD;
+  }
+#else
+  else {
+    feat->NEON = hwcaps & HWCAP_NEON;
+  }
+
+  hwcaps = getauxval(AT_HWCAP2);
+  if(errno == ENOENT) {
+    printWarn("Unable to retrieve AT_HWCAP2 using getauxval");
+  }
+  else {
+    feat->AES = hwcaps & HWCAP2_AES;
+    feat->CRC32 = hwcaps & HWCAP2_CRC32;
+    feat->SHA1 = hwcaps & HWCAP2_SHA1;
+    feat->SHA2 = hwcaps & HWCAP2_SHA2;
+  }
+#endif // ifdef __aarch64__
+#elif defined __APPLE__ || __MACH__
+  // Must be M1
+  feat->AES = true;
+  feat->CRC32 = true;
+  feat->SHA1 = true;
+  feat->SHA2 = true;
+  feat->NEON = true;
+#endif  // ifdef __linux__
+
+  return feat;
+}
+
+#ifdef __linux__
+struct cpuInfo* get_cpu_info_linux(struct cpuInfo* cpu) {
+  init_cpu_info(cpu);
+  int ncores = get_ncores_from_cpuinfo();
+  bool success = false;
+  int32_t* freq_array = emalloc(sizeof(uint32_t) * ncores);
+  uint32_t* midr_array = emalloc(sizeof(uint32_t) * ncores);
+  uint32_t* ids_array = emalloc(sizeof(uint32_t) * ncores);
+
+  for(int i=0; i < ncores; i++) {
+    midr_array[i] = get_midr_from_cpuinfo(i, &success);
+
+    if(!success) {
+      printWarn("Unable to fetch MIDR for core %d. This is probably because the core is offline", i);
+      midr_array[i] = midr_array[0];
+    }
+
+    freq_array[i] = get_max_freq_from_file(i);
+    if(freq_array[i] == UNKNOWN_DATA) {
+      printWarn("Unable to fetch max frequency for core %d. This is probably because the core is offline", i);
+      freq_array[i] = freq_array[0];
+    }
+  }
+  uint32_t sockets = fill_ids_from_midr(midr_array, freq_array, ids_array, ncores);
+
+  struct cpuInfo* ptr = cpu;
+  int midr_idx = 0;
+  int tmp_midr_idx = 0;
+  for(uint32_t i=0; i < sockets; i++) {
+    if(i > 0) {
+      ptr->next_cpu = emalloc(sizeof(struct cpuInfo));
+      ptr = ptr->next_cpu;
+      init_cpu_info(ptr);
+
+      tmp_midr_idx = midr_idx;
+      while(cores_are_equal(midr_idx, tmp_midr_idx, midr_array, freq_array)) tmp_midr_idx++;
+      midr_idx = tmp_midr_idx;
+    }
+
+    ptr->midr = midr_array[midr_idx];
+    ptr->arch = get_uarch_from_midr(ptr->midr, ptr);
+
+    ptr->feat = get_features_info();
+    ptr->freq = get_frequency_info(midr_idx);
+    ptr->cach = get_cache_info(ptr);
+    ptr->topo = get_topology_info(ptr, ptr->cach, midr_array, freq_array, i, ncores);
+  }
+
+  cpu->num_cpus = sockets;
+  cpu->hv = emalloc(sizeof(struct hypervisor));
+  cpu->hv->present = false;
+  cpu->soc = get_soc();
+  cpu->peak_performance = get_peak_performance(cpu);
+
+  return cpu;
+}
+
+#elif defined __APPLE__ || __MACH__
+void fill_cpu_info_firestorm_icestorm(struct cpuInfo* cpu, uint32_t pcores, uint32_t ecores) {
+  // 1. Fill ICESTORM
+  struct cpuInfo* ice = cpu;
+
+  ice->midr = MIDR_APPLE_M1_ICESTORM;
+  ice->arch = get_uarch_from_midr(ice->midr, ice);
+  ice->cach = get_cache_info(ice);
+  ice->feat = get_features_info();
+  ice->topo = malloc(sizeof(struct topology));
+  ice->topo->cach = ice->cach;
+  ice->topo->total_cores = ecores;
+  ice->freq = malloc(sizeof(struct frequency));
+  ice->freq->base = UNKNOWN_DATA;
+  ice->freq->max = 2064;
+  ice->hv = malloc(sizeof(struct hypervisor));
+  ice->hv->present = false;
+  ice->next_cpu = malloc(sizeof(struct cpuInfo));
+
+  // 2. Fill FIRESTORM
+  struct cpuInfo* fire = ice->next_cpu;
+  fire->midr = MIDR_APPLE_M1_FIRESTORM;
+  fire->arch = get_uarch_from_midr(fire->midr, fire);
+  fire->cach = get_cache_info(fire);
+  fire->feat = get_features_info();
+  fire->topo = malloc(sizeof(struct topology));
+  fire->topo->cach = fire->cach;
+  fire->topo->total_cores = pcores;
+  fire->freq = malloc(sizeof(struct frequency));
+  fire->freq->base = UNKNOWN_DATA;
+  fire->freq->max = 3200;
+  fire->hv = malloc(sizeof(struct hypervisor));
+  fire->hv->present = false;
+  fire->next_cpu = NULL;
+}
+
+void fill_cpu_info_avalanche_blizzard(struct cpuInfo* cpu, uint32_t pcores, uint32_t ecores) {
+  // 1. Fill BLIZZARD
+  struct cpuInfo* bli = cpu;
+
+  bli->midr = MIDR_APPLE_M2_BLIZZARD;
+  bli->arch = get_uarch_from_midr(bli->midr, bli);
+  bli->cach = get_cache_info(bli);
+  bli->feat = get_features_info();
+  bli->topo = malloc(sizeof(struct topology));
+  bli->topo->cach = bli->cach;
+  bli->topo->total_cores = pcores;
+  bli->freq = malloc(sizeof(struct frequency));
+  bli->freq->base = UNKNOWN_DATA;
+  bli->freq->max = 2800;
+  bli->hv = malloc(sizeof(struct hypervisor));
+  bli->hv->present = false;
+  bli->next_cpu = malloc(sizeof(struct cpuInfo));
+
+  // 2. Fill AVALANCHE
+  struct cpuInfo* ava = bli->next_cpu;
+  ava->midr = MIDR_APPLE_M2_AVALANCHE;
+  ava->arch = get_uarch_from_midr(ava->midr, ava);
+  ava->cach = get_cache_info(ava);
+  ava->feat = get_features_info();
+  ava->topo = malloc(sizeof(struct topology));
+  ava->topo->cach = ava->cach;
+  ava->topo->total_cores = ecores;
+  ava->freq = malloc(sizeof(struct frequency));
+  ava->freq->base = UNKNOWN_DATA;
+  ava->freq->max = 3500;
+  ava->hv = malloc(sizeof(struct hypervisor));
+  ava->hv->present = false;
+  ava->next_cpu = NULL;
+}
+
+struct cpuInfo* get_cpu_info_mach(struct cpuInfo* cpu) {
+  uint32_t cpu_family = get_sys_info_by_name("hw.cpufamily");
+
+  // Manually fill the cpuInfo assuming that
+  // the CPU is an Apple M1/M2
+  if(cpu_family == CPUFAMILY_ARM_FIRESTORM_ICESTORM) {
+    cpu->num_cpus = 2;
+    // Now detect the M1 version
+    uint32_t cpu_subfamily = get_sys_info_by_name("hw.cpusubfamily");
+    if(cpu_subfamily == CPUSUBFAMILY_ARM_HG) {
+      // Apple M1
+      fill_cpu_info_firestorm_icestorm(cpu, 4, 4);
+    }
+    else if(cpu_subfamily == CPUSUBFAMILY_ARM_HS || cpu_subfamily == CPUSUBFAMILY_ARM_HC_HD) {
+      // Apple M1 Pro/Max/Ultra. Detect number of cores
+      uint32_t physicalcpu = get_sys_info_by_name("hw.physicalcpu");
+      if(physicalcpu == 20) {
+        // M1 Ultra
+        fill_cpu_info_firestorm_icestorm(cpu, 16, 4);
+      }
+      else if(physicalcpu == 8 || physicalcpu == 10) {
+        // M1 Pro/Max
+        fill_cpu_info_firestorm_icestorm(cpu, physicalcpu-2, 2);
+      }
+      else {
+        printBug("Found invalid physical cpu number: %d", physicalcpu);
+        return NULL;
+      }
+    }
+    else {
+      printBug("Found invalid cpu_subfamily: 0x%.8X", cpu_subfamily);
+      return NULL;
+    }
+    cpu->soc = get_soc();
+    cpu->peak_performance = get_peak_performance(cpu);
+  }
+  else if(cpu_family == CPUFAMILY_ARM_AVALANCHE_BLIZZARD) {
+    // Just the "normal" M2 exists for now
+    cpu->num_cpus = 2;
+    fill_cpu_info_avalanche_blizzard(cpu, 4, 4);
+    cpu->soc = get_soc();
+    cpu->peak_performance = get_peak_performance(cpu);
+  }
+  else {
+    printBug("Found invalid cpu_family: 0x%.8X", cpu_family);
+    return NULL;
+  }
+
+  return cpu;
+}
+#endif
+
+struct cpuInfo* get_cpu_info() {
+  struct cpuInfo* cpu = malloc(sizeof(struct cpuInfo));
+  init_cpu_info(cpu);
+
+  #ifdef __linux__
+    return get_cpu_info_linux(cpu);
+  #elif defined __APPLE__ || __MACH__
+    return get_cpu_info_mach(cpu);
+  #endif
+}
+
+char* get_str_topology(struct cpuInfo* cpu, struct topology* topo, bool dual_socket) {
+  uint32_t size = 3+7+1;
+  char*  string = emalloc(sizeof(char)*size);
+  snprintf(string, size, "%d cores", topo->total_cores);
+
+  return string;
+}
+
+char* get_str_features(struct cpuInfo* cpu) {
+  struct features* feat = cpu->feat;
+  uint32_t max_len = strlen("NEON,SHA1,SHA2,AES,CRC32,") + 1;
+  uint32_t len = 0;
+  char* string = ecalloc(max_len, sizeof(char));
+
+  if(feat->NEON) {
+    strcat(string, "NEON,");
+    len += 5;
+  }
+  if(feat->SHA1) {
+    strcat(string, "SHA1,");
+    len += 5;
+  }
+  if(feat->SHA2) {
+    strcat(string, "SHA2,");
+    len += 5;
+  }
+  if(feat->AES) {
+    strcat(string, "AES,");
+    len += 4;
+  }
+  if(feat->CRC32) {
+    strcat(string, "CRC32,");
+    len += 6;
+  }
+
+  if(len > 0) {
+    string[len-1] = '\0';
+    return string;
+  }
+  else
+    return NULL;
+}
+
+void print_debug(struct cpuInfo* cpu) {
+  int ncores = get_ncores_from_cpuinfo();
+  bool success = false;
+
+  for(int i=0; i < ncores; i++) {
+    printf("[Core %d] ", i);
+    long freq = get_max_freq_from_file(i);
+    uint32_t midr = get_midr_from_cpuinfo(i, &success);
+    if(!success) {
+      printWarn("Unable to fetch MIDR for core %d. This is probably because the core is offline", i);
+      printf("0x%.8X ", get_midr_from_cpuinfo(0, &success));
+    }
+    else {
+      printf("0x%.8X ", midr);
+    }
+    if(freq == UNKNOWN_DATA) {
+      printWarn("Unable to fetch max frequency for core %d. This is probably because the core is offline", i);
+      printf("%ld MHz\n", get_max_freq_from_file(0));
+    }
+    else {
+      printf("%ld MHz\n", freq);
+    }
+  }
+}
+
+void free_topo_struct(struct topology* topo) {
+  free(topo);
+}

src/arm/midr.h

@@ -0,0 +1,69 @@
+#ifndef __MIDR__
+#define __MIDR__
+
+#include "../common/cpu.h"
+
+struct cpuInfo* get_cpu_info();
+
+uint32_t get_nsockets(struct topology* topo);
+char* get_str_topology(struct cpuInfo* cpu, struct topology* topo, bool dual_socket);
+char* get_str_features(struct cpuInfo* cpu);
+
+void print_debug(struct cpuInfo* cpu);
+void free_topo_struct(struct topology* topo);
+
+// Code taken from cpuinfo (https://github.com/pytorch/cpuinfo/blob/master/src/arm/midr.h)
+#define CPUINFO_ARM_MIDR_IMPLEMENTER_MASK  UINT32_C(0xFF000000)
+#define CPUINFO_ARM_MIDR_VARIANT_MASK      UINT32_C(0x00F00000)
+#define CPUINFO_ARM_MIDR_ARCHITECTURE_MASK UINT32_C(0x000F0000)
+#define CPUINFO_ARM_MIDR_PART_MASK         UINT32_C(0x0000FFF0)
+#define CPUINFO_ARM_MIDR_REVISION_MASK     UINT32_C(0x0000000F)
+
+#define CPUINFO_ARM_MIDR_IMPLEMENTER_OFFSET  24
+#define CPUINFO_ARM_MIDR_VARIANT_OFFSET      20
+#define CPUINFO_ARM_MIDR_ARCHITECTURE_OFFSET 16
+#define CPUINFO_ARM_MIDR_PART_OFFSET          4
+#define CPUINFO_ARM_MIDR_REVISION_OFFSET      0
+
+inline static uint32_t midr_set_implementer(uint32_t midr, uint32_t implementer) {
+        return (midr & ~CPUINFO_ARM_MIDR_IMPLEMENTER_MASK) |
+                ((implementer << CPUINFO_ARM_MIDR_IMPLEMENTER_OFFSET) & CPUINFO_ARM_MIDR_IMPLEMENTER_MASK);
+}
+
+inline static uint32_t midr_set_variant(uint32_t midr, uint32_t variant) {
+        return (midr & ~CPUINFO_ARM_MIDR_VARIANT_MASK) |
+                ((variant << CPUINFO_ARM_MIDR_VARIANT_OFFSET) & CPUINFO_ARM_MIDR_VARIANT_MASK);
+}
+
+inline static uint32_t midr_set_architecture(uint32_t midr, uint32_t architecture) {
+        return (midr & ~CPUINFO_ARM_MIDR_ARCHITECTURE_MASK) |
+                ((architecture << CPUINFO_ARM_MIDR_ARCHITECTURE_OFFSET) & CPUINFO_ARM_MIDR_ARCHITECTURE_MASK);
+}
+
+inline static uint32_t midr_set_part(uint32_t midr, uint32_t part) {
+        return (midr & ~CPUINFO_ARM_MIDR_PART_MASK) |
+                ((part << CPUINFO_ARM_MIDR_PART_OFFSET) & CPUINFO_ARM_MIDR_PART_MASK);
+}
+
+inline static uint32_t midr_set_revision(uint32_t midr, uint32_t revision) {
+        return (midr & ~CPUINFO_ARM_MIDR_REVISION_MASK) |
+                ((revision << CPUINFO_ARM_MIDR_REVISION_OFFSET) & CPUINFO_ARM_MIDR_REVISION_MASK);
+}
+
+inline static uint32_t midr_get_variant(uint32_t midr) {
+	return (midr & CPUINFO_ARM_MIDR_VARIANT_MASK) >> CPUINFO_ARM_MIDR_VARIANT_OFFSET;
+}
+
+inline static uint32_t midr_get_implementer(uint32_t midr) {
+	return (midr & CPUINFO_ARM_MIDR_IMPLEMENTER_MASK) >> CPUINFO_ARM_MIDR_IMPLEMENTER_OFFSET;
+}
+
+inline static uint32_t midr_get_part(uint32_t midr) {
+	return (midr & CPUINFO_ARM_MIDR_PART_MASK) >> CPUINFO_ARM_MIDR_PART_OFFSET;
+}
+
+inline static uint32_t midr_get_revision(uint32_t midr) {
+	return (midr & CPUINFO_ARM_MIDR_REVISION_MASK) >> CPUINFO_ARM_MIDR_REVISION_OFFSET;
+}
+
+#endif

src/arm/soc.c

@@ -0,0 +1,772 @@
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "soc.h"
+#include "socs.h"
+#include "udev.h"
+#include "../common/global.h"
+
+#if defined(__APPLE__) || defined(__MACH__)
+  #include "sysctl.h"
+#endif
+
+#define min(a,b) (((a)<(b))?(a):(b))
+#define ARRAY_SIZE(arr)     (sizeof(arr) / sizeof((arr)[0]))
+
+static char* soc_trademark_string[] = {
+  [SOC_VENDOR_SNAPDRAGON] = "Snapdragon ",
+  [SOC_VENDOR_MEDIATEK]   = "MediaTek ",
+  [SOC_VENDOR_EXYNOS]     = "Exynos ",
+  [SOC_VENDOR_KIRIN]      = "Kirin ",
+  [SOC_VENDOR_BROADCOM]   = "Broadcom BCM",
+  [SOC_VENDOR_APPLE]      = "Apple ",
+  [SOC_VENDOR_ALLWINNER]  = "Allwinner "
+};
+
+static char* soc_rpi_string[] = {
+  "BCM2835",
+  "BCM2836",
+  "BCM2837",
+  "BCM2711"
+};
+
+void fill_soc(struct system_on_chip* soc, char* soc_name, SOC soc_model, int32_t process) {
+  soc->soc_model = soc_model;
+  soc->soc_vendor = get_soc_vendor_from_soc(soc_model);
+  soc->process = process;
+  int len = strlen(soc_name) + strlen(soc_trademark_string[soc->soc_vendor]) + 1;
+  soc->soc_name = emalloc(sizeof(char) * len);
+  memset(soc->soc_name, 0, sizeof(char) * len);
+  sprintf(soc->soc_name, "%s%s", soc_trademark_string[soc->soc_vendor], soc_name);
+}
+
+bool match_soc(struct system_on_chip* soc, char* raw_name, char* expected_name, char* soc_name, SOC soc_model, int32_t process) {
+  int len1 = strlen(raw_name);
+  int len2 = strlen(expected_name);
+  int len = min(len1, len2);
+
+  if(strncmp(raw_name, expected_name, len) != 0) {
+    return false;
+  }
+  else {
+    fill_soc(soc, soc_name, soc_model, process);
+    return true;
+  }
+}
+
+char* toupperstr(char* str) {
+  int len = strlen(str) + 1;
+  char* ret = emalloc(sizeof(char) * len);
+  memset(ret, 0, sizeof(char) * len);
+
+  for(int i=0; i < len; i++) {
+    ret[i] = toupper((unsigned char) str[i]);
+  }
+
+  return ret;
+}
+
+#define SOC_START if (false) {}
+#define SOC_EQ(raw_name, expected_name, soc_name, soc_model, soc, process) \
+   else if (match_soc(soc, raw_name, expected_name, soc_name, soc_model, process)) return true;
+#define SOC_END else { return false; }
+// Exynos special define
+#define SOC_EXY_EQ(raw_name, tmpsoc, soc_name, soc_model, soc, process)             \
+   sprintf(tmpsoc, "exynos%s", soc_name);                                           \
+   if (match_soc(soc, raw_name, tmpsoc, soc_name, soc_model, process)) return true; \
+   sprintf(tmpsoc, "universal%s", soc_name);                                        \
+   if (match_soc(soc, raw_name, tmpsoc, soc_name, soc_model, process)) return true;
+
+// https://en.wikipedia.org/wiki/Raspberry_Pi
+// http://phonedb.net/index.php?m=processor&id=562&c=broadcom_bcm21663
+// https://hwbot.org/hardware/processors#key=bcmxxx
+bool match_broadcom(char* soc_name, struct system_on_chip* soc) {
+  char* tmp;
+
+  if((tmp = strstr(soc_name, "BCM")) == NULL)
+    return false;
+
+  SOC_START
+  SOC_EQ(tmp, "BCM2835",              "2835",              SOC_BCM_2835,   soc, 65)
+  SOC_EQ(tmp, "BCM2836",              "2836",              SOC_BCM_2836,   soc, 40)
+  SOC_EQ(tmp, "BCM2837",              "2837",              SOC_BCM_2837,   soc, 40)
+  SOC_EQ(tmp, "BCM2837B0",            "2837B0",            SOC_BCM_2837B0, soc, 40)
+  SOC_EQ(tmp, "BCM2711",              "2711",              SOC_BCM_2711,   soc, 28)
+  SOC_EQ(tmp, "BCM21553",             "21553",             SOC_BCM_21553,  soc, 65)
+  SOC_EQ(tmp, "BCM21553-Thunderbird", "21553 Thunderbird", SOC_BCM_21553T, soc, 65)
+  SOC_EQ(tmp, "BCM21663",             "21663",             SOC_BCM_21663,  soc, 40)
+  SOC_EQ(tmp, "BCM21664",             "21664",             SOC_BCM_21664,  soc, 40)
+  SOC_EQ(tmp, "BCM28155",             "28155",             SOC_BCM_28155,  soc, 40)
+  SOC_EQ(tmp, "BCM23550",             "23550",             SOC_BCM_23550,  soc, 40)
+  SOC_EQ(tmp, "BCM28145",             "28145",             SOC_BCM_28145,  soc, 40)
+  SOC_EQ(tmp, "BCM2157",              "2157",              SOC_BCM_2157,   soc, 65)
+  SOC_EQ(tmp, "BCM21654",             "21654",             SOC_BCM_21654,  soc, 40)
+  SOC_END
+}
+
+// https://www.techinsights.com/
+// https://datasheetspdf.com/pdf-file/1316605/HiSilicon/Hi3660/1
+bool match_hisilicon(char* soc_name, struct system_on_chip* soc) {
+  char* tmp;
+
+  if((tmp = strstr(soc_name, "Hi")) == NULL)
+    return false;
+
+  SOC_START
+  SOC_EQ(tmp, "Hi3620GFC",  "K3V2",  SOC_HISILICON_3620, soc, 40)
+  //SOC_EQ(tmp, "?",        "K3V2E", SOC_KIRIN, soc,  ?)
+  //SOC_EQ(tmp, "?",        "620",   SOC_KIRIN, soc, 28)
+  //SOC_EQ(tmp, "?",        "650",   SOC_KIRIN, soc, 16)
+  //SOC_EQ(tmp, "?",        "655",   SOC_KIRIN, soc, 16)
+  //SOC_EQ(tmp, "?",        "658",   SOC_KIRIN, soc, 16)
+  //SOC_EQ(tmp, "?",        "659",   SOC_KIRIN, soc, 16)
+  //SOC_EQ(tmp, "?",        "710",   SOC_KIRIN, soc, 12)
+  //SOC_EQ(tmp, "?",        "710A",  SOC_KIRIN, soc, 12)
+  //SOC_EQ(tmp, "?",        "710F",  SOC_KIRIN, soc, 12)
+  //SOC_EQ(tmp, "?",        "810",   SOC_KIRIN, soc,  7)
+  //SOC_EQ(tmp, "?",        "820",   SOC_KIRIN, soc,  7)
+  //SOC_EQ(tmp, "?",        "9000",  SOC_KIRIN, soc,  5)
+  //SOC_EQ(tmp, "?",        "9000E", SOC_KIRIN, soc,  5)
+  //SOC_EQ(tmp, "?",        "910",   SOC_KIRIN, soc, 28)
+  //SOC_EQ(tmp, "?",        "910T",  SOC_KIRIN, soc, 28)
+  SOC_EQ(tmp, "Hi3630",     "920",   SOC_HISILICON_3630, soc, 28)
+  //SOC_EQ(tmp, "?",        "925",   SOC_KIRIN, soc, 28)
+  //SOC_EQ(tmp, "?",        "930",   SOC_KIRIN, soc, ?)
+  //SOC_EQ(tmp, "?",        "935",   SOC_KIRIN, soc, ?)
+  SOC_EQ(tmp, "Hi3650",     "950",   SOC_HISILICON_3650, soc, 16)
+  //SOC_EQ(tmp, "?",        "955",   SOC_KIRIN, soc, ?)
+  SOC_EQ(tmp, "Hi3660",     "960",   SOC_HISILICON_3660, soc, 16)
+  //SOC_EQ(tmp, "?",        "960S",  SOC_KIRIN, soc, 16)
+  SOC_EQ(tmp, "Hi3670",     "970",   SOC_HISILICON_3670, soc, 10)
+  SOC_EQ(tmp, "Hi3680",     "980",   SOC_HISILICON_3680, soc,  7)
+  //SOC_EQ(tmp, "?",        "985",   SOC_KIRIN, soc,  7)
+  SOC_EQ(tmp, "Hi3690",     "990",   SOC_HISILICON_3690, soc,  7)
+  SOC_END
+}
+
+bool match_exynos(char* soc_name, struct system_on_chip* soc) {
+  char* tmp;
+
+  if((tmp = strstr(soc_name, "universal")) != NULL);
+  else if((tmp = strstr(soc_name, "exynos")) != NULL);
+  else return false;
+
+  // Because exynos are recently using "exynosXXXX" instead
+  // of "universalXXXX" as codenames, SOC_EXY_EQ will check for
+  // both cases, since it seems that there are some SoCs that
+  // can appear with both codenames
+
+  // Used by SOC_EXY_EQ
+  char tmpsoc[14];
+
+  SOC_START
+  SOC_EXY_EQ(tmp, tmpsoc, "3475", SOC_EXYNOS_3475, soc, 28)
+  SOC_EXY_EQ(tmp, tmpsoc, "4210", SOC_EXYNOS_4210, soc, 45)
+  SOC_EXY_EQ(tmp, tmpsoc, "4212", SOC_EXYNOS_4212, soc, 32)
+  SOC_EXY_EQ(tmp, tmpsoc, "4412", SOC_EXYNOS_4412, soc, 32)
+  SOC_EXY_EQ(tmp, tmpsoc, "5250", SOC_EXYNOS_5250, soc, 32)
+  SOC_EXY_EQ(tmp, tmpsoc, "5410", SOC_EXYNOS_5410, soc, 28)
+  SOC_EXY_EQ(tmp, tmpsoc, "5420", SOC_EXYNOS_5420, soc, 28)
+  SOC_EXY_EQ(tmp, tmpsoc, "5422", SOC_EXYNOS_5422, soc, 28)
+  SOC_EXY_EQ(tmp, tmpsoc, "5430", SOC_EXYNOS_5430, soc, 20)
+  SOC_EXY_EQ(tmp, tmpsoc, "5433", SOC_EXYNOS_5433, soc, 20)
+  SOC_EXY_EQ(tmp, tmpsoc, "5260", SOC_EXYNOS_5260, soc, 28)
+  SOC_EXY_EQ(tmp, tmpsoc, "7270", SOC_EXYNOS_7270, soc, 14)
+  SOC_EXY_EQ(tmp, tmpsoc, "7420", SOC_EXYNOS_7420, soc, 14)
+  SOC_EXY_EQ(tmp, tmpsoc, "7570", SOC_EXYNOS_7570, soc, 14)
+  SOC_EXY_EQ(tmp, tmpsoc, "7570", SOC_EXYNOS_7570, soc, 14)
+  SOC_EXY_EQ(tmp, tmpsoc, "7870", SOC_EXYNOS_7870, soc, 14)
+  SOC_EXY_EQ(tmp, tmpsoc, "7870", SOC_EXYNOS_7870, soc, 14)
+  SOC_EXY_EQ(tmp, tmpsoc, "7872", SOC_EXYNOS_7872, soc, 14)
+  SOC_EXY_EQ(tmp, tmpsoc, "7880", SOC_EXYNOS_7880, soc, 14)
+  SOC_EXY_EQ(tmp, tmpsoc, "7884", SOC_EXYNOS_7884, soc, 14)
+  SOC_EXY_EQ(tmp, tmpsoc, "7885", SOC_EXYNOS_7885, soc, 14)
+  SOC_EXY_EQ(tmp, tmpsoc, "7904", SOC_EXYNOS_7904, soc, 14)
+  SOC_EXY_EQ(tmp, tmpsoc, "8890", SOC_EXYNOS_8890, soc, 14)
+  SOC_EXY_EQ(tmp, tmpsoc, "8895", SOC_EXYNOS_8895, soc, 10)
+  SOC_EXY_EQ(tmp, tmpsoc, "9110", SOC_EXYNOS_9110, soc, 14)
+  SOC_EXY_EQ(tmp, tmpsoc, "9609", SOC_EXYNOS_9609, soc, 10)
+  SOC_EXY_EQ(tmp, tmpsoc, "9610", SOC_EXYNOS_9610, soc, 10)
+  SOC_EXY_EQ(tmp, tmpsoc, "9611", SOC_EXYNOS_9611, soc, 10)
+  SOC_EXY_EQ(tmp, tmpsoc, "9810", SOC_EXYNOS_9810, soc, 10)
+  SOC_EXY_EQ(tmp, tmpsoc, "9820", SOC_EXYNOS_9820, soc,  8)
+  SOC_EXY_EQ(tmp, tmpsoc, "9825", SOC_EXYNOS_9825, soc,  7)
+  SOC_EXY_EQ(tmp, tmpsoc, "1080", SOC_EXYNOS_1080, soc,  5)
+  SOC_EXY_EQ(tmp, tmpsoc, "990",  SOC_EXYNOS_990,  soc,  7)
+  SOC_EXY_EQ(tmp, tmpsoc, "980",  SOC_EXYNOS_980,  soc,  8)
+  SOC_EXY_EQ(tmp, tmpsoc, "880",  SOC_EXYNOS_880,  soc,  8)
+  SOC_END
+}
+
+bool match_mediatek(char* soc_name, struct system_on_chip* soc) {
+  char* tmp;
+  char* soc_name_upper = toupperstr(soc_name);
+
+  if((tmp = strstr(soc_name_upper, "MT")) == NULL)
+    return false;
+
+  SOC_START
+  // Dimensity //
+  SOC_EQ(tmp, "MT6893",   "Dimensity 1200",  SOC_MTK_MT6893,   soc, 6)
+  SOC_EQ(tmp, "MT6891",   "Dimensity 1100",  SOC_MTK_MT6891,   soc, 6)
+  SOC_EQ(tmp, "MT6889",   "Dimensity 1000",  SOC_MTK_MT6889,   soc, 7)
+  SOC_EQ(tmp, "MT6885Z",  "Dimensity 1000L", SOC_MTK_MT6885Z,  soc, 7)
+  //SOC_EQ(tmp, "?",      "Dimensity 700",   SOC_MTK_,         soc, 7)
+  SOC_EQ(tmp, "MT6853",   "Dimensity 720",   SOC_MTK_MT6853,   soc, 7)
+  SOC_EQ(tmp, "MT6873",   "Dimensity 800",   SOC_MTK_MT6873,   soc, 7)
+  SOC_EQ(tmp, "MT6875",   "Dimensity 820",   SOC_MTK_MT6875,   soc, 7)
+  // Helio //
+  SOC_EQ(tmp, "MT6761D",  "Helio A20",       SOC_MTK_MT6761D,  soc, 12)
+  SOC_EQ(tmp, "MT6761",   "Helio A22",       SOC_MTK_MT6761,   soc, 12)
+  SOC_EQ(tmp, "MT6762D",  "Helio A25",       SOC_MTK_MT6762D,  soc, 12)
+  //SOC_EQ(tmp, "?",      "Helio G25",       SOC_MTK_,         soc, 12)
+  //SOC_EQ(tmp, "?",      "Helio G35",       SOC_MTK_,         soc, 12)
+  //SOC_EQ(tmp, "?",      "Helio G70",       SOC_MTK_,         soc, 12)
+  //SOC_EQ(tmp, "?",      "Helio G80",       SOC_MTK_,         soc, 12)
+  //SOC_EQ(tmp, "?",      "Helio G90",       SOC_MTK_,         soc, 12)
+  //SOC_EQ(tmp, "?",      "Helio G90T",      SOC_MTK_,         soc, 12)
+  //SOC_EQ(tmp, "?",      "Helio G95",       SOC_MTK_,         soc, 12)
+  SOC_EQ(tmp, "MT6755",   "Helio P10",       SOC_MTK_MT6755M,  soc, 28)
+  SOC_EQ(tmp, "MT6755M",  "Helio P10 M",     SOC_MTK_MT6755M,  soc, 28)
+  SOC_EQ(tmp, "MT6755T",  "Helio P15",       SOC_MTK_MT6755T,  soc, 28)
+  SOC_EQ(tmp, "MT6757",   "Helio P20",       SOC_MTK_MT6757,   soc, 16)
+  SOC_EQ(tmp, "MT6762",   "Helio P22",       SOC_MTK_MT6762,   soc, 12)
+  SOC_EQ(tmp, "MT6763V",  "Helio P23",       SOC_MTK_MT6763V,  soc, 16)
+  SOC_EQ(tmp, "MT6763T",  "Helio P23",       SOC_MTK_MT6763T,  soc, 16)
+  SOC_EQ(tmp, "MT6757CD", "Helio P25",       SOC_MTK_MT6757CD, soc, 16)
+  SOC_EQ(tmp, "MT6758",   "Helio P30",       SOC_MTK_MT6758,   soc, 16)
+  SOC_EQ(tmp, "MT6765",   "Helio P35",       SOC_MTK_MT6765,   soc, 12)
+  SOC_EQ(tmp, "MT6771",   "Helio P60",       SOC_MTK_MT6771,   soc, 12)
+  SOC_EQ(tmp, "MT6768",   "Helio P65",       SOC_MTK_MT6768,   soc, 12)
+  SOC_EQ(tmp, "MT6771T",  "Helio P70",       SOC_MTK_MT6771,   soc, 12)
+  SOC_EQ(tmp, "MT6771V",  "Helio P70",       SOC_MTK_MT6771,   soc, 12)
+  SOC_EQ(tmp, "MT6779",   "Helio P90",       SOC_MTK_MT6779,   soc, 12)
+  //SOC_EQ(tmp, "?",      "Helio P95",       SOC_MTK_,         soc, 12)
+  SOC_EQ(tmp, "MT6795",   "Helio X10",       SOC_MTK_MT6795,   soc, 28)
+  SOC_EQ(tmp, "MT6795T",  "Helio X10 T",     SOC_MTK_MT6795,   soc, 28)
+  SOC_EQ(tmp, "MT6797",   "Helio X20",       SOC_MTK_MT6797,   soc, 20)
+  SOC_EQ(tmp, "MT6797M",  "Helio X20 M",     SOC_MTK_MT6797,   soc, 20)
+  SOC_EQ(tmp, "MT6797D",  "Helio X23",       SOC_MTK_MT6797,   soc, 20)
+  SOC_EQ(tmp, "MT6797T",  "Helio X25",       SOC_MTK_MT6797T,  soc, 20)
+  SOC_EQ(tmp, "MT6797X",  "Helio X27",       SOC_MTK_MT6797X,  soc, 20)
+  SOC_EQ(tmp, "MT6799",   "Helio X30",       SOC_MTK_MT6799,   soc, 10)
+  // MT XXXX //
+  SOC_EQ(tmp, "MT6515",   "MT6515",          SOC_MTK_MT6515,   soc, 40)
+  SOC_EQ(tmp, "MT6516",   "MT6516",          SOC_MTK_MT6516,   soc, 65)
+  SOC_EQ(tmp, "MT6517",   "MT6517",          SOC_MTK_MT6517,   soc, 40)
+  SOC_EQ(tmp, "MT6572",   "MT6572",          SOC_MTK_MT6572,   soc, 28)
+  SOC_EQ(tmp, "MT6572M",  "MT6572M",         SOC_MTK_MT6572M,  soc, 28)
+  SOC_EQ(tmp, "MT6573",   "MT6573",          SOC_MTK_MT6573,   soc, 65)
+  SOC_EQ(tmp, "MT6575",   "MT6575",          SOC_MTK_MT6575,   soc, 40)
+  SOC_EQ(tmp, "MT6577",   "MT6577",          SOC_MTK_MT6577,   soc, 40)
+  SOC_EQ(tmp, "MT6577T",  "MT6577T",         SOC_MTK_MT6577T,  soc, 40)
+  SOC_EQ(tmp, "MT6580",   "MT6580",          SOC_MTK_MT6580,   soc, 28)
+  SOC_EQ(tmp, "MT6582",   "MT6582",          SOC_MTK_MT6582,   soc, 28)
+  SOC_EQ(tmp, "MT6582M",  "MT6582M",         SOC_MTK_MT6582M,  soc, 28)
+  SOC_EQ(tmp, "MT6589",   "MT6589",          SOC_MTK_MT6589,   soc, 28)
+  SOC_EQ(tmp, "MT6589T",  "MT6589T",         SOC_MTK_MT6589T,  soc, 28)
+  SOC_EQ(tmp, "MT6592",   "MT6592",          SOC_MTK_MT6592,   soc, 28)
+  SOC_EQ(tmp, "MT6595",   "MT6595",          SOC_MTK_MT6595,   soc, 28)
+  SOC_EQ(tmp, "MT6732",   "MT6732",          SOC_MTK_MT6732,   soc, 28)
+  SOC_EQ(tmp, "MT6735",   "MT6735",          SOC_MTK_MT6735,   soc, 28)
+  SOC_EQ(tmp, "MT6735M",  "MT6735M",         SOC_MTK_MT6735M,  soc, 28)
+  SOC_EQ(tmp, "MT6735P",  "MT6735P",         SOC_MTK_MT6735P,  soc, 28)
+  SOC_EQ(tmp, "MT6737",   "MT6737",          SOC_MTK_MT6737,   soc, 28)
+  SOC_EQ(tmp, "MT6737M",  "MT6737M",         SOC_MTK_MT6737M,  soc, 28)
+  SOC_EQ(tmp, "MT6737T",  "MT6737T",         SOC_MTK_MT6737T,  soc, 28)
+  SOC_EQ(tmp, "MT6739",   "MT6739",          SOC_MTK_MT6739,   soc, 28)
+  SOC_EQ(tmp, "MT6750",   "MT6750",          SOC_MTK_MT6750,   soc, 28)
+  SOC_EQ(tmp, "MT6750S",  "MT6750S",         SOC_MTK_MT6750S,  soc, 28)
+  SOC_EQ(tmp, "MT6750T",  "MT6750T",         SOC_MTK_MT6750T,  soc, 28)
+  SOC_EQ(tmp, "MT6752",   "MT6752",          SOC_MTK_MT6752,   soc, 28)
+  SOC_EQ(tmp, "MT6753",   "MT6753",          SOC_MTK_MT6753,   soc, 28)
+  SOC_EQ(tmp, "MT6850",   "MT6850",          SOC_MTK_MT6850,   soc, 28)
+  SOC_EQ(tmp, "MT8121",   "MT8121",          SOC_MTK_MT8121,   soc, 40)
+  SOC_EQ(tmp, "MT8125",   "MT8125",          SOC_MTK_MT8125,   soc, 40)
+  SOC_EQ(tmp, "MT8127",   "MT8127",          SOC_MTK_MT8127,   soc, 32)
+  SOC_EQ(tmp, "MT8135",   "MT8135",          SOC_MTK_MT8135,   soc, 28)
+  SOC_EQ(tmp, "MT8163A",  "MT8163A",         SOC_MTK_MT8163A,  soc, 28)
+  SOC_EQ(tmp, "MT8163B",  "MT8163B",         SOC_MTK_MT8163B,  soc, 28)
+  SOC_EQ(tmp, "MT8167B",  "MT8167B",         SOC_MTK_MT8167B,  soc, 28)
+  SOC_EQ(tmp, "MT8173",   "MT8173",          SOC_MTK_MT8173,   soc, 28)
+  SOC_EQ(tmp, "MT8176",   "MT8176",          SOC_MTK_MT8176,   soc, 28)
+  SOC_EQ(tmp, "MT8321",   "MT8321",          SOC_MTK_MT8321,   soc, 28)
+  SOC_EQ(tmp, "MT8382",   "MT8382",          SOC_MTK_MT8382,   soc, 28)
+  SOC_EQ(tmp, "MT8581",   "MT8581",          SOC_MTK_MT8581,   soc, 28)
+  SOC_EQ(tmp, "MT8735",   "MT8735",          SOC_MTK_MT8735,   soc, 28)
+  SOC_EQ(tmp, "MT8765B",  "MT8765B",         SOC_MTK_MT8765B,  soc, 28)
+  SOC_EQ(tmp, "MT8783",   "MT8783",          SOC_MTK_MT8783,   soc, 28)
+  SOC_END
+}
+
+/*
+ * APQ: Application Processor Qualcomm
+ * MSM: Mobile Station Modem
+ * In a APQXXXX or MSMXXXX, the second digit represents:
+ * *------------------*
+ * | Value | Meaning  |
+ * *------------------*
+ * |     0 | No modem |
+ * |     2 | HPSA+    |
+ * |     6 | CDMA     |
+ * |     9 | LTE      |
+ * *------------------*
+ * Ref: https://www.tomshardware.com/reviews/snapdragon-801-performance-xperia-z2,3777-2.html
+ *      TWO-HEADED SNAPDRAGON TAKES FLIGHT By Linley Gwennap
+ *
+ * If Qualcomm official website reports the SoC name without the initial two or three SKU name,
+ * we assume APQ if second number is 0, or MSM if second number is different than 0
+ *
+ * All SoC names here have been retrieved from official Qualcomm resources. However, Linux kernel
+ * and Android may report the SoC with slightly different. Therefore, this function needs some
+ * rework (e.g, debug with http://specdevice.com/unmoderated.php?lang=en)
+ */
+bool match_qualcomm(char* soc_name, struct system_on_chip* soc) {
+  char* tmp;
+  char* soc_name_upper = toupperstr(soc_name);
+
+  if((tmp = strstr(soc_name_upper, "MSM")) != NULL);
+  else if((tmp = strstr(soc_name_upper, "SDM")) != NULL);
+  else if((tmp = strstr(soc_name_upper, "APQ")) != NULL);
+  else if((tmp = strstr(soc_name_upper, "SM")) != NULL);
+  else if((tmp = strstr(soc_name_upper, "QM")) != NULL);
+  else if((tmp = strstr(soc_name_upper, "QSD")) != NULL);
+  else return false;
+
+  SOC_START
+  // Snapdragon S1 //
+  SOC_EQ(tmp, "QSD8650",        "S1",        SOC_SNAPD_QSD8650,        soc, 65)
+  SOC_EQ(tmp, "QSD8250",        "S1",        SOC_SNAPD_QSD8250,        soc, 65)
+  SOC_EQ(tmp, "MSM7627",        "S1",        SOC_SNAPD_MSM7627,        soc, 65)
+  SOC_EQ(tmp, "MSM7227",        "S1",        SOC_SNAPD_MSM7227,        soc, 65)
+  SOC_EQ(tmp, "MSM7627A",       "S1",        SOC_SNAPD_MSM7627A,       soc, 45)
+  SOC_EQ(tmp, "MSM7227A",       "S1",        SOC_SNAPD_MSM7227A,       soc, 45)
+  SOC_EQ(tmp, "MSM7625",        "S1",        SOC_SNAPD_MSM7625,        soc, 65)
+  SOC_EQ(tmp, "MSM7225",        "S1",        SOC_SNAPD_MSM7225,        soc, 65)
+  SOC_EQ(tmp, "MSM7625A",       "S1",        SOC_SNAPD_MSM7625A,       soc, 45)
+  SOC_EQ(tmp, "MSM7225A",       "S1",        SOC_SNAPD_MSM7225A,       soc, 45)
+  // Snapdragon S2 //
+  SOC_EQ(tmp, "MSM8655",        "S2",        SOC_SNAPD_MSM8655,        soc, 45)
+  SOC_EQ(tmp, "MSM8255",        "S2",        SOC_SNAPD_MSM8255,        soc, 45)
+  SOC_EQ(tmp, "APQ8055",        "S2",        SOC_SNAPD_APQ8055,        soc, 45)
+  SOC_EQ(tmp, "MSM7630",        "S2",        SOC_SNAPD_MSM7630,        soc, 45)
+  SOC_EQ(tmp, "MSM7230",        "S2",        SOC_SNAPD_MSM7230,        soc, 45)
+  // Snapdragon S3 //
+  SOC_EQ(tmp, "MSM8660",        "S3",        SOC_SNAPD_MSM8660,        soc, 45)
+  SOC_EQ(tmp, "MSM8260",        "S3",        SOC_SNAPD_MSM8260,        soc, 45)
+  SOC_EQ(tmp, "APQ8060",        "S3",        SOC_SNAPD_APQ8060,        soc, 45)
+  // Snapdragon S4 //
+  SOC_EQ(tmp, "MSM8225",        "S4 Play",   SOC_SNAPD_MSM8225,        soc, 45)
+  SOC_EQ(tmp, "MSM8625",        "S4 Play",   SOC_SNAPD_MSM8625,        soc, 45)
+  SOC_EQ(tmp, "APQ8060A",       "S4 Plus",   SOC_SNAPD_APQ8060A,       soc, 28)
+  SOC_EQ(tmp, "MSM8960",        "S4 Plus",   SOC_SNAPD_MSM8960,        soc, 28)
+  SOC_EQ(tmp, "MSM8260A",       "S4 Plus",   SOC_SNAPD_MSM8260A,       soc, 28)
+  SOC_EQ(tmp, "MSM8627",        "S4 Plus",   SOC_SNAPD_MSM8627,        soc, 28)
+  SOC_EQ(tmp, "MSM8227",        "S4 Plus",   SOC_SNAPD_MSM8227,        soc, 28)
+  SOC_EQ(tmp, "APQ8064",        "S4 Pro",    SOC_SNAPD_APQ8064,        soc, 28)
+  SOC_EQ(tmp, "MSM8960T",       "S4 Pro",    SOC_SNAPD_MSM8960T,       soc, 28)
+  // Snapdragon 2XX //
+  SOC_EQ(tmp, "MSM8110",        "200",       SOC_SNAPD_MSM8110,        soc, 28)
+  SOC_EQ(tmp, "MSM8210",        "200",       SOC_SNAPD_MSM8210,        soc, 28)
+  SOC_EQ(tmp, "MSM8610",        "200",       SOC_SNAPD_MSM8610,        soc, 28)
+  SOC_EQ(tmp, "MSM8112",        "200",       SOC_SNAPD_MSM8112,        soc, 28)
+  SOC_EQ(tmp, "MSM8212",        "200",       SOC_SNAPD_MSM8212,        soc, 28)
+  SOC_EQ(tmp, "MSM8612",        "200",       SOC_SNAPD_MSM8612,        soc, 28)
+  SOC_EQ(tmp, "MSM8225Q",       "200",       SOC_SNAPD_MSM8225Q,       soc, 45)
+  SOC_EQ(tmp, "MSM8625Q",       "200",       SOC_SNAPD_MSM8625Q,       soc, 45)
+  SOC_EQ(tmp, "MSM8208",        "208",       SOC_SNAPD_MSM8208,        soc, 28)
+  SOC_EQ(tmp, "MSM8905",        "205",       SOC_SNAPD_MSM8905,        soc, 28)
+  SOC_EQ(tmp, "MSM8909",        "210 / 212", SOC_SNAPD_MSM8909,        soc, 28) // In the future, we can differentiate them using frequency
+  SOC_EQ(tmp, "QM215",          "215",       SOC_SNAPD_QM215,          soc, 28)
+  // Snapdragon 4XX //
+  SOC_EQ(tmp, "APQ8028",        "400",       SOC_SNAPD_APQ8028,        soc, 28)
+  SOC_EQ(tmp, "MSM8228",        "400",       SOC_SNAPD_MSM8228,        soc, 28)
+  SOC_EQ(tmp, "MSM8628",        "400",       SOC_SNAPD_MSM8628,        soc, 28)
+  SOC_EQ(tmp, "MSM8928",        "400",       SOC_SNAPD_MSM8928,        soc, 28)
+  SOC_EQ(tmp, "MSM8926",        "400",       SOC_SNAPD_MSM8926,        soc, 28)
+  SOC_EQ(tmp, "APQ8030AB",      "400",       SOC_SNAPD_APQ8030AB,      soc, 28)
+  SOC_EQ(tmp, "MSM8226",        "400",       SOC_SNAPD_MSM8226,        soc, 28)
+  SOC_EQ(tmp, "MSM8230AB",      "400",       SOC_SNAPD_MSM8230AB,      soc, 28)
+  SOC_EQ(tmp, "MSM8626",        "400",       SOC_SNAPD_MSM8626,        soc, 28)
+  SOC_EQ(tmp, "MSM8630",        "400",       SOC_SNAPD_MSM8630,        soc, 28)
+  SOC_EQ(tmp, "MSM8630AB",      "400",       SOC_SNAPD_MSM8630AB,      soc, 28)
+  SOC_EQ(tmp, "MSM8930",        "400",       SOC_SNAPD_MSM8930,        soc, 28)
+  SOC_EQ(tmp, "MSM8930AB",      "400",       SOC_SNAPD_MSM8930AB,      soc, 28)
+  SOC_EQ(tmp, "MSM8916",        "410 / 412", SOC_SNAPD_MSM8916,        soc, 28)
+  SOC_EQ(tmp, "MSM8929",        "415",       SOC_SNAPD_MSM8929,        soc, 28)
+  SOC_EQ(tmp, "MSM8917",        "425",       SOC_SNAPD_MSM8917,        soc, 28)
+  SOC_EQ(tmp, "MSM8920",        "427",       SOC_SNAPD_MSM8920,        soc, 28)
+  SOC_EQ(tmp, "SDM429",         "429",       SOC_SNAPD_SDM429,         soc, 12)
+  SOC_EQ(tmp, "MSM8937",        "430",       SOC_SNAPD_MSM8937,        soc, 28)
+  SOC_EQ(tmp, "MSM8940",        "435",       SOC_SNAPD_MSM8940,        soc, 28)
+  SOC_EQ(tmp, "SDM439",         "439",       SOC_SNAPD_SDM439,         soc, 12)
+  SOC_EQ(tmp, "SDM450",         "450",       SOC_SNAPD_SDM450,         soc, 14)
+  SOC_EQ(tmp, "SM4250-AA",      "460",       SOC_SNAPD_SM4250_AA,      soc, 11)
+  // Snapdragon 6XX //
+  SOC_EQ(tmp, "APQ8064T",       "600",       SOC_SNAPD_APQ8064T,       soc, 28)
+  SOC_EQ(tmp, "APQ8064M",       "600",       SOC_SNAPD_APQ8064M,       soc, 28)
+  SOC_EQ(tmp, "MSM8936",        "610",       SOC_SNAPD_MSM8936,        soc, 28)
+  SOC_EQ(tmp, "MSM8939",        "615 / 616", SOC_SNAPD_MSM8939,        soc, 28)
+  SOC_EQ(tmp, "MSM8952",        "617",       SOC_SNAPD_MSM8952,        soc, 28)
+  SOC_EQ(tmp, "MSM8953",        "625",       SOC_SNAPD_MSM8953,        soc, 14)
+  SOC_EQ(tmp, "MSM8953 PRO",    "626",       SOC_SNAPD_MSM8953_PRO,    soc, 14)
+  SOC_EQ(tmp, "SDM630",         "630",       SOC_SNAPD_SDM630,         soc, 14)
+  SOC_EQ(tmp, "SDM632",         "632",       SOC_SNAPD_SDM632,         soc, 14)
+  SOC_EQ(tmp, "SDM636",         "636",       SOC_SNAPD_SDM636,         soc, 14)
+  SOC_EQ(tmp, "MSM8956",        "650",       SOC_SNAPD_MSM8956,        soc, 28)
+  SOC_EQ(tmp, "MSM8976",        "652",       SOC_SNAPD_MSM8976,        soc, 28)
+  SOC_EQ(tmp, "MSM8976 PRO",    "653",       SOC_SNAPD_MSM8976_PRO,    soc, 28)
+  SOC_EQ(tmp, "SDM660",         "660",       SOC_SNAPD_SDM660,         soc, 14)
+  SOC_EQ(tmp, "SM6115",         "662",       SOC_SNAPD_SM6115,         soc, 11)
+  SOC_EQ(tmp, "SM6125",         "665",       SOC_SNAPD_SM6125,         soc, 11)
+  SOC_EQ(tmp, "SDM670",         "670",       SOC_SNAPD_SDM670,         soc, 10)
+  SOC_EQ(tmp, "SM6150",         "675",       SOC_SNAPD_SM6150,         soc, 11)
+  SOC_EQ(tmp, "SM6350",         "690",       SOC_SNAPD_SM6350,         soc,  8)
+  // Snapdragon 7XX //
+  SOC_EQ(tmp, "SDM710",         "710",       SOC_SNAPD_SDM710,         soc, 10)
+  SOC_EQ(tmp, "SDM712",         "712",       SOC_SNAPD_SDM712,         soc, 10)
+  SOC_EQ(tmp, "SM7125",         "720G",      SOC_SNAPD_SM7125,         soc,  8)
+  SOC_EQ(tmp, "SM7150-AA",      "730",       SOC_SNAPD_SM7150_AA,      soc,  8)
+  SOC_EQ(tmp, "SM7150-AB",      "730G",      SOC_SNAPD_SM7150_AB,      soc,  8)
+  SOC_EQ(tmp, "SM7150-AC",      "732G",      SOC_SNAPD_SM7150_AC,      soc,  8)
+  SOC_EQ(tmp, "SM7225",         "750G",      SOC_SNAPD_SM7225,         soc,  8)
+  SOC_EQ(tmp, "SM7250-AA",      "765",       SOC_SNAPD_SM7250_AA,      soc,  7)
+  SOC_EQ(tmp, "SM7250-AB",      "765G",      SOC_SNAPD_SM7250_AB,      soc,  7)
+  SOC_EQ(tmp, "SM7250-AC",      "768G",      SOC_SNAPD_SM7250_AC,      soc,  7)
+  // Snapdragon 8XX //
+  SOC_EQ(tmp, "MSM8974AA",      "800",       SOC_SNAPD_MSM8974AA,      soc, 28)
+  SOC_EQ(tmp, "MSM8974AB",      "800",       SOC_SNAPD_MSM8974AB,      soc, 28)
+  SOC_EQ(tmp, "MSM8974AC",      "800",       SOC_SNAPD_MSM8974AC,      soc, 28)
+  SOC_EQ(tmp, "MSM8974PRO-AB",  "801",       SOC_SNAPD_MSM8974PRO_AB,  soc, 28)
+  SOC_EQ(tmp, "MSM8974PRO-AC",  "801",       SOC_SNAPD_MSM8974PRO_AC,  soc, 28)
+  SOC_EQ(tmp, "APQ8084",        "805",       SOC_SNAPD_APQ8084,        soc, 28)
+  SOC_EQ(tmp, "MSM8992",        "808",       SOC_SNAPD_MSM8992,        soc, 20)
+  SOC_EQ(tmp, "MSM8994",        "810",       SOC_SNAPD_MSM8994,        soc, 20)
+  SOC_EQ(tmp, "MSM8996",        "820",       SOC_SNAPD_MSM8996,        soc, 14)
+  SOC_EQ(tmp, "MSM8996 PRO A",  "821",       SOC_SNAPD_MSM8996_PRO_A,  soc, 14)
+  SOC_EQ(tmp, "MSM8998",        "835",       SOC_SNAPD_MSM8998,        soc, 10)
+  SOC_EQ(tmp, "APQ8098",        "835",       SOC_SNAPD_APQ8098,        soc, 10)
+  SOC_EQ(tmp, "SDM845",         "845",       SOC_SNAPD_SDM845,         soc, 10)
+  SOC_EQ(tmp, "SDM850",         "850",       SOC_SNAPD_SDM850,         soc, 10)
+  SOC_EQ(tmp, "SM8150",         "855",       SOC_SNAPD_SM8150,         soc,  7)
+  SOC_EQ(tmp, "SM8150-AC",      "855+",      SOC_SNAPD_SM8150_AC,      soc,  7)
+  SOC_EQ(tmp, "SM8250",         "865",       SOC_SNAPD_SM8250,         soc,  7)
+  SOC_EQ(tmp, "SM8250-AB",      "865+",      SOC_SNAPD_SM8250_AB,      soc,  7)
+  SOC_EQ(tmp, "SM8350",         "888",       SOC_SNAPD_SM8350,         soc,  5)
+  SOC_EQ(tmp, "SM8350-AC",      "888+",      SOC_SNAPD_SM8350,         soc,  5)
+  SOC_END
+}
+
+// https://linux-sunxi.org/Allwinner_SoC_Family
+bool match_allwinner(char* soc_name, struct system_on_chip* soc) {
+  char* tmp;
+
+  if((tmp = strstr(soc_name, "sun")) == NULL)
+    return false;
+
+  SOC_START
+  // A series 32 bits
+  SOC_EQ(tmp, "sun4i", "A10",   SOC_ALLWINNER_A10,  soc, 55)
+  SOC_EQ(tmp, "sun5i", "A13",   SOC_ALLWINNER_A13,  soc, 55)
+  SOC_EQ(tmp, "sun5i", "A10s",  SOC_ALLWINNER_A10S, soc, 55)
+  SOC_EQ(tmp, "sun7i", "A20",   SOC_ALLWINNER_A20,  soc, 40)
+  SOC_EQ(tmp, "sun8i", "A23",   SOC_ALLWINNER_A23,  soc, 40)
+  SOC_EQ(tmp, "sun6i", "A31",   SOC_ALLWINNER_A31,  soc, 40)
+  SOC_EQ(tmp, "sun6i", "A31s",  SOC_ALLWINNER_A31S, soc, 40)
+  SOC_EQ(tmp, "sun8i", "A33",   SOC_ALLWINNER_A33,  soc, 40)
+  SOC_EQ(tmp, "sun8i", "A40",   SOC_ALLWINNER_A40,  soc, 40)
+  SOC_EQ(tmp, "sun8i", "A50",   SOC_ALLWINNER_A50,  soc, 28)
+  SOC_EQ(tmp, "sun9i", "A80",   SOC_ALLWINNER_A80,  soc, 28)
+  SOC_EQ(tmp, "sun8i", "A83T",  SOC_ALLWINNER_A83T, soc, 28)
+
+  // H series 32 bits
+  SOC_EQ(tmp, "sun8i", "H2+",   SOC_ALLWINNER_HZP,  soc, 40)
+  SOC_EQ(tmp, "sun8i", "H3",    SOC_ALLWINNER_H3,   soc, 40)
+  SOC_EQ(tmp, "sun8i", "H8",    SOC_ALLWINNER_H8,   soc, 28)
+
+  // H series 64 bits
+  SOC_EQ(tmp, "sun50i", "H5",   SOC_ALLWINNER_H5,   soc, 40)
+  SOC_EQ(tmp, "sun50i", "H6",   SOC_ALLWINNER_H6,   soc, 28)
+  SOC_EQ(tmp, "sun50i", "H616", SOC_ALLWINNER_H616, soc, 28)
+
+  // R series 32 bits
+  SOC_EQ(tmp, "sun5i", "R8",    SOC_ALLWINNER_R8,   soc, 55)
+  SOC_EQ(tmp, "sun8i", "R16",   SOC_ALLWINNER_R16,  soc, 40)
+  SOC_EQ(tmp, "sun8i", "R40",   SOC_ALLWINNER_R40,  soc, 40)
+  SOC_EQ(tmp, "sun8i", "R58",   SOC_ALLWINNER_R58,  soc, 28)
+
+  // R series  64 bits
+  SOC_EQ(tmp, "sun50i", "R329", SOC_ALLWINNER_R328, soc, 28)
+  SOC_END
+}
+
+bool match_special(char* soc_name, struct system_on_chip* soc) {
+  char* tmp;
+
+  // Xiaomi hides Redmi Note 8/8T under "Qualcomm Technologies, Inc TRINKET"
+  if((tmp = strstr(soc_name, "TRINKET")) != NULL) {
+    fill_soc(soc, "665", SOC_SNAPD_SM6125, 11);
+    return true;
+  }
+
+  // Snapdragon 730 reported as "Qualcomm Technologies, Inc. SDMMAGPIE"
+  if((tmp = strstr(soc_name, "SDMMAGPIE")) != NULL) {
+    fill_soc(soc, "730", SOC_SNAPD_SM7150_AA, 8);
+    return true;
+  }
+
+  return false;
+}
+
+struct system_on_chip* parse_soc_from_string(struct system_on_chip* soc) {
+  char* raw_name = soc->raw_name;
+
+  if(match_special(raw_name, soc))
+    return soc;
+
+  if (match_qualcomm(raw_name, soc))
+    return soc;
+
+  if(match_mediatek(raw_name, soc))
+    return soc;
+
+  if(match_exynos(raw_name, soc))
+    return soc;
+
+  if(match_hisilicon(raw_name, soc))
+    return soc;
+
+  if(match_allwinner(raw_name, soc))
+    return soc;
+
+  match_broadcom(raw_name, soc);
+  return soc;
+}
+
+#ifdef __ANDROID__
+#include <sys/system_properties.h>
+
+static inline int android_property_get(const char* key, char* value) {
+  return __system_property_get(key, value);
+}
+
+void try_parse_soc_from_string(struct system_on_chip* soc, int soc_len, char* soc_str) {
+  soc->raw_name = emalloc(sizeof(char) * (soc_len + 1));
+  strncpy(soc->raw_name, soc_str, soc_len + 1);
+  soc->raw_name[soc_len] = '\0';
+  soc->soc_vendor = SOC_VENDOR_UNKNOWN;
+  parse_soc_from_string(soc);
+}
+
+struct system_on_chip* guess_soc_from_android(struct system_on_chip* soc) {
+  char tmp[100];
+  int property_len = 0;
+
+  property_len = android_property_get("ro.mediatek.platform", (char *) &tmp);
+  if(property_len > 0) {
+    try_parse_soc_from_string(soc, property_len, tmp);
+    if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) printWarn("SoC detection failed using Android property ro.mediatek.platform: %s", tmp);
+    else return soc;
+  }
+
+  property_len = android_property_get("ro.product.board", (char *) &tmp);
+  if(property_len > 0) {
+    try_parse_soc_from_string(soc, property_len, tmp);
+    if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) printWarn("SoC detection failed using Android property ro.product.board: %s", tmp);
+    else return soc;
+  }
+
+  property_len = android_property_get("ro.board.platform", (char *) &tmp);
+  if(property_len > 0) {
+    try_parse_soc_from_string(soc, property_len, tmp);
+    if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) printWarn("SoC detection failed using Android property ro.board.platform: %s", tmp);
+    else return soc;
+  }
+
+  return soc;
+}
+#endif
+
+struct system_on_chip* guess_soc_from_cpuinfo(struct system_on_chip* soc) {
+  char* tmp = get_hardware_from_cpuinfo();
+
+  if(tmp != NULL) {
+    soc->raw_name = tmp;
+    return parse_soc_from_string(soc);
+  }
+
+  return soc;
+}
+
+int hex2int(char c) {
+  if (c >= '0' && c <= '9')
+    return c - '0';
+  if (c >= 'A' && c <= 'F')
+    return c - 'A' + 10;
+  if (c >= 'a' && c <= 'f')
+    return c - 'a' + 10;
+
+  return -1;
+}
+
+// https://www.raspberrypi.org/documentation/hardware/raspberrypi/revision-codes/README.md
+struct system_on_chip* guess_soc_raspbery_pi(struct system_on_chip* soc) {
+  char* revision = get_revision_from_cpuinfo();
+
+  if(revision == NULL) {
+    printWarn("[RPi] Couldn't find revision field in cpuinfo");
+    return soc;
+  }
+
+  if(strlen(revision) != 6) {
+    printWarn("[RPi] Found invalid RPi revision code: '%s'", revision);
+    return soc;
+  }
+
+  int arr_size = ARRAY_SIZE(soc_rpi_string);
+  int pppp = hex2int(revision[2]);
+  if(pppp == -1) {
+    printErr("[RPi] Found invalid RPi PPPP code: %s", revision[2]);
+    return soc;
+  }
+
+  if(pppp > arr_size) {
+    printErr("[RPi] Found invalid RPi PPPP code: %d while max is %d", pppp, arr_size);
+    return soc;
+  }
+
+  char* soc_raw_name = soc_rpi_string[pppp];
+  /*int soc_len = strlen(soc_raw_name);
+  soc->raw_name = emalloc(sizeof(char) * (soc_len + 1));
+  strncpy(soc->raw_name, soc_raw_name, soc_len + 1);*/
+
+  match_broadcom(soc_raw_name, soc);
+  return soc;
+}
+
+#if defined(__APPLE__) || defined(__MACH__)
+struct system_on_chip* guess_soc_apple(struct system_on_chip* soc) {
+  uint32_t cpu_family = get_sys_info_by_name("hw.cpufamily");
+  uint32_t cpu_subfamily = get_sys_info_by_name("hw.cpusubfamily");
+
+  if(cpu_family == CPUFAMILY_ARM_FIRESTORM_ICESTORM) {
+    // Check M1 version
+    if(cpu_subfamily == CPUSUBFAMILY_ARM_HG) {
+      fill_soc(soc, "M1", SOC_APPLE_M1, 5);
+    }
+    else if(cpu_subfamily == CPUSUBFAMILY_ARM_HS) {
+      fill_soc(soc, "M1 Pro", SOC_APPLE_M1_PRO, 5);
+    }
+    else if(cpu_subfamily == CPUSUBFAMILY_ARM_HC_HD) {
+      // Could be M1 Max or M1 Ultra (2x M1 Max)
+      uint32_t physicalcpu = get_sys_info_by_name("hw.physicalcpu");
+      if(physicalcpu == 20) {
+        fill_soc(soc, "M1 Ultra", SOC_APPLE_M1_ULTRA, 5);
+      }
+      else if(physicalcpu == 10) {
+        fill_soc(soc, "M1 Max", SOC_APPLE_M1_MAX, 5);
+      }
+      else {
+        printBug("Found invalid physical cpu number: %d", physicalcpu);
+        soc->soc_vendor = SOC_VENDOR_UNKNOWN;
+      }
+    }
+    else {
+      printBug("Found invalid cpu_subfamily: 0x%.8X", cpu_subfamily);
+      soc->soc_vendor = SOC_VENDOR_UNKNOWN;
+    }
+  }
+  else if(cpu_family == CPUFAMILY_ARM_AVALANCHE_BLIZZARD) {
+    // Check M2 version
+    if(cpu_subfamily == CPUSUBFAMILY_ARM_HG) {
+      fill_soc(soc, "M2", SOC_APPLE_M2, 5);
+    }
+    else {
+      printBug("Found invalid cpu_subfamily: 0x%.8X", cpu_subfamily);
+      soc->soc_vendor = SOC_VENDOR_UNKNOWN;
+    }
+  }
+  else {
+    printBug("Found invalid cpu_family: 0x%.8X", cpu_family);
+    soc->soc_vendor = SOC_VENDOR_UNKNOWN;
+  }
+  return soc;
+}
+#endif
+
+struct system_on_chip* get_soc() {
+  struct system_on_chip* soc = emalloc(sizeof(struct system_on_chip));
+  soc->raw_name = NULL;
+  soc->soc_vendor = SOC_VENDOR_UNKNOWN;
+  soc->process = UNKNOWN;
+
+#ifdef __linux__
+  bool isRPi = is_raspberry_pi();
+  if(isRPi) {
+    soc = guess_soc_raspbery_pi(soc);
+    if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) {
+      printWarn("SoC detection failed using revision code");
+    }
+    else {
+      return soc;
+    }
+  }
+
+  soc = guess_soc_from_cpuinfo(soc);
+  if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) {
+    if(soc->raw_name != NULL)
+      printWarn("SoC detection failed using /proc/cpuinfo: Found '%s' string", soc->raw_name);
+    else
+      printWarn("SoC detection failed using /proc/cpuinfo: No string found");
+#ifdef __ANDROID__
+    soc = guess_soc_from_android(soc);
+    if(soc->raw_name == NULL)
+      printWarn("SoC detection failed using Android: No string found");
+    else if(soc->soc_vendor == SOC_VENDOR_UNKNOWN)
+      printWarn("SoC detection failed using Android: Found '%s' string", soc->raw_name);
+#endif // ifdef __ANDROID__
+  }
+#elif defined __APPLE__ || __MACH__
+  soc = guess_soc_apple(soc);
+  if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) {
+    printWarn("SoC detection failed using cpu_subfamily");
+  }
+  else {
+    return soc;
+  }
+#endif // ifdef __linux__
+
+  if(soc->raw_name == NULL) {
+    soc->raw_name = emalloc(sizeof(char) * (strlen(STRING_UNKNOWN)+1));
+    snprintf(soc->raw_name, strlen(STRING_UNKNOWN)+1, STRING_UNKNOWN);
+  }
+
+  return soc;
+}
+
+char* get_soc_name(struct system_on_chip* soc) {
+  if(soc->soc_vendor == SOC_VENDOR_UNKNOWN)
+    return soc->raw_name;
+  return soc->soc_name;
+}
+
+VENDOR get_soc_vendor(struct system_on_chip* soc) {
+  return soc->soc_vendor;
+}
+
+char* get_str_process(struct system_on_chip* soc) {
+  char* str;
+
+  if(soc->process == UNKNOWN) {
+    str = emalloc(sizeof(char) * (strlen(STRING_UNKNOWN)+1));
+    snprintf(str, strlen(STRING_UNKNOWN)+1, STRING_UNKNOWN);
+  }
+  else {
+    str = emalloc(sizeof(char) * 5);
+    memset(str, 0, sizeof(char) * 5);
+    snprintf(str, 5, "%dnm", soc->process);
+  }
+  return str;
+}

src/arm/soc.h

@@ -0,0 +1,33 @@
+#ifndef __SOC__
+#define __SOC__
+
+#include "../common/cpu.h"
+#include <stdint.h>
+
+typedef int32_t SOC;
+
+enum {
+  SOC_VENDOR_UNKNOWN,
+  SOC_VENDOR_SNAPDRAGON,
+  SOC_VENDOR_MEDIATEK,
+  SOC_VENDOR_EXYNOS,
+  SOC_VENDOR_KIRIN,
+  SOC_VENDOR_BROADCOM,
+  SOC_VENDOR_APPLE,
+  SOC_VENDOR_ALLWINNER
+};
+
+struct system_on_chip {
+  SOC soc_model;
+  VENDOR soc_vendor;
+  int32_t process;
+  char* soc_name;
+  char* raw_name;    
+};
+
+struct system_on_chip* get_soc();
+char* get_soc_name(struct system_on_chip* soc);
+VENDOR get_soc_vendor(struct system_on_chip* soc);
+char* get_str_process(struct system_on_chip* soc);
+
+#endif

src/arm/socs.h

@@ -0,0 +1,298 @@
+#ifndef __SOCS__
+#define __SOCS__
+
+#include "soc.h"
+
+// List of supported SOCs
+enum {
+  // Broadcom //
+  SOC_BCM_2835,
+  SOC_BCM_2836,
+  SOC_BCM_2837,
+  SOC_BCM_2837B0,
+  SOC_BCM_2711,
+  SOC_BCM_21553,
+  SOC_BCM_21553T,
+  SOC_BCM_21663,
+  SOC_BCM_21664,
+  SOC_BCM_28155,
+  SOC_BCM_23550,
+  SOC_BCM_28145,
+  SOC_BCM_2157,
+  SOC_BCM_21654,
+  // Hisilicon //
+  SOC_HISILICON_3620,
+  SOC_HISILICON_3630,
+  SOC_HISILICON_3650,
+  SOC_HISILICON_3660,
+  SOC_HISILICON_3670,
+  SOC_HISILICON_3680,
+  SOC_HISILICON_3690,
+  // Exynos //
+  SOC_EXYNOS_3475,
+  SOC_EXYNOS_4210,
+  SOC_EXYNOS_4212,
+  SOC_EXYNOS_4412,
+  SOC_EXYNOS_5250,
+  SOC_EXYNOS_5410,
+  SOC_EXYNOS_5420,
+  SOC_EXYNOS_5422,
+  SOC_EXYNOS_5430,
+  SOC_EXYNOS_5433,
+  SOC_EXYNOS_5260,
+  SOC_EXYNOS_7270,
+  SOC_EXYNOS_7420,
+  SOC_EXYNOS_7570,
+  SOC_EXYNOS_7870,
+  SOC_EXYNOS_7872,
+  SOC_EXYNOS_7880,
+  SOC_EXYNOS_7884,
+  SOC_EXYNOS_7885,
+  SOC_EXYNOS_7904,
+  SOC_EXYNOS_8890,
+  SOC_EXYNOS_8895,
+  SOC_EXYNOS_9110,
+  SOC_EXYNOS_9609,
+  SOC_EXYNOS_9610,
+  SOC_EXYNOS_9611,
+  SOC_EXYNOS_9810,
+  SOC_EXYNOS_9820,
+  SOC_EXYNOS_9825,
+  SOC_EXYNOS_1080,
+  SOC_EXYNOS_990,
+  SOC_EXYNOS_980,
+  SOC_EXYNOS_880,
+  // Mediatek //
+  SOC_MTK_MT6893,
+  SOC_MTK_MT6891,
+  SOC_MTK_MT6889,
+  SOC_MTK_MT6885Z,
+  SOC_MTK_MT6853,
+  SOC_MTK_MT6873,
+  SOC_MTK_MT6875,
+  SOC_MTK_MT6761D,
+  SOC_MTK_MT6761,
+  SOC_MTK_MT6762D,
+  SOC_MTK_MT6755,
+  SOC_MTK_MT6755M,
+  SOC_MTK_MT6755T,
+  SOC_MTK_MT6757,
+  SOC_MTK_MT6762,
+  SOC_MTK_MT6763V,
+  SOC_MTK_MT6763T,
+  SOC_MTK_MT6757CD,
+  SOC_MTK_MT6758,
+  SOC_MTK_MT6765,
+  SOC_MTK_MT6771,
+  SOC_MTK_MT6768,
+  SOC_MTK_MT6771T,
+  SOC_MTK_MT6771V,
+  SOC_MTK_MT6779,
+  SOC_MTK_MT6795,
+  SOC_MTK_MT6795T,
+  SOC_MTK_MT6797,
+  SOC_MTK_MT6797M,
+  SOC_MTK_MT6797D,
+  SOC_MTK_MT6797T,
+  SOC_MTK_MT6797X,
+  SOC_MTK_MT6799,
+  SOC_MTK_MT6515,
+  SOC_MTK_MT6516,
+  SOC_MTK_MT6517,
+  SOC_MTK_MT6572,
+  SOC_MTK_MT6572M,
+  SOC_MTK_MT6573,
+  SOC_MTK_MT6575,
+  SOC_MTK_MT6577,
+  SOC_MTK_MT6577T,
+  SOC_MTK_MT6580,
+  SOC_MTK_MT6582,
+  SOC_MTK_MT6582M,
+  SOC_MTK_MT6589,
+  SOC_MTK_MT6589T,
+  SOC_MTK_MT6592,
+  SOC_MTK_MT6595,
+  SOC_MTK_MT6732,
+  SOC_MTK_MT6735,
+  SOC_MTK_MT6735M,
+  SOC_MTK_MT6735P,
+  SOC_MTK_MT6737,
+  SOC_MTK_MT6737M,
+  SOC_MTK_MT6737T,
+  SOC_MTK_MT6739,
+  SOC_MTK_MT6750,
+  SOC_MTK_MT6750S,
+  SOC_MTK_MT6750T,
+  SOC_MTK_MT6752,
+  SOC_MTK_MT6753,
+  SOC_MTK_MT6850,
+  SOC_MTK_MT8121,
+  SOC_MTK_MT8125,
+  SOC_MTK_MT8127,
+  SOC_MTK_MT8135,
+  SOC_MTK_MT8163A,
+  SOC_MTK_MT8163B,
+  SOC_MTK_MT8167B,
+  SOC_MTK_MT8173,
+  SOC_MTK_MT8176,
+  SOC_MTK_MT8321,
+  SOC_MTK_MT8382,
+  SOC_MTK_MT8581,
+  SOC_MTK_MT8735,
+  SOC_MTK_MT8765B,
+  SOC_MTK_MT8783,
+  // Snapdragon //
+  SOC_SNAPD_QSD8650,
+  SOC_SNAPD_QSD8250,
+  SOC_SNAPD_MSM7627,
+  SOC_SNAPD_MSM7227,
+  SOC_SNAPD_MSM7627A,
+  SOC_SNAPD_MSM7227A,
+  SOC_SNAPD_MSM7625,
+  SOC_SNAPD_MSM7225,
+  SOC_SNAPD_MSM7625A,
+  SOC_SNAPD_MSM7225A,
+  SOC_SNAPD_MSM8655,
+  SOC_SNAPD_MSM8255,
+  SOC_SNAPD_APQ8055,
+  SOC_SNAPD_MSM7630,
+  SOC_SNAPD_MSM7230,
+  SOC_SNAPD_MSM8660,
+  SOC_SNAPD_MSM8260,
+  SOC_SNAPD_APQ8060,
+  SOC_SNAPD_MSM8225,
+  SOC_SNAPD_MSM8625,
+  SOC_SNAPD_APQ8060A,
+  SOC_SNAPD_MSM8960,
+  SOC_SNAPD_MSM8260A,
+  SOC_SNAPD_MSM8627,
+  SOC_SNAPD_MSM8227,
+  SOC_SNAPD_APQ8064,
+  SOC_SNAPD_MSM8960T,
+  SOC_SNAPD_MSM8110,
+  SOC_SNAPD_MSM8210,
+  SOC_SNAPD_MSM8610,
+  SOC_SNAPD_MSM8112,
+  SOC_SNAPD_MSM8212,
+  SOC_SNAPD_MSM8612,
+  SOC_SNAPD_MSM8225Q,
+  SOC_SNAPD_MSM8625Q,
+  SOC_SNAPD_MSM8208,
+  SOC_SNAPD_MSM8905,
+  SOC_SNAPD_MSM8909,
+  SOC_SNAPD_QM215,
+  SOC_SNAPD_APQ8028,
+  SOC_SNAPD_MSM8228,
+  SOC_SNAPD_MSM8628,
+  SOC_SNAPD_MSM8928,
+  SOC_SNAPD_MSM8926,
+  SOC_SNAPD_APQ8030AB,
+  SOC_SNAPD_MSM8226,
+  SOC_SNAPD_MSM8230AB,
+  SOC_SNAPD_MSM8626,
+  SOC_SNAPD_MSM8630,
+  SOC_SNAPD_MSM8630AB,
+  SOC_SNAPD_MSM8930,
+  SOC_SNAPD_MSM8930AB,
+  SOC_SNAPD_MSM8916,
+  SOC_SNAPD_MSM8929,
+  SOC_SNAPD_MSM8917,
+  SOC_SNAPD_MSM8920,
+  SOC_SNAPD_SDM429,
+  SOC_SNAPD_MSM8937,
+  SOC_SNAPD_MSM8940,
+  SOC_SNAPD_SDM439,
+  SOC_SNAPD_SDM450,
+  SOC_SNAPD_SM4250_AA,
+  SOC_SNAPD_APQ8064T,
+  SOC_SNAPD_APQ8064M,
+  SOC_SNAPD_MSM8936,
+  SOC_SNAPD_MSM8939,
+  SOC_SNAPD_MSM8952,
+  SOC_SNAPD_MSM8953,
+  SOC_SNAPD_MSM8953_PRO,
+  SOC_SNAPD_SDM630,
+  SOC_SNAPD_SDM632,
+  SOC_SNAPD_SDM636,
+  SOC_SNAPD_MSM8956,
+  SOC_SNAPD_MSM8976,
+  SOC_SNAPD_MSM8976_PRO,
+  SOC_SNAPD_SDM660,
+  SOC_SNAPD_SM6115,
+  SOC_SNAPD_SM6125,
+  SOC_SNAPD_SDM670,
+  SOC_SNAPD_SM6150,
+  SOC_SNAPD_SM6350,
+  SOC_SNAPD_SDM710,
+  SOC_SNAPD_SDM712,
+  SOC_SNAPD_SM7125,
+  SOC_SNAPD_SM7150_AA,
+  SOC_SNAPD_SM7150_AB,
+  SOC_SNAPD_SM7150_AC,
+  SOC_SNAPD_SM7225,
+  SOC_SNAPD_SM7250_AA,
+  SOC_SNAPD_SM7250_AB,
+  SOC_SNAPD_SM7250_AC,
+  SOC_SNAPD_MSM8974AA,
+  SOC_SNAPD_MSM8974AB,
+  SOC_SNAPD_MSM8974AC,
+  SOC_SNAPD_MSM8974PRO_AB,
+  SOC_SNAPD_MSM8974PRO_AC,
+  SOC_SNAPD_APQ8084,
+  SOC_SNAPD_MSM8992,
+  SOC_SNAPD_MSM8994,
+  SOC_SNAPD_MSM8996,
+  SOC_SNAPD_MSM8996_PRO_A,
+  SOC_SNAPD_MSM8998,
+  SOC_SNAPD_APQ8098,
+  SOC_SNAPD_SDM845,
+  SOC_SNAPD_SDM850,
+  SOC_SNAPD_SM8150,
+  SOC_SNAPD_SM8150_AC,
+  SOC_SNAPD_SM8250,
+  SOC_SNAPD_SM8250_AB,
+  SOC_SNAPD_SM8350,
+  // APPLE
+  SOC_APPLE_M1,
+  SOC_APPLE_M1_PRO,
+  SOC_APPLE_M1_MAX,
+  SOC_APPLE_M1_ULTRA,
+  SOC_APPLE_M2,
+  // ALLWINNER
+  SOC_ALLWINNER_A10,
+  SOC_ALLWINNER_A13,
+  SOC_ALLWINNER_A10S,
+  SOC_ALLWINNER_A20,
+  SOC_ALLWINNER_A23,
+  SOC_ALLWINNER_A31,
+  SOC_ALLWINNER_A31S,
+  SOC_ALLWINNER_A33,
+  SOC_ALLWINNER_A40,
+  SOC_ALLWINNER_A50,
+  SOC_ALLWINNER_A80,
+  SOC_ALLWINNER_A83T,
+  SOC_ALLWINNER_HZP,
+  SOC_ALLWINNER_H3,
+  SOC_ALLWINNER_H8,
+  SOC_ALLWINNER_H5,
+  SOC_ALLWINNER_H6,
+  SOC_ALLWINNER_H616,
+  SOC_ALLWINNER_R8,
+  SOC_ALLWINNER_R16,
+  SOC_ALLWINNER_R40,
+  SOC_ALLWINNER_R58,
+  SOC_ALLWINNER_R328
+};
+
+inline static VENDOR get_soc_vendor_from_soc(SOC soc) {
+  if(soc >= SOC_BCM_2835 && soc <= SOC_BCM_21654) return SOC_VENDOR_BROADCOM;
+  else if(soc >= SOC_HISILICON_3620 && soc <= SOC_HISILICON_3690) return SOC_VENDOR_KIRIN;
+  else if(soc >= SOC_EXYNOS_3475 && soc <= SOC_EXYNOS_880) return SOC_VENDOR_EXYNOS;
+  else if(soc >= SOC_MTK_MT6893 && soc <= SOC_MTK_MT8783) return SOC_VENDOR_MEDIATEK;
+  else if(soc >= SOC_SNAPD_QSD8650 && soc <= SOC_SNAPD_SM8350) return SOC_VENDOR_SNAPDRAGON;
+  else if(soc >= SOC_APPLE_M1 && soc <= SOC_APPLE_M2) return SOC_VENDOR_APPLE;
+  else if(soc >= SOC_ALLWINNER_A10 && soc <= SOC_ALLWINNER_R328) return SOC_VENDOR_ALLWINNER;
+  return SOC_VENDOR_UNKNOWN;
+}
+
+#endif

src/arm/socs_generation.sh

@@ -0,0 +1,23 @@
+#!/bin/bash -u
+
+SOC_LIST="$(grep SOC_EQ soc.c | grep -v '//SOC_EQ' | grep -v 'define' | cut -d',' -f2 | sed 's/"//')"
+
+IFS=$'"'
+
+for soc in $SOC_LIST
+do
+  # CLEAN
+  soc=$(echo $soc | tr -d '\n')
+  soc="${soc:1}"
+  
+  # REPLACE
+  soc=$(echo $soc | sed "s/BCM/BCM_/g")
+  soc=$(echo $soc | sed "s/universal/EXYNOS_/g")
+  soc=$(echo $soc | sed "s/Hi/HISILICON_/g")
+  soc=$(echo $soc | sed "s/^MSM/SNAPD_MSM/g" | sed "s/SDM/SNAPD_SDM/g" | sed "s/APQ/SNAPD_APQ/g" | sed "s/^SM/SNAPD_SM/g" | sed "s/QM/SNAPD_QM/g" | sed "s/QSD/SNAPD_QSD/g")
+  soc=$(echo $soc | sed "s/MT/MTK_MT/g")
+  soc=$(echo $soc | sed "s/-/_/g" | sed "s/ /_/g")
+  echo '  SOC_'"$soc"','
+done
+
+unset IFS

src/arm/sysctl.c

@@ -0,0 +1,25 @@
+#include <sys/types.h>
+#include <sys/sysctl.h>
+#include <stdlib.h>
+#include <string.h>
+#include <errno.h>
+
+#include "../common/global.h"
+#include "../common/cpu.h"
+
+uint32_t get_sys_info_by_name(char* name) {
+  size_t size = 0;
+  uint32_t ret = 0;
+
+  if (sysctlbyname(name, NULL, &size, NULL, 0) != 0) {
+    printWarn("sysctlbyname(%s) failed: %s", name, strerror(errno));
+  }
+  else if (size == sizeof(uint32_t)) {
+    sysctlbyname(name, &ret, &size, NULL, 0);
+  }
+  else {
+    printWarn("sysctl does not support non-integer lookup for '%s'", name);
+  }
+
+  return ret;
+}

src/arm/sysctl.h

@@ -0,0 +1,36 @@
+#ifndef __SYSCTL__
+#define __SYSCTL__
+
+// From Linux kernel: arch/arm64/include/asm/cputype.h
+#define MIDR_APPLE_M1_ICESTORM  0x610F0220
+#define MIDR_APPLE_M1_FIRESTORM 0x610F0230
+// Kernel does not include those, so I just assume that
+// APPLE_CPU_PART_M2_BLIZZARD=0x30,M2_AVALANCHE=0x31
+#define MIDR_APPLE_M2_BLIZZARD  0x610F0300
+#define MIDR_APPLE_M2_AVALANCHE 0x610F0310
+
+// M1 / A14
+#ifndef CPUFAMILY_ARM_FIRESTORM_ICESTORM
+  #define CPUFAMILY_ARM_FIRESTORM_ICESTORM 0x1B588BB3
+#endif
+// M2 / A15
+#ifndef CPUFAMILY_ARM_AVALANCHE_BLIZZARD
+  #define CPUFAMILY_ARM_AVALANCHE_BLIZZARD 0xDA33D83D
+#endif
+
+// For detecting different M1 types
+// NOTE: Could also be achieved detecting different
+// MIDR values (e.g., APPLE_CPU_PART_M1_ICESTORM_PRO)
+#ifndef CPUSUBFAMILY_ARM_HG
+  #define CPUSUBFAMILY_ARM_HG 2
+#endif
+#ifndef CPUSUBFAMILY_ARM_HS
+  #define CPUSUBFAMILY_ARM_HS 4
+#endif
+#ifndef CPUSUBFAMILY_ARM_HC_HD
+  #define CPUSUBFAMILY_ARM_HC_HD 5
+#endif
+
+uint32_t get_sys_info_by_name(char* name);
+
+#endif

src/arm/uarch.c

@@ -0,0 +1,324 @@
+#include <stdbool.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <inttypes.h>
+
+#include "uarch.h"
+#include "../common/global.h"
+
+// Data not available
+#define NA                   -1
+
+typedef uint32_t MICROARCH;
+typedef uint32_t ISA;
+
+struct uarch {
+  MICROARCH uarch;
+  ISA isa;
+  char* uarch_str;
+  char* isa_str;
+  // int32_t process; process depends on SoC
+};
+
+enum {
+  ISA_ARMv6,
+  ISA_ARMv6_T2,
+  ISA_ARMv6_KZ,
+  ISA_ARMv6_K,
+  ISA_ARMv7_A,
+  ISA_ARMv8_A,
+  ISA_ARMv8_A_AArch32,
+  ISA_ARMv8_1_A,
+  ISA_ARMv8_2_A,
+  ISA_ARMv8_3_A,
+  ISA_ARMv8_4_A,
+  ISA_ARMv8_5_A
+};
+
+enum {
+  UARCH_UNKNOWN,
+  // ARM
+  UARCH_ARM7,
+  UARCH_ARM9,
+  UARCH_ARM1136,
+  UARCH_ARM1156,
+  UARCH_ARM1176,
+  UARCH_ARM11MPCORE,
+  UARCH_CORTEX_A5,
+  UARCH_CORTEX_A7,
+  UARCH_CORTEX_A8,
+  UARCH_CORTEX_A9,
+  UARCH_CORTEX_A12,
+  UARCH_CORTEX_A15,
+  UARCH_CORTEX_A17,
+  UARCH_CORTEX_A32,
+  UARCH_CORTEX_A35,
+  UARCH_CORTEX_A53,
+  UARCH_CORTEX_A55r0, // ARM Cortex-A55 revision 0 (restricted dual-issue capabilities compared to revision 1+).
+  UARCH_CORTEX_A55,
+  UARCH_CORTEX_A57,
+  UARCH_CORTEX_A65,
+  UARCH_CORTEX_A72,
+  UARCH_CORTEX_A73,
+  UARCH_CORTEX_A75,
+  UARCH_CORTEX_A76,
+  UARCH_CORTEX_A77,
+  UARCH_CORTEX_A78,
+  UARCH_CORTEX_X1,
+  UARCH_NEOVERSE_N1,
+  UARCH_NEOVERSE_E1,
+  UARCH_SCORPION,
+  UARCH_KRAIT,
+  UARCH_KYRO,
+  UARCH_FALKOR,
+  UARCH_SAPHIRA,
+  UARCH_DENVER,
+  UARCH_DENVER2,
+  UARCH_CARMEL,
+  // SAMSUNG
+  UARCH_EXYNOS_M1,  // Samsung Exynos M1 (Exynos 8890 big cores)
+  UARCH_EXYNOS_M2,  // Samsung Exynos M2 (Exynos 8895 big cores)
+  UARCH_EXYNOS_M3,  // Samsung Exynos M3 (Exynos 9810 big cores)
+  UARCH_EXYNOS_M4,  // Samsung Exynos M4 (Exynos 9820 big cores)
+  UARCH_EXYNOS_M5,  // Samsung Exynos M5 (Exynos 9830 big cores)
+  // APPLE
+  UARCH_SWIFT,      // Apple A6 and A6X processors.
+  UARCH_CYCLONE,    // Apple A7 processor.
+  UARCH_TYPHOON,    // Apple A8 and A8X processor
+  UARCH_TWISTER,    // Apple A9 and A9X processor.
+  UARCH_HURRICANE,  // Apple A10 and A10X processor.
+  UARCH_MONSOON,    // Apple A11 processor (big cores).
+  UARCH_MISTRAL,    // Apple A11 processor (little cores).
+  UARCH_VORTEX,     // Apple A12 processor (big cores).
+  UARCH_TEMPEST,    // Apple A12 processor (big cores).
+  UARCH_LIGHTNING,  // Apple A13 processor (big cores).
+  UARCH_THUNDER,    // Apple A13 processor (little cores).
+  UARCH_ICESTORM,   // Apple M1 processor (little cores).
+  UARCH_FIRESTORM,  // Apple M1 processor (big cores).
+  UARCH_BLIZZARD,   // Apple M2 processor (little cores).
+  UARCH_AVALANCHE,  // Apple M2 processor (big cores).
+  // CAVIUM
+  UARCH_THUNDERX,   // Cavium ThunderX
+  UARCH_THUNDERX2,  //  Cavium ThunderX2 (originally Broadcom Vulkan).
+  // MARVELL
+  UARCH_PJ4,
+  UARCH_BRAHMA_B15,
+  UARCH_BRAHMA_B53,
+  UARCH_XGENE,        // Applied Micro X-Gene.
+  UARCH_TAISHAN_V110, // HiSilicon TaiShan v110 (Huawei Kunpeng 920 series processors).
+  // PHYTIUM
+  UARCH_XIAOMI,       // Not to be confused with Xiaomi Inc
+};
+
+static const ISA isas_uarch[] = {
+  [UARCH_ARM1136]      = ISA_ARMv6,
+  [UARCH_ARM1156]      = ISA_ARMv6_T2,
+  [UARCH_ARM1176]      = ISA_ARMv6_KZ,
+  [UARCH_ARM11MPCORE]  = ISA_ARMv6_K,
+  [UARCH_CORTEX_A5]    = ISA_ARMv7_A,
+  [UARCH_CORTEX_A7]    = ISA_ARMv7_A,
+  [UARCH_CORTEX_A8]    = ISA_ARMv7_A,
+  [UARCH_CORTEX_A9]    = ISA_ARMv7_A,
+  [UARCH_CORTEX_A12]   = ISA_ARMv7_A,
+  [UARCH_CORTEX_A15]   = ISA_ARMv7_A,
+  [UARCH_CORTEX_A17]   = ISA_ARMv7_A,
+  [UARCH_CORTEX_A32]   = ISA_ARMv8_A_AArch32,
+  [UARCH_CORTEX_A35]   = ISA_ARMv8_A,
+  [UARCH_CORTEX_A53]   = ISA_ARMv8_A,
+  [UARCH_CORTEX_A55r0] = ISA_ARMv8_2_A,
+  [UARCH_CORTEX_A55]   = ISA_ARMv8_2_A,
+  [UARCH_CORTEX_A57]   = ISA_ARMv8_A,
+  [UARCH_CORTEX_A65]   = ISA_ARMv8_2_A,
+  [UARCH_CORTEX_A72]   = ISA_ARMv8_A,
+  [UARCH_CORTEX_A73]   = ISA_ARMv8_A,
+  [UARCH_CORTEX_A75]   = ISA_ARMv8_2_A,
+  [UARCH_CORTEX_A76]   = ISA_ARMv8_2_A,
+  [UARCH_CORTEX_A77]   = ISA_ARMv8_2_A,
+  [UARCH_CORTEX_A78]   = ISA_ARMv8_2_A,
+  [UARCH_CORTEX_X1]    = ISA_ARMv8_2_A,
+  [UARCH_NEOVERSE_N1]  = ISA_ARMv8_2_A,
+  [UARCH_NEOVERSE_E1]  = ISA_ARMv8_2_A,
+  [UARCH_BRAHMA_B15]   = ISA_ARMv7_A,   // Same as Cortex-A15
+  [UARCH_BRAHMA_B53]   = ISA_ARMv8_A,   // Same as Cortex-A53
+  [UARCH_THUNDERX]     = ISA_ARMv8_A,
+  [UARCH_THUNDERX2]    = ISA_ARMv8_1_A,
+  [UARCH_TAISHAN_V110] = ISA_ARMv8_2_A,
+  [UARCH_DENVER]       = ISA_ARMv8_A,
+  [UARCH_DENVER2]      = ISA_ARMv8_A,
+  [UARCH_CARMEL]       = ISA_ARMv8_A,
+  [UARCH_XGENE]        = ISA_ARMv8_A, // https://en.wikichip.org/wiki/apm/x-gene
+  [UARCH_SCORPION]     = ISA_ARMv7_A, // https://www.geektopia.es/es/product/qualcomm/snapdragon-s3-apq8060/
+  [UARCH_KRAIT]        = ISA_ARMv7_A,
+  [UARCH_KYRO]         = ISA_ARMv8_A,
+  [UARCH_FALKOR]       = ISA_ARMv8_A,
+  [UARCH_SAPHIRA]      = ISA_ARMv8_3_A,
+  [UARCH_EXYNOS_M1]    = ISA_ARMv8_A,
+  [UARCH_EXYNOS_M2]    = ISA_ARMv8_A,
+  [UARCH_EXYNOS_M3]    = ISA_ARMv8_A,
+  [UARCH_EXYNOS_M4]    = ISA_ARMv8_2_A,
+  [UARCH_EXYNOS_M5]    = ISA_ARMv8_2_A,
+  [UARCH_ICESTORM]     = ISA_ARMv8_5_A, // https://github.com/llvm/llvm-project/blob/main/llvm/include/llvm/Support/AArch64TargetParser.def
+  [UARCH_FIRESTORM]    = ISA_ARMv8_5_A,
+  [UARCH_BLIZZARD]     = ISA_ARMv8_5_A, // Not confirmed
+  [UARCH_AVALANCHE]    = ISA_ARMv8_5_A,
+  [UARCH_PJ4]          = ISA_ARMv7_A,
+  [UARCH_XIAOMI]       = ISA_ARMv8_A,
+};
+
+static char* isas_string[] = {
+  [ISA_ARMv6]  = "ARMv6",
+  [ISA_ARMv6_T2] = "ARMv6T2",
+  [ISA_ARMv6_KZ] = "ARMv6KZ",
+  [ISA_ARMv6_K] = "ARMv6K",
+  [ISA_ARMv7_A] = "ARMv7",
+  [ISA_ARMv8_A] = "ARMv8",
+  [ISA_ARMv8_A_AArch32] = "ARMv8 AArch32",
+  [ISA_ARMv8_1_A] = "ARMv8.1",
+  [ISA_ARMv8_2_A] = "ARMv8.2",
+  [ISA_ARMv8_3_A] = "ARMv8.3",
+  [ISA_ARMv8_4_A] = "ARMv8.4",
+  [ISA_ARMv8_5_A] = "ARMv8.5"
+};
+
+#define UARCH_START if (false) {}
+#define CHECK_UARCH(arch, cpu, im_, p_, v_, r_, str, uarch, vendor) \
+   else if (im_ == im && p_ == p && (v_ == NA || v_ == v) && (r_ == NA || r_ == r)) fill_uarch(arch, cpu, str, uarch, vendor);
+#define UARCH_END else { printBug("Unknown microarchitecture detected: IM=0x%.8X P=0x%.8X V=0x%.8X R=0x%.8X", im, p, v, r); fill_uarch(arch, cpu, "Unknown", UARCH_UNKNOWN, CPU_VENDOR_UNKNOWN); }
+
+void fill_uarch(struct uarch* arch, struct cpuInfo* cpu, char* str, MICROARCH u, VENDOR vendor) {
+  arch->uarch = u;
+  arch->isa = isas_uarch[arch->uarch];
+  cpu->cpu_vendor = vendor;
+
+  arch->uarch_str = emalloc(sizeof(char) * (strlen(str)+1));
+  strcpy(arch->uarch_str, str);
+
+  arch->isa_str = emalloc(sizeof(char) * (strlen(isas_string[arch->isa])+1));
+  strcpy(arch->isa_str, isas_string[arch->isa]);
+}
+
+/*
+ * Codes are based on pytorch/cpuinfo, more precisely:
+ * - https://github.com/pytorch/cpuinfo/blob/master/src/arm/uarch.c
+ * Other sources:
+ * - https://elixir.bootlin.com/linux/latest/source/arch/arm64/include/asm/cputype.h
+ * - https://elixir.bootlin.com/linux/latest/source/arch/arm/include/asm/cputype.h
+ */
+struct uarch* get_uarch_from_midr(uint32_t midr, struct cpuInfo* cpu) {
+  struct uarch* arch = emalloc(sizeof(struct uarch));
+  uint32_t im = midr_get_implementer(midr);
+  uint32_t p = midr_get_part(midr);
+  uint32_t v = midr_get_variant(midr);
+  uint32_t r = midr_get_revision(midr);
+
+  // ----------------------------------------------------------------------- //
+  // IM: Implementer                                                         //
+  // P:  Part                                                                //
+  // V:  Variant                                                             //
+  // R:  Revision                                                            //
+  // ----------------------------------------------------------------------- //
+  //                     IM   P      V   R                                   //
+  UARCH_START
+  CHECK_UARCH(arch, cpu, 'A', 0xB36, NA, NA, "ARM1136",               UARCH_ARM1136,      CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xB56, NA, NA, "ARM1156",               UARCH_ARM1156,      CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xB76, NA, NA, "ARM1176",               UARCH_ARM1176,      CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xB02, NA, NA, "ARM11 MPCore",          UARCH_ARM11MPCORE,  CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xC05, NA, NA, "Cortex-A5",             UARCH_CORTEX_A5,    CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xC07, NA, NA, "Cortex-A7",             UARCH_CORTEX_A7,    CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xC08, NA, NA, "Cortex-A8",             UARCH_CORTEX_A8,    CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xC09, NA, NA, "Cortex-A9",             UARCH_CORTEX_A9,    CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xC0C, NA, NA, "Cortex-A12",            UARCH_CORTEX_A12,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xC0E, NA, NA, "Cortex-A17",            UARCH_CORTEX_A17,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xC0D, NA, NA, "Cortex-A12",            UARCH_CORTEX_A12,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xC0F, NA, NA, "Cortex-A15",            UARCH_CORTEX_A15,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD01, NA, NA, "Cortex-A32",            UARCH_CORTEX_A32,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD03, NA, NA, "Cortex-A53",            UARCH_CORTEX_A53,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD04, NA, NA, "Cortex-A35",            UARCH_CORTEX_A35,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD05, NA,  0, "Cortex-A55",            UARCH_CORTEX_A55r0, CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD05, NA, NA, "Cortex-A55",            UARCH_CORTEX_A55,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD06, NA, NA, "Cortex-A65",            UARCH_CORTEX_A65,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD07, NA, NA, "Cortex-A57",            UARCH_CORTEX_A57,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD08, NA, NA, "Cortex-A72",            UARCH_CORTEX_A72,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD09, NA, NA, "Cortex-A73",            UARCH_CORTEX_A73,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD0A, NA, NA, "Cortex-A75",            UARCH_CORTEX_A75,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD0B, NA, NA, "Cortex-A76",            UARCH_CORTEX_A76,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD0C, NA, NA, "Neoverse N1",           UARCH_NEOVERSE_N1,  CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD0D, NA, NA, "Cortex-A77",            UARCH_CORTEX_A77,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD0E, NA, NA, "Cortex-A76",            UARCH_CORTEX_A76,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD41, NA, NA, "Cortex-A78",            UARCH_CORTEX_A78,   CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD44, NA, NA, "Cortex-X1",             UARCH_CORTEX_X1,    CPU_VENDOR_ARM)
+  CHECK_UARCH(arch, cpu, 'A', 0xD4A, NA, NA, "Neoverse E1",           UARCH_NEOVERSE_E1,  CPU_VENDOR_ARM)
+
+  CHECK_UARCH(arch, cpu, 'B', 0x00F, NA, NA, "Brahma B15",            UARCH_BRAHMA_B15,   CPU_VENDOR_BROADCOM)
+  CHECK_UARCH(arch, cpu, 'B', 0x100, NA, NA, "Brahma B53",            UARCH_BRAHMA_B53,   CPU_VENDOR_BROADCOM)
+  CHECK_UARCH(arch, cpu, 'B', 0x516, NA, NA, "ThunderX2",             UARCH_THUNDERX2,    CPU_VENDOR_CAVIUM)
+
+  CHECK_UARCH(arch, cpu, 'C', 0x0A0, NA, NA, "ThunderX",              UARCH_THUNDERX,     CPU_VENDOR_CAVIUM)
+  CHECK_UARCH(arch, cpu, 'C', 0x0A1, NA, NA, "ThunderX 88XX",         UARCH_THUNDERX,     CPU_VENDOR_CAVIUM)
+  CHECK_UARCH(arch, cpu, 'C', 0x0A2, NA, NA, "ThunderX 81XX",         UARCH_THUNDERX,     CPU_VENDOR_CAVIUM)
+  CHECK_UARCH(arch, cpu, 'C', 0x0A3, NA, NA, "ThunderX 81XX",         UARCH_THUNDERX,     CPU_VENDOR_CAVIUM)
+  CHECK_UARCH(arch, cpu, 'C', 0x0AF, NA, NA, "ThunderX2 99XX",        UARCH_THUNDERX2,    CPU_VENDOR_CAVIUM)
+
+  CHECK_UARCH(arch, cpu, 'H', 0xD01, NA, NA, "TaiShan v110",          UARCH_TAISHAN_V110, CPU_VENDOR_HUAWUEI) // Kunpeng 920 series
+  CHECK_UARCH(arch, cpu, 'H', 0xD40, NA, NA, "Cortex-A76",            UARCH_CORTEX_A76,   CPU_VENDOR_ARM)     // Kirin 980 Big/Medium cores -> Cortex-A76
+
+  CHECK_UARCH(arch, cpu, 'N', 0x000, NA, NA, "Denver",                UARCH_DENVER,       CPU_VENDOR_NVIDIA)
+  CHECK_UARCH(arch, cpu, 'N', 0x003, NA, NA, "Denver2",               UARCH_DENVER2,      CPU_VENDOR_NVIDIA)
+  CHECK_UARCH(arch, cpu, 'N', 0x004, NA, NA, "Carmel",                UARCH_CARMEL,       CPU_VENDOR_NVIDIA)
+
+  CHECK_UARCH(arch, cpu, 'P', 0x000, NA, NA, "Xgene",                 UARCH_XGENE,        CPU_VENDOR_APM)
+
+  CHECK_UARCH(arch, cpu, 'Q', 0x00F, NA, NA, "Scorpion",              UARCH_SCORPION,     CPU_VENDOR_QUALCOMM)
+  CHECK_UARCH(arch, cpu, 'Q', 0x02D, NA, NA, "Scorpion",              UARCH_KRAIT,        CPU_VENDOR_QUALCOMM)
+  CHECK_UARCH(arch, cpu, 'Q', 0x04D,  1,  0, "Krait 200",             UARCH_KRAIT,        CPU_VENDOR_QUALCOMM)
+  CHECK_UARCH(arch, cpu, 'Q', 0x04D,  1,  4, "Krait 200",             UARCH_KRAIT,        CPU_VENDOR_QUALCOMM)
+  CHECK_UARCH(arch, cpu, 'Q', 0x04D,  2,  0, "Krait 300",             UARCH_KRAIT,        CPU_VENDOR_QUALCOMM)
+  CHECK_UARCH(arch, cpu, 'Q', 0x06F,  0,  1, "Krait 200",             UARCH_KRAIT,        CPU_VENDOR_QUALCOMM)
+  CHECK_UARCH(arch, cpu, 'Q', 0x06F,  0,  2, "Krait 200",             UARCH_KRAIT,        CPU_VENDOR_QUALCOMM)
+  CHECK_UARCH(arch, cpu, 'Q', 0x06F,  1,  0, "Krait 300",             UARCH_KRAIT,        CPU_VENDOR_QUALCOMM)
+  CHECK_UARCH(arch, cpu, 'Q', 0x06F,  2,  0, "Krait 400",             UARCH_KRAIT,        CPU_VENDOR_QUALCOMM) // Snapdragon 800 MSMxxxx
+  CHECK_UARCH(arch, cpu, 'Q', 0x06F,  2,  1, "Krait 400",             UARCH_KRAIT,        CPU_VENDOR_QUALCOMM) // Snapdragon 801 MSMxxxxPRO
+  CHECK_UARCH(arch, cpu, 'Q', 0x06F,  3,  1, "Krait 450",             UARCH_KRAIT,        CPU_VENDOR_QUALCOMM)
+  CHECK_UARCH(arch, cpu, 'Q', 0x201, NA, NA, "Kryo Silver",           UARCH_KYRO,         CPU_VENDOR_QUALCOMM) // Qualcomm Snapdragon 821: Low-power Kryo "Silver"
+  CHECK_UARCH(arch, cpu, 'Q', 0x205, NA, NA, "Kryo Gold",             UARCH_KYRO,         CPU_VENDOR_QUALCOMM) // Qualcomm Snapdragon 820 & 821: High-performance Kryo "Gold"
+  CHECK_UARCH(arch, cpu, 'Q', 0x211, NA, NA, "Kryo Silver",           UARCH_KYRO,         CPU_VENDOR_QUALCOMM) // Qualcomm Snapdragon 820: Low-power Kryo "Silver"
+  CHECK_UARCH(arch, cpu, 'Q', 0x800, 10, NA, "Kryo 260 / 280 Gold",   UARCH_CORTEX_A73,   CPU_VENDOR_ARM)      // Kryo 260 / Kryo 280 "Gold"
+  CHECK_UARCH(arch, cpu, 'Q', 0x801, 10, NA, "Kryo 260 / 280 Silver", UARCH_CORTEX_A53,   CPU_VENDOR_ARM)      // Kryo 260 / 280 "Silver"
+  CHECK_UARCH(arch, cpu, 'Q', 0x802, NA, NA, "Kryo 385 Gold",         UARCH_CORTEX_A75,   CPU_VENDOR_ARM)      // High-performance Kryo 385 "Gold" -> Cortex-A75
+  CHECK_UARCH(arch, cpu, 'Q', 0x803, NA, NA, "Kryo 385 Silver",       UARCH_CORTEX_A55r0, CPU_VENDOR_ARM)      // Low-power Kryo 385 "Silver" -> Cortex-A55r0
+  CHECK_UARCH(arch, cpu, 'Q', 0x804, NA, NA, "Kryo 485 Gold",         UARCH_CORTEX_A76,   CPU_VENDOR_ARM)      // High-performance Kryo 485 "Gold" / "Gold Prime" -> Cortex-A76
+  CHECK_UARCH(arch, cpu, 'Q', 0x805, NA, NA, "Kryo 485 Silver",       UARCH_CORTEX_A55,   CPU_VENDOR_ARM)      // Low-performance Kryo 485 "Silver" -> Cortex-A55
+  CHECK_UARCH(arch, cpu, 'Q', 0xC00, NA, NA, "Falkor",                UARCH_FALKOR,       CPU_VENDOR_QUALCOMM)
+  CHECK_UARCH(arch, cpu, 'Q', 0xC01, NA, NA, "Saphira",               UARCH_SAPHIRA,      CPU_VENDOR_QUALCOMM)
+
+  CHECK_UARCH(arch, cpu, 'S', 0x001, 1,  NA, "Exynos M1",             UARCH_EXYNOS_M1,    CPU_VENDOR_SAMSUNG)   // Exynos 8890
+  CHECK_UARCH(arch, cpu, 'S', 0x001, 4,  NA, "Exynos M2",             UARCH_EXYNOS_M2,    CPU_VENDOR_SAMSUNG)   // Exynos 8895
+  CHECK_UARCH(arch, cpu, 'S', 0x002, 1,  NA, "Exynos M3",             UARCH_EXYNOS_M3,    CPU_VENDOR_SAMSUNG)   // Exynos 9810
+  CHECK_UARCH(arch, cpu, 'S', 0x003, 1,  NA, "Exynos M4",             UARCH_EXYNOS_M4,    CPU_VENDOR_SAMSUNG)   // Exynos 9820
+  CHECK_UARCH(arch, cpu, 'S', 0x004, 1,  NA, "Exynos M5",             UARCH_EXYNOS_M5,    CPU_VENDOR_SAMSUNG)   // Exynos 9820 (this one looks wrong at uarch.c ...)
+
+  CHECK_UARCH(arch, cpu, 'p', 0x663, 1,  NA, "Xiaomi",                UARCH_XIAOMI,       CPU_VENDOR_PHYTIUM)   // From a fellow contributor (https://github.com/Dr-Noob/cpufetch/issues/125)
+                                                                                                                // Also interesting: https://en.wikipedia.org/wiki/FeiTeng_(processor)
+
+  CHECK_UARCH(arch, cpu, 'a', 0x022, NA, NA, "Icestorm",              UARCH_ICESTORM,     CPU_VENDOR_APPLE)
+  CHECK_UARCH(arch, cpu, 'a', 0x023, NA, NA, "Firestorm",             UARCH_FIRESTORM,    CPU_VENDOR_APPLE)
+  CHECK_UARCH(arch, cpu, 'a', 0x030, NA, NA, "Blizzard",              UARCH_BLIZZARD,     CPU_VENDOR_APPLE)
+  CHECK_UARCH(arch, cpu, 'a', 0x031, NA, NA, "Avalanche",             UARCH_AVALANCHE,    CPU_VENDOR_APPLE)
+
+  CHECK_UARCH(arch, cpu, 'V', 0x581, NA, NA, "PJ4",                   UARCH_PJ4,          CPU_VENDOR_MARVELL)
+  CHECK_UARCH(arch, cpu, 'V', 0x584, NA, NA, "PJ4B-MP",               UARCH_PJ4,          CPU_VENDOR_MARVELL)
+
+  UARCH_END
+
+  return arch;
+}
+
+char* get_str_uarch(struct cpuInfo* cpu) {
+  return cpu->arch->uarch_str;
+}
+
+void free_uarch_struct(struct uarch* arch) {
+  free(arch->uarch_str);
+  free(arch);
+}

src/arm/uarch.h

@@ -0,0 +1,12 @@
+#ifndef __UARCH__
+#define __UARCH__
+
+#include <stdint.h>
+
+#include "midr.h"
+
+struct uarch* get_uarch_from_midr(uint32_t midr, struct cpuInfo* cpu);
+char* get_str_uarch(struct cpuInfo* cpu);
+void free_uarch_struct(struct uarch* arch);
+
+#endif

src/arm/udev.c

@@ -0,0 +1,152 @@
+#include "../common/global.h"
+#include "udev.h"
+#include "midr.h"
+
+#define _PATH_DEVICETREE_MODEL       "/sys/firmware/devicetree/base/model"
+#define _PATH_CPUINFO                "/proc/cpuinfo"
+//#define _PATH_CPUINFO                "cpuinfo_debug"
+
+#define CPUINFO_CPU_IMPLEMENTER_STR  "CPU implementer\t: "
+#define CPUINFO_CPU_ARCHITECTURE_STR "CPU architecture: "
+#define CPUINFO_CPU_VARIANT_STR      "CPU variant\t: "
+#define CPUINFO_CPU_PART_STR         "CPU part\t: "
+#define CPUINFO_CPU_REVISION_STR     "CPU revision\t: "
+#define CPUINFO_HARDWARE_STR         "Hardware\t: "
+#define CPUINFO_REVISION_STR         "Revision\t: "
+
+#define CPUINFO_CPU_STRING "processor"
+
+long parse_cpuinfo_field(char* buf, char* field_str, int field_base) {
+  char* tmp = strstr(buf, field_str);
+  if(tmp == NULL) return -1;
+  tmp += strlen(field_str);
+
+  char* end;
+  errno = 0;
+  long ret = strtol(tmp, &end, field_base);
+  if(errno != 0) {
+    printWarn("strtol: %s:\n", strerror(errno));
+    return -1;
+  }
+
+  return ret;
+}
+// https://developer.arm.com/docs/ddi0595/h/aarch32-system-registers/midr
+// https://static.docs.arm.com/ddi0595/h/SysReg_xml_v86A-2020-06.pdf
+uint32_t get_midr_from_cpuinfo(uint32_t core, bool* success) {
+  int filelen;
+  char* buf;
+  *success = true;
+  if((buf = read_file(_PATH_CPUINFO, &filelen)) == NULL) {
+    printWarn("read_file: %s: %s\n", _PATH_CPUINFO, strerror(errno));
+    *success = false;
+    return 0;
+  }
+
+  char* tmp = strstr(buf, CPUINFO_CPU_STRING);
+  uint32_t current_core = 0;
+  while(core != current_core && tmp != NULL) {
+    tmp++;
+    current_core++;
+    tmp = strstr(tmp, CPUINFO_CPU_STRING);
+  }
+
+  if(tmp == NULL) {
+    *success = false;
+    return 0;
+  }
+
+  uint32_t cpu_implementer;
+  uint32_t cpu_architecture;
+  uint32_t cpu_variant;
+  uint32_t cpu_part;
+  uint32_t cpu_revision;
+  uint32_t midr = 0;
+  long ret;
+
+  if ((ret = parse_cpuinfo_field(tmp, CPUINFO_CPU_IMPLEMENTER_STR, 16)) < 0) {
+    printBug("get_midr_from_cpuinfo: Failed parsing cpu_implementer\n");
+    *success = false;
+    return 0;
+  }
+  cpu_implementer = (uint32_t) ret;
+
+  if ((ret = parse_cpuinfo_field(tmp, CPUINFO_CPU_ARCHITECTURE_STR, 10)) < 0) {
+    printBug("get_midr_from_cpuinfo: Failed parsing cpu_architecture\n");
+    *success = false;
+    return 0;
+  }
+  cpu_architecture = (uint32_t) 0xF; // Why?
+
+  if ((ret = parse_cpuinfo_field(tmp, CPUINFO_CPU_VARIANT_STR, 16)) < 0) {
+    printBug("get_midr_from_cpuinfo: Failed parsing cpu_variant\n");
+    *success = false;
+    return 0;
+  }
+  cpu_variant = (uint32_t) ret;
+
+  if ((ret = parse_cpuinfo_field(tmp, CPUINFO_CPU_PART_STR, 16)) < 0) {
+    printBug("get_midr_from_cpuinfo: Failed parsing cpu_part\n");
+    *success = false;
+    return 0;
+  }
+  cpu_part = (uint32_t) ret;
+
+  if ((ret = parse_cpuinfo_field(tmp, CPUINFO_CPU_REVISION_STR, 10)) < 0) {
+    printBug("get_midr_from_cpuinfo: Failed parsing cpu_revision\n");
+    *success = false;
+    return 0;
+  }
+  cpu_revision = (uint32_t) ret;
+
+  midr = midr_set_implementer(midr, cpu_implementer);
+  midr = midr_set_variant(midr, cpu_variant);
+  midr = midr_set_architecture(midr, cpu_architecture);
+  midr = midr_set_part(midr, cpu_part);
+  midr = midr_set_revision(midr, cpu_revision);
+
+  return midr;
+}
+
+char* get_field_from_cpuinfo(char* CPUINFO_FIELD) {
+  int filelen;
+  char* buf;
+  if((buf = read_file(_PATH_CPUINFO, &filelen)) == NULL) {
+    printWarn("read_file: %s: %s:\n", _PATH_CPUINFO, strerror(errno));
+    return NULL;
+  }
+
+  char* tmp1 = strstr(buf, CPUINFO_FIELD);
+  if(tmp1 == NULL) return NULL;
+  tmp1 = tmp1 + strlen(CPUINFO_FIELD);
+  char* tmp2 = strstr(tmp1, "\n");
+
+  int strlen = (1 + (tmp2-tmp1));
+  char* hardware = emalloc(sizeof(char) * strlen);
+  memset(hardware, 0, sizeof(char) * strlen);
+  strncpy(hardware, tmp1, tmp2-tmp1);
+
+  return hardware;
+}
+
+char* get_hardware_from_cpuinfo() {
+  return get_field_from_cpuinfo(CPUINFO_HARDWARE_STR);
+}
+
+char* get_revision_from_cpuinfo() {
+  return get_field_from_cpuinfo(CPUINFO_REVISION_STR);
+}
+
+bool is_raspberry_pi() {
+  int filelen;
+  char* buf;
+  if((buf = read_file(_PATH_DEVICETREE_MODEL, &filelen)) == NULL) {
+    return false;
+  }
+
+  char* tmp;
+  if((tmp = strstr(buf, "Raspberry Pi")) == NULL) {
+    return false;
+  }
+  return true;
+}

src/arm/udev.h

@@ -0,0 +1,14 @@
+#ifndef __UDEV_ARM__
+#define __UDEV_ARM__
+
+#include "../common/udev.h"
+
+#define UNKNOWN -1
+int get_ncores_from_cpuinfo();
+uint32_t get_midr_from_cpuinfo(uint32_t core, bool* success);
+char* get_hardware_from_cpuinfo();
+char* get_revision_from_cpuinfo();
+bool is_raspberry_pi();
+
+#endif
+

src/ascii.h

@@ -1,51 +0,0 @@
-#ifndef __ASCII__
-#define __ASCII__
-
-#define NUMBER_OF_LINES   20
-#define LINE_SIZE         62
-
-#define AMD_ASCII \
-"                                                              \
-                                                              \
-                                                              \
-                                                              \
-                                                              \
-                                                              \
-     @@@@      @@@       @@@   @@@@@@@@        ############   \
-    @@@@@@     @@@@@    @@@@   @@@    @@@@       ##########   \
-   @@@  @@@    @@@@@@@@@@@@@   @@@      @@      #      ####   \
-  @@@    @@@   @@@  @@@  @@@   @@@      @@@   ###      ####   \
- @@@@@@@@@@@@  @@@       @@@   @@@     @@@   ####    ## ###   \
- @@@      @@@  @@@       @@@   @@@@@@@@@     ########    ##   \
-                                                              \
-                                                              \
-                                                              \
-                                                              \
-                                                              \
-                                                              \
-                                                              \
-                                                            "
-
-#define INTEL_ASCII \
-"                              ################                \
-                      #######                #######          \
-                 ####                              ####       \
-             ###                                     ####     \
-        ###                                             ###   \
-        ###                                             ###   \
-     #                    ###                ###        ###   \
-   ##   ###   #########   ######   ######    ###        ###   \
-  ##    ###   ###    ###  ###    ####  ####  ###        ###   \
- ##     ###   ###    ###  ###    ###    ###  ###       ###    \
-##      ###   ###    ###  ###    ##########  ###     ####     \
-##      ###   ###    ###  ###    ###         ###   #####      \
-##       ##   ###    ###   #####  #########   ##  ###         \
-###                                                           \
- ###                                                          \
- ####                                        ####             \
-   #####                               ##########             \
-     ##########               ################                \
-         ###############################                      \
-                                                            "
-
-#endif

src/common/args.c

@@ -0,0 +1,376 @@
+#include <getopt.h>
+#include <stdio.h>
+#include <string.h>
+#include <stdlib.h>
+#include "args.h"
+#include "global.h"
+
+#define NUM_COLORS      5
+
+#define COLOR_STR_INTEL     "intel"
+#define COLOR_STR_INTEL_NEW "intel-new"
+#define COLOR_STR_AMD       "amd"
+#define COLOR_STR_IBM       "ibm"
+#define COLOR_STR_ARM       "arm"
+
+static const char *SYTLES_STR_LIST[] = {
+  [STYLE_EMPTY]   = NULL,
+  [STYLE_FANCY]   = "fancy",
+  [STYLE_RETRO]   = "retro",
+  [STYLE_LEGACY]  = "legacy",
+  [STYLE_INVALID] = NULL
+};
+
+struct args_struct {
+  bool debug_flag;
+  bool help_flag;
+  bool raw_flag;
+  bool accurate_pp;
+  bool full_cpu_name_flag;
+  bool logo_long;
+  bool logo_short;
+  bool logo_intel_new;
+  bool logo_intel_old;
+  bool verbose_flag;
+  bool version_flag;
+  STYLE style;
+  struct color** colors;
+};
+
+const char args_chr[] = {
+  /* [ARG_STYLE]          = */ 's',
+  /* [ARG_COLOR]          = */ 'c',
+  /* [ARG_HELP]           = */ 'h',
+  /* [ARG_RAW]            = */ 'r',
+  /* [ARG_FULLCPUNAME]    = */ 'F',
+  /* [ARG_LOGO_LONG]      = */ 1,
+  /* [ARG_LOGO_SHORT]     = */ 2,
+  /* [ARG_LOGO_INTEL_NEW] = */ 3,
+  /* [ARG_LOGO_INTEL_OLD] = */ 4,
+  /* [ARG_ACCURATE_PP]    = */ 5,
+  /* [ARG_DEBUG]          = */ 'd',
+  /* [ARG_VERBOSE]        = */ 'v',
+  /* [ARG_VERSION]        = */ 'V',
+};
+
+const char *args_str[] = {
+  /* [ARG_STYLE]          = */ "style",
+  /* [ARG_COLOR]          = */ "color",
+  /* [ARG_HELP]           = */ "help",
+  /* [ARG_RAW]            = */ "raw",
+  /* [ARG_FULLCPUNAME]    = */ "full-cpu-name",
+  /* [ARG_LOGO_LONG]      = */ "logo-long",
+  /* [ARG_LOGO_SHORT]     = */ "logo-short",
+  /* [ARG_LOGO_INTEL_NEW] = */ "logo-intel-new",
+  /* [ARG_LOGO_INTEL_OLD] = */ "logo-intel-old",
+  /* [ARG_ACCURATE_PP]    = */ "accurate-pp",
+  /* [ARG_DEBUG]          = */ "debug",
+  /* [ARG_VERBOSE]        = */ "verbose",
+  /* [ARG_VERSION]        = */ "version",
+};
+
+static struct args_struct args;
+
+STYLE get_style() {
+  return args.style;
+}
+
+struct color** get_colors() {
+  return args.colors;
+}
+
+bool show_help() {
+  return args.help_flag;
+}
+
+bool show_version() {
+  return args.version_flag;
+}
+
+bool show_debug() {
+  return args.debug_flag;
+}
+
+bool show_raw() {
+  return args.raw_flag;
+}
+
+bool accurate_pp() {
+  return args.accurate_pp;
+}
+
+bool show_full_cpu_name() {
+  return args.full_cpu_name_flag;
+}
+
+bool show_logo_long() {
+  return args.logo_long;
+}
+
+bool show_logo_short() {
+  return args.logo_short;
+}
+
+bool show_logo_intel_new() {
+  return args.logo_intel_new;
+}
+
+bool show_logo_intel_old() {
+  return args.logo_intel_old;
+}
+
+bool verbose_enabled() {
+  return args.verbose_flag;
+}
+
+int max_arg_str_length() {
+  int max_len = -1;
+  int len = sizeof(args_str) / sizeof(args_str[0]);
+  for(int i=0; i < len; i++) {
+    max_len = max(max_len, (int) strlen(args_str[i]));
+  }
+  return max_len;
+}
+
+STYLE parse_style(char* style) {
+  uint8_t i = 0;
+  uint8_t styles_count = sizeof(SYTLES_STR_LIST) / sizeof(SYTLES_STR_LIST[0]);
+
+  while(i != styles_count && (SYTLES_STR_LIST[i] == NULL || strcmp(SYTLES_STR_LIST[i], style) != 0))
+    i++;
+
+  if(i == styles_count)
+    return STYLE_INVALID;
+
+  return i;
+}
+
+void free_colors_struct(struct color** cs) {
+  for(int i=0; i < NUM_COLORS; i++) {
+    free(cs[i]);
+  }
+  free(cs);
+}
+
+bool parse_color(char* optarg_str, struct color*** cs) {
+  for(int i=0; i < NUM_COLORS; i++) {
+    (*cs)[i] = emalloc(sizeof(struct color));
+  }
+
+  struct color** c = *cs;
+  int32_t ret;
+  char* str_to_parse = NULL;
+  char* color_to_copy = NULL;
+  bool free_ptr = true;
+
+  if(strcmp(optarg_str, COLOR_STR_INTEL) == 0) color_to_copy = COLOR_DEFAULT_INTEL;
+  else if(strcmp(optarg_str, COLOR_STR_INTEL_NEW) == 0) color_to_copy = COLOR_DEFAULT_INTEL_NEW;
+  else if(strcmp(optarg_str, COLOR_STR_AMD) == 0) color_to_copy = COLOR_DEFAULT_AMD;
+  else if(strcmp(optarg_str, COLOR_STR_IBM) == 0) color_to_copy = COLOR_DEFAULT_IBM;
+  else if(strcmp(optarg_str, COLOR_STR_ARM) == 0) color_to_copy = COLOR_DEFAULT_ARM;
+  else {
+    str_to_parse = optarg_str;
+    free_ptr = false;
+  }
+
+  if(str_to_parse == NULL) {
+    str_to_parse = emalloc(sizeof(char) * (strlen(color_to_copy) + 1));
+    strcpy(str_to_parse, color_to_copy);
+  }
+
+  ret = sscanf(str_to_parse, "%d,%d,%d:%d,%d,%d:%d,%d,%d:%d,%d,%d:%d,%d,%d",
+               &c[0]->R, &c[0]->G, &c[0]->B,
+               &c[1]->R, &c[1]->G, &c[1]->B,
+               &c[2]->R, &c[2]->G, &c[2]->B,
+               &c[3]->R, &c[3]->G, &c[3]->B,
+               &c[4]->R, &c[4]->G, &c[4]->B);
+
+  int expected_colors = 3 * NUM_COLORS;
+  if(ret != expected_colors) {
+    printErr("Expected to read %d values for color but read %d", expected_colors, ret);
+    return false;
+  }
+
+  for(int i=0; i < NUM_COLORS; i++) {
+    if(c[i]->R < 0 || c[i]->R > 255) {
+      printErr("Red in color %d is invalid: %d; must be in range (0, 255)", i+1, c[i]->R);
+      return false;
+    }
+    if(c[i]->G < 0 || c[i]->G > 255) {
+      printErr("Green in color %d is invalid: %d; must be in range (0, 255)", i+1, c[i]->G);
+      return false;
+    }
+    if(c[i]->B < 0 || c[i]->B > 255) {
+      printErr("Blue in color %d is invalid: %d; must be in range (0, 255)", i+1, c[i]->B);
+      return false;
+    }
+  }
+
+  if(free_ptr) free (str_to_parse);
+
+  return true;
+}
+
+char* build_short_options() {
+  const char *c = args_chr;
+  int len = sizeof(args_chr) / sizeof(args_chr[0]);
+  char* str = (char *) emalloc(sizeof(char) * (len*2 + 1));
+  memset(str, 0, sizeof(char) * (len*2 + 1));
+
+#ifdef ARCH_X86
+  sprintf(str, "%c:%c:%c%c%c%c%c%c%c%c%c%c%c",
+  c[ARG_STYLE], c[ARG_COLOR], c[ARG_HELP],
+  c[ARG_RAW], c[ARG_FULLCPUNAME],
+  c[ARG_LOGO_SHORT], c[ARG_LOGO_LONG],
+  c[ARG_LOGO_INTEL_NEW], c[ARG_LOGO_INTEL_OLD],
+  c[ARG_ACCURATE_PP], c[ARG_DEBUG], c[ARG_VERBOSE],
+  c[ARG_VERSION]);
+#else
+  sprintf(str, "%c:%c:%c%c%c%c%c%c",
+  c[ARG_STYLE], c[ARG_COLOR], c[ARG_HELP],
+  c[ARG_LOGO_SHORT], c[ARG_LOGO_LONG],
+  c[ARG_DEBUG], c[ARG_VERBOSE],
+  c[ARG_VERSION]);
+#endif
+
+  return str;
+}
+
+bool parse_args(int argc, char* argv[]) {
+  int opt;
+  int option_index = 0;
+  opterr = 0;
+
+  bool color_flag = false;
+  args.debug_flag = false;
+  args.accurate_pp = false;
+  args.full_cpu_name_flag = false;
+  args.raw_flag = false;
+  args.verbose_flag = false;
+  args.logo_long = false;
+  args.logo_short = false;
+  args.logo_intel_new = false;
+  args.logo_intel_old = false;
+  args.help_flag = false;
+  args.style = STYLE_EMPTY;
+  args.colors = NULL;
+
+  // Temporary enable verbose level to allow printing warnings inside parse_args
+  set_log_level(true);
+
+  const struct option long_options[] = {
+    {args_str[ARG_STYLE],          required_argument, 0, args_chr[ARG_STYLE]          },
+    {args_str[ARG_COLOR],          required_argument, 0, args_chr[ARG_COLOR]          },
+    {args_str[ARG_HELP],           no_argument,       0, args_chr[ARG_HELP]           },
+#ifdef ARCH_X86
+    {args_str[ARG_LOGO_INTEL_NEW], no_argument,       0, args_chr[ARG_LOGO_INTEL_NEW] },
+    {args_str[ARG_LOGO_INTEL_OLD], no_argument,       0, args_chr[ARG_LOGO_INTEL_OLD] },
+    {args_str[ARG_ACCURATE_PP],    no_argument,       0, args_chr[ARG_ACCURATE_PP]    },
+    {args_str[ARG_FULLCPUNAME],    no_argument,       0, args_chr[ARG_FULLCPUNAME]    },
+    {args_str[ARG_RAW],            no_argument,       0, args_chr[ARG_RAW]            },
+#endif
+    {args_str[ARG_LOGO_SHORT],     no_argument,       0, args_chr[ARG_LOGO_SHORT]     },
+    {args_str[ARG_LOGO_LONG],      no_argument,       0, args_chr[ARG_LOGO_LONG]      },
+    {args_str[ARG_DEBUG],          no_argument,       0, args_chr[ARG_DEBUG]          },
+    {args_str[ARG_VERBOSE],        no_argument,       0, args_chr[ARG_VERBOSE]        },
+    {args_str[ARG_VERSION],        no_argument,       0, args_chr[ARG_VERSION]        },
+    {0, 0, 0, 0}
+  };
+
+  char* short_options = build_short_options();
+  opt = getopt_long(argc, argv, short_options, long_options, &option_index);
+
+  while (!args.help_flag && !args.debug_flag && !args.version_flag && opt != -1) {
+    if(opt == args_chr[ARG_COLOR]) {
+      if(color_flag) {
+        printErr("Color option specified more than once");
+        return false;
+      }
+      color_flag  = true;
+      args.colors = emalloc(sizeof(struct color *) * NUM_COLORS);
+      if(!parse_color(optarg, &args.colors)) {
+        return false;
+      }
+    }
+    else if(opt == args_chr[ARG_STYLE]) {
+      if(args.style != STYLE_EMPTY) {
+        printErr("Style option specified more than once");
+        return false;
+      }
+      args.style = parse_style(optarg);
+      if(args.style == STYLE_INVALID) {
+        printErr("Invalid style '%s'",optarg);
+        return false;
+      }
+    }
+    else if(opt == args_chr[ARG_HELP]) {
+      args.help_flag  = true;
+    }
+    else if(opt == args_chr[ARG_ACCURATE_PP]) {
+       args.accurate_pp = true;
+    }
+    else if(opt == args_chr[ARG_FULLCPUNAME]) {
+       args.full_cpu_name_flag = true;
+    }
+    else if(opt == args_chr[ARG_LOGO_SHORT]) {
+       args.logo_short = true;
+    }
+    else if(opt == args_chr[ARG_LOGO_LONG]) {
+       args.logo_long = true;
+    }
+    else if(opt == args_chr[ARG_LOGO_INTEL_NEW]) {
+       args.logo_intel_new = true;
+    }
+    else if(opt == args_chr[ARG_LOGO_INTEL_OLD]) {
+       args.logo_intel_old = true;
+    }
+    else if(opt == args_chr[ARG_RAW]) {
+       args.raw_flag  = true;
+    }
+    else if(opt == args_chr[ARG_VERBOSE]) {
+      args.verbose_flag  = true;
+    }
+    else if(opt == args_chr[ARG_DEBUG]) {
+      args.debug_flag  = true;
+    }
+    else if(opt == args_chr[ARG_VERSION]) {
+      args.version_flag = true;
+    }
+    else {
+      printWarn("Invalid options");
+      args.help_flag  = true;
+    }
+
+    option_index = 0;
+    opt = getopt_long(argc, argv, short_options, long_options, &option_index);
+  }
+
+  if(optind < argc) {
+    printWarn("Invalid options");
+    args.help_flag  = true;
+  }
+
+  if(args.logo_intel_new && args.logo_intel_old) {
+    printWarn("%s and %s cannot be specified together", args_str[ARG_LOGO_INTEL_NEW], args_str[ARG_LOGO_INTEL_OLD]);
+    args.logo_intel_new = false;
+    args.logo_intel_old = false;
+  }
+
+  if(args.logo_short && args.logo_long) {
+    printWarn("%s and %s cannot be specified together", args_str[ARG_LOGO_SHORT], args_str[ARG_LOGO_LONG]);
+    args.logo_short = false;
+    args.logo_long = false;
+  }
+
+#if defined(ARCH_X86) && ! defined(__linux__)
+  if(args.accurate_pp) {
+    printWarn("%s option is valid only in Linux x86_64", args_str[ARG_ACCURATE_PP]);
+    args.help_flag  = true;
+  }
+#endif
+
+  // Leave log level untouched after returning
+  set_log_level(false);
+
+  return true;
+}

src/common/args.h

@@ -0,0 +1,59 @@
+#ifndef __ARGS__
+#define __ARGS__
+
+#include <stdbool.h>
+#include <stdint.h>
+
+struct color {
+  int32_t R;
+  int32_t G;
+  int32_t B;
+};
+
+enum {
+  STYLE_EMPTY,
+  STYLE_FANCY,
+  STYLE_RETRO,
+  STYLE_LEGACY,
+  STYLE_INVALID
+};
+
+enum {
+  ARG_STYLE,
+  ARG_COLOR,
+  ARG_HELP,
+  ARG_RAW,
+  ARG_FULLCPUNAME,
+  ARG_LOGO_LONG,
+  ARG_LOGO_SHORT,
+  ARG_LOGO_INTEL_NEW,
+  ARG_LOGO_INTEL_OLD,
+  ARG_ACCURATE_PP,
+  ARG_DEBUG,
+  ARG_VERBOSE,
+  ARG_VERSION
+};
+
+extern const char args_chr[];
+extern const char *args_str[];
+
+#include "printer.h"
+
+int max_arg_str_length();
+bool parse_args(int argc, char* argv[]);
+bool show_help();
+bool accurate_pp();
+bool show_full_cpu_name();
+bool show_logo_long();
+bool show_logo_short();
+bool show_logo_intel_new();
+bool show_logo_intel_old();
+bool show_raw();
+bool show_debug();
+bool show_version();
+bool verbose_enabled();
+void free_colors_struct(struct color** cs);
+struct color** get_colors();
+STYLE get_style();
+
+#endif

src/common/ascii.h

@@ -0,0 +1,349 @@
+#ifndef __ASCII__
+#define __ASCII__
+
+#define COLOR_NONE     ""
+#define C_FG_BLACK     "\x1b[30;1m"
+#define C_FG_RED       "\x1b[31;1m"
+#define C_FG_GREEN     "\x1b[32;1m"
+#define C_FG_YELLOW    "\x1b[33;1m"
+#define C_FG_BLUE      "\x1b[34;1m"
+#define C_FG_MAGENTA   "\x1b[35;1m"
+#define C_FG_CYAN      "\x1b[36;1m"
+#define C_FG_WHITE     "\x1b[37;1m"
+#define C_BG_BLACK     "\x1b[40;1m"
+#define C_BG_RED       "\x1b[41;1m"
+#define C_BG_GREEN     "\x1b[42;1m"
+#define C_BG_YELLOW    "\x1b[43;1m"
+#define C_BG_BLUE      "\x1b[44;1m"
+#define C_BG_MAGENTA   "\x1b[45;1m"
+#define C_BG_CYAN      "\x1b[46;1m"
+#define C_BG_WHITE     "\x1b[47;1m"
+#define C_FG_B_BLACK   "\x1b[90;1m"
+#define C_FG_B_RED     "\x1b[91;1m"
+#define C_FG_B_GREEN   "\x1b[92;1m"
+#define C_FG_B_YELLOW  "\x1b[93;1m"
+#define C_FG_B_BLUE    "\x1b[94;1m"
+#define C_FG_B_MAGENTA "\x1b[95;1m"
+#define C_FG_B_CYAN    "\x1b[96;1m"
+#define C_FG_B_WHITE   "\x1b[97;1m"
+#define COLOR_RESET    "\x1b[m"
+
+struct ascii_logo {
+  char* art;
+  uint32_t width;
+  uint32_t height;
+  bool replace_blocks;
+  char color_ascii[3][100];
+  char color_text[2][100];
+};
+
+/*
+ * ASCII logos brief documentation
+ * ----------------------------------------------------
+ * C1, C2, ...: ColorN, gets replaced by printer.c with
+ *              the color in ascii_logo->color_ascii[N]
+ * CR:          Color reset, gets replaced by the reset
+ *              color by printer.c
+ *
+ * Logos with replace_blocks=true are replaced by character
+ * blocks (actually, spaces with background color), so
+ * the color in the structure must be C_BG_XXX. When
+ * replace_blocks is true, the characters '#' are replaced
+ * by spaces printed with color_ascii[0], and '@' are
+ * printed with color_ascii[1]. If replace_blocks=true,
+ * color format specified in ASCIIs ($C1, $C2) are ignored.
+ *
+ * In any case, '$' is a illegal character to be used in
+ * the ascii logos because it is used to parse colors
+ *
+ * LONG_LOGOS will be printed only if the fit in the screen,
+ * otherwise SHORT_LOGOS will be used
+ */
+
+// SHORT LOGOS //
+#define ASCII_AMD \
+"$C2          '###############             \
+$C2             ,#############            \
+$C2                      .####            \
+$C2              #.      .####            \
+$C2            :##.      .####            \
+$C2           :###.      .####            \
+$C2           #########.   :##            \
+$C2           #######.       ;            \
+$C1                                       \
+$C1    ###     ###      ###   #######     \
+$C1   ## ##    #####  #####   ##     ##   \
+$C1  ##   ##   ### #### ###   ##      ##  \
+$C1 #########  ###  ##  ###   ##      ##  \
+$C1##       ## ###      ###   ##     ##   \
+$C1##       ## ###      ###   #######     "
+
+#define ASCII_INTEL \
+"$C1                   .#################.          \
+$C1              .####                   ####.     \
+$C1          .##                             ###   \
+$C1       ##                          :##     ###  \
+$C1    #                ##            :##      ##  \
+$C1  ##   ##  ######.   ####  ######  :##      ##  \
+$C1 ##    ##  ##:  ##:  ##   ##   ### :##     ###  \
+$C1##     ##  ##:  ##:  ##  :######## :##    ##    \
+$C1##     ##  ##:  ##:  ##   ##.   .  :## ####     \
+$C1##      #  ##:  ##:  ####  #####:   ##          \
+$C1 ##                                             \
+$C1  ###.                         ..o####.         \
+$C1   ######oo...         ..oo#######              \
+$C1          o###############o                     "
+
+#define ASCII_INTEL_NEW \
+"$C1  MMM                 oddl                   MMN   \
+$C1  MMM                 dMMN                   MMN   \
+$C1  ...  ....   ...     dMMM..      .cc.       NMN   \
+$C1  MMM  :MMMdWMMMMMX.  dMMMMM,  .XMMMMMMNo    MMN   \
+$C1  MMM  :MMMp    dMMM  dMMX   .NMW      WMN.  MMN   \
+$C1  MMM  :MMM      WMM  dMMK   kMMXooooooNMMx  MMN   \
+$C1  MMM  :MMM      NMM  dMMK   dMMX            MMN   \
+$C1  MMM  :MMM      NMM  dMMMoo  OMM0....:Nx.   MMN   \
+$C1  MMM  :WWW      XWW   lONMM   'xXMMMMNOc    MMN   "
+
+#define ASCII_SNAPD \
+"              $C1@@$C2########               \
+           $C1@@@@@$C2###########            \
+     $C1@@  @@@@@$C2#################        \
+   $C1@@@@@@@@@@$C2####################      \
+  $C1@@@@@@@@@@@@$C2#####################    \
+ $C1@@@@@@@@@@@@@@@$C2####################   \
+ $C1@@@@@@@@@@@@@@@@@$C2###################  \
+ $C1@@@@@@@@@@@@@@@@@@@@$C2################  \
+    $C1@@@@@@@@@@@@@@@@@@@@$C2#############  \
+       $C1@@@@@@@@@@@@@@@@@@$C2############  \
+$C1@          @@@@@@@@@@@@@@@$C2###########  \
+ $C1@@@@@       @@@@@@@@@@@@@$C2##########   \
+  $C1@@@@@@@@@   @@@@@@@@@@@@$C2########     \
+    $C1@@@@@@@@@  @@@@@@@@@@$C2#######       \
+       $C1@@@@@@@@@@@@@@@@$C2#######         \
+           $C1@@@@$C2###########             "
+
+#define ASCII_MTK \
+"$C1    ##  ## ######  ######  #     ### $C2@@@@@@ @@@@@@ @@  @@  \
+$C1   ### ### #       #    #  #    ####   $C2@@   @      @@ @@   \
+$C1  ######## # ###   #    #  #   ## ##   $C2@@   @ @@@  @@@@    \
+$C1 ## ### ## #       #    #  #  ##  ##   $C2@@   @      @@ @@   \
+$C1##  ##  ## ######  #####   # ##   ##   $C2@@   @@@@@@ @@  @@  "
+
+#define ASCII_EXYNOS \
+"$C2                      \
+$C2                      \
+$C2                      \
+     $C1##$CR  $C1##$CR  $C1##$CR       \
+       $C1##$CR  $C1##$CR         \
+         $C1##$CR           \
+       $C1##$CR  $C1##$CR         \
+     $C1##$CR  $C1##$CR  $C1##$CR       \
+$C2                      \
+$C2     SAMSUNG          \
+$C2     Exynos           \
+$C2                      \
+$C2                      "
+
+#define ASCII_KIRIN \
+"$C1                                #######              \
+$C1    #####             ####################           \
+$C1       ######################################        \
+$C1         #######################################     \
+$C1            #######################################  \
+$C1              ##############################         \
+$C1             ##########################              \
+$C1          #########################                  \
+$C1        ########################                     \
+$C1     ########################                        \
+$C1  #########################                          \
+$C1#########################                            "
+
+#define ASCII_BROADCOM \
+"$C2                                            \
+$C2             ################               \
+$C2        ##########################          \
+$C2     ################################       \
+$C2   ################$C1@@@@$C2################     \
+$C2  ################$C1@@@@@@$C2################    \
+$C2 #################$C1@@@@@@$C2#################   \
+$C2#################$C1@@@@@@@@$C2#################  \
+$C2#################$C1@@@@@@@@$C2#################  \
+$C2################$C1@@@@$C2##$C1@@@@$C2################  \
+$C2################$C1@@@@$C2##$C1@@@@$C2################  \
+$C2###############$C1@@@@$C2####$C1@@@@$C2###############  \
+$C1 @@@@@@@@@@$C2####$C1@@@@$C2####$C1@@@@$C2####$C1@@@@@@@@@@   \
+$C2  ######$C1@@@@@@@@@@$C2######$C1@@@@@@@@@@$C2######    \
+$C2    ##################################      \
+$C2      ##############################        \
+$C2         ########################           \
+$C2             ###############                \
+$C2                                            "
+
+#define ASCII_ARM \
+"$C1   #####  ##   # #####  ## ####  ######   \
+$C1 ###    ####   ###      ####  ###   ###   \
+$C1###       ##   ###      ###    ##    ###  \
+$C1 ###    ####   ###      ###    ##    ###  \
+$C1  ######  ##   ###      ###    ##    ###  "
+
+#define ASCII_IBM \
+"$C1######## ##########   ######       ###### \
+$C1######## ###########  #######     ####### \
+$C1  ####     ###   ####   ######   ######   \
+$C1  ####     ###   ###    ####### #######   \
+$C1  ####     ########     ###############   \
+$C1  ####     ###   ###    #### ##### ####   \
+$C1  ####     ###   ####   ####  ###  ####   \
+$C1######## ###########  ######   #   ###### \
+$C1######## ##########   ######       ###### "
+
+// inspired by the neofetch mac logo
+#define ASCII_APPLE \
+"$C1                   .\"c.         \
+$C1                 ,xNMM.         \
+$C1                .lMM\"           \
+$C1                MM*             \
+$C1     .;loddo;:.   olloddol;.    \
+$C1   cKMMMMMMMMMMNWMMMMMMMMMMM0:  \
+$C1 .KMMMMMMMMMMMMMMMMMMMMMMMW*    \
+$C1 XMMMMMMMMMMMMMMMMMMMMMMMX.     \
+$C1;MMMMMMMMMMMMMMMMMMMMMMMM:      \
+$C1:MMMMMMMMMMMMMMMMMMMMMMMM:      \
+$C1.MMMMMMMMMMMMMMMMMMMMMMMMX.     \
+$C1 kMMMMMMMMMMMMMMMMMMMMMMMMWd.   \
+$C1 'XMMMMMMMMMMMMMMMMMMMMMMMMMMk  \
+$C1  'XMMMMMMMMMMMMMMMMMMMMMMMMK.  \
+$C1    kMMMMMMMMMMMMMMMMMMMMMMd    \
+$C1     'KMMMMMMMWXXWMMMMMMMk.     \
+$C1       \"cooc\"*    \"*coo'\"       "
+
+#define ASCII_ALLWINNER \
+"$C1                                               \
+$C1                #################              \
+$C1          .########             #####    ####  \
+$C1       ######                        #######   \
+$C1    #####.    ##             ..##     ####.    \
+$C1  .####      ####          #####     ####      \
+$C1 ####       ## ###          ###.   #####  .    \
+$C1####       ##   ## ####   .###### ####*   .    \
+$C1###       ##  ##.###  ## #### .######          \
+$C1###      #.##     ###  #####   #####    .      \
+$C1###     ###        ### .###     ###    .       \
+$C1 #### ###          ####             #.         \
+$C1   ####                          #*            \
+$C1      #####                 ##.                \
+$C1            ###########.                       \
+$C1                                               "
+
+// --------------------- LONG LOGOS ------------------------- //
+#define ASCII_AMD_L \
+"$C1                                                              \
+$C1                                                              \
+$C1                                                              \
+$C1                                                              \
+$C1                                                              \
+$C1                                                              \
+$C1     @@@@      @@@       @@@   @@@@@@@@      $C2  ############   \
+$C1    @@@@@@     @@@@@   @@@@@   @@@    @@@    $C2    ##########   \
+$C1   @@@  @@@    @@@@@@@@@@@@@   @@@      @@   $C2   #     #####   \
+$C1  @@@    @@@   @@@  @@@  @@@   @@@      @@   $C2 ###     #####   \
+$C1 @@@@@@@@@@@@  @@@       @@@   @@@    @@@    $C2#########  ###   \
+$C1 @@@      @@@  @@@       @@@   @@@@@@@@@     $C2########    ##   \
+$C1                                                              \
+$C1                                                              \
+$C1                                                              \
+$C1                                                              \
+$C1                                                              \
+$C1                                                              \
+$C1                                                              "
+
+#define ASCII_INTEL_L \
+"$C1                               ###############@               \
+$C1                       ######@                ######@         \
+$C1                  ###@                              ###@      \
+$C1              ##@                                     ###@    \
+$C1         ##@                                             ##@  \
+$C1         ##@                                             ##@  \
+$C1      @                    ##@                ##@        ##@  \
+$C1    #@   ##@   ########@   #####@   #####@    ##@        ##@  \
+$C1   #@    ##@   ##@    ##@  ##@    ###@  ###@  ##@        ##@  \
+$C1  #@     ##@   ##@    ##@  ##@    ##@    ##@  ##@       ##@   \
+$C1 #@      ##@   ##@    ##@  ##@    #########@  ##@     ###@    \
+$C1 #@      ##@   ##@    ##@  ##@    ##@         ##@   ####@     \
+$C1 #@       #@   ##@    ##@   ####@  ########@   #@  ##@        \
+$C1 ##@                                                          \
+$C1  ##@                                                         \
+$C1  ###@                                        ###@            \
+$C1    ####@                               #########@            \
+$C1      #########@               ###############@               \
+$C1          ##############################@                     "
+
+#define ASCII_INTEL_L_NEW \
+" ####################################################### \
+ ####################################################### \
+ ####%%%#################@@@#####################@@@#### \
+ ####%%%#################@@@#####################@@@#### \
+ ########################@@@#####################@@@#### \
+ ####@@@##@@@#@@@@@@@####@@@@@@####@@@@@@@@@#####@@@#### \
+ ####@@@##@@@@@@@@@@@@###@@@@@@##@@@@#####@@@@###@@@#### \
+ ####@@@##@@@@#####@@@@##@@@####@@@@#######@@@@##@@@#### \
+ ####@@@##@@@#######@@@##@@@####@@@@@@@@@@@@@@@##@@@#### \
+ ####@@@##@@@#######@@@##@@@####@@@@#############@@@#### \
+ ####@@@##@@@#######@@@##@@@@@@##@@@@#####@@@@###@@@#### \
+ ####@@@##@@@#######@@@###@@@@@####@@@@@@@@@#####@@@#### \
+ ####################################################### \
+ ####################################################### "
+
+#define ASCII_ARM_L \
+"$C1     ############    ##########   ####  #######  ########   \
+$C1  ###############    #########    ########################  \
+$C1 ####        ####    ####         #####   ########   #####  \
+$C1####         ####    ####         ####     ######     ####  \
+$C1####         ####    ####         ####      ####      ####  \
+$C1 ####       #####    ####         ####      ####      ####  \
+$C1  ###############    ####         ####      ####      ####  \
+$C1   ########  ####    ####         ####      ####      ####  "
+
+#define ASCII_IBM_L \
+"$C1 ############ ################   ##########        ########## \
+$C1                                                              \
+$C1 ############ ################## ############    ############ \
+$C1                                                              \
+$C1    ######       ######    ######    ####################     \
+$C1                                                              \
+$C1    ######       ##############      ####################     \
+$C1                                                              \
+$C1    ######       ######    ######    #####  ######  #####     \
+$C1                                                              \
+$C1 ############ ################## #########   ####   ######### \
+$C1                                                              \
+$C1 ############ ################   #########    ##    ######### "
+
+typedef struct ascii_logo asciiL;
+
+//                        ------------------------------------------------------------------------------------------------------+
+//                        | LOGO             | W | H | REPLACE | COLORS LOGO (>0 && <10)          | COLORS TEXT (=2)            |
+//                        ------------------------------------------------------------------------------------------------------+
+asciiL logo_amd         = { ASCII_AMD,         39, 15, false, {C_FG_WHITE, C_FG_GREEN},           {C_FG_WHITE,   C_FG_GREEN}   };
+asciiL logo_intel       = { ASCII_INTEL,       48, 14, false, {C_FG_CYAN},                        {C_FG_CYAN,    C_FG_WHITE}   };
+asciiL logo_intel_new   = { ASCII_INTEL_NEW,   51,  9, false, {C_FG_CYAN},                        {C_FG_CYAN,    C_FG_WHITE}   };
+asciiL logo_snapd       = { ASCII_SNAPD,       39, 16, false, {C_FG_RED, C_FG_WHITE},             {C_FG_RED,     C_FG_WHITE}   };
+asciiL logo_mtk         = { ASCII_MTK,         59,  5, false, {C_FG_BLUE, C_FG_YELLOW},           {C_FG_BLUE,    C_FG_YELLOW}  };
+asciiL logo_exynos      = { ASCII_EXYNOS,      22, 13, true,  {C_BG_BLUE, C_FG_WHITE},            {C_FG_BLUE,    C_FG_WHITE}   };
+asciiL logo_kirin       = { ASCII_KIRIN,       53, 12, false, {C_FG_RED},                         {C_FG_WHITE,   C_FG_RED}     };
+asciiL logo_broadcom    = { ASCII_BROADCOM,    44, 19, false, {C_FG_WHITE, C_FG_RED},             {C_FG_WHITE,   C_FG_RED}     };
+asciiL logo_arm         = { ASCII_ARM,         42,  5, false, {C_FG_CYAN},                        {C_FG_WHITE,   C_FG_CYAN}    };
+asciiL logo_ibm         = { ASCII_IBM,         42,  9, false, {C_FG_CYAN, C_FG_WHITE},            {C_FG_CYAN,    C_FG_WHITE}   };
+asciiL logo_apple       = { ASCII_APPLE,       32, 17, false, {C_FG_WHITE},                       {C_FG_CYAN,    C_FG_B_WHITE} };
+asciiL logo_allwinner   = { ASCII_ALLWINNER,   47, 16, false, {C_FG_CYAN},                        {C_FG_B_BLACK, C_FG_B_CYAN } };
+
+// Long variants          | ----------------------------------------------------------------------------------------------------|
+asciiL logo_amd_l       = { ASCII_AMD_L,       62, 19, true,  {C_BG_WHITE, C_BG_GREEN},           {C_FG_WHITE, C_FG_GREEN}     };
+asciiL logo_intel_l     = { ASCII_INTEL_L,     62, 19, true,  {C_BG_CYAN, C_BG_WHITE},            {C_FG_CYAN,  C_FG_WHITE}     };
+asciiL logo_intel_l_new = { ASCII_INTEL_L_NEW, 57, 14, true,  {C_BG_CYAN, C_BG_WHITE, C_BG_BLUE}, {C_FG_CYAN,  C_FG_WHITE}     };
+asciiL logo_arm_l       = { ASCII_ARM_L,       60,  8, true,  {C_BG_CYAN},                        {C_FG_WHITE, C_FG_CYAN}      };
+asciiL logo_ibm_l       = { ASCII_IBM_L,       62, 13, true,  {C_BG_CYAN, C_FG_WHITE},            {C_FG_CYAN,  C_FG_WHITE}     };
+asciiL logo_unknown     = { NULL,               0,  0, false, {COLOR_NONE},                       {COLOR_NONE, COLOR_NONE}     };
+
+#endif

src/common/cpu.c

@@ -0,0 +1,242 @@
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <assert.h>
+#include <stdbool.h>
+
+#include "../common/global.h"
+#include "cpu.h"
+
+#ifdef ARCH_X86
+  #include "../x86/uarch.h"
+  #include "../x86/apic.h"
+#elif ARCH_PPC
+  #include "../ppc/uarch.h"
+#elif ARCH_ARM
+  #include "../arm/uarch.h"
+#endif
+
+#define UNUSED(x) (void)(x)
+
+#define STRING_YES        "Yes"
+#define STRING_NO         "No"
+#define STRING_NONE       "None"
+#define STRING_MEGAHERZ   "MHz"
+#define STRING_GIGAHERZ   "GHz"
+#define STRING_KILOBYTES  "KB"
+#define STRING_MEGABYTES  "MB"
+
+VENDOR get_cpu_vendor(struct cpuInfo* cpu) {
+  return cpu->cpu_vendor;
+}
+
+int64_t get_freq(struct frequency* freq) {
+  return freq->max;
+}
+
+#if defined(ARCH_X86) || defined(ARCH_PPC)
+char* get_str_cpu_name(struct cpuInfo* cpu, bool fcpuname) {
+  #ifdef ARCH_X86
+  if(!fcpuname) {
+    return get_str_cpu_name_abbreviated(cpu);
+  }
+  #elif ARCH_PPC
+  UNUSED(fcpuname);
+  #endif
+  return cpu->cpu_name;
+}
+
+char* get_str_sockets(struct topology* topo) {
+  char* string = emalloc(sizeof(char) * 2);
+  int32_t sanity_ret = snprintf(string, 2, "%d", topo->sockets);
+  if(sanity_ret < 0) {
+    printBug("get_str_sockets: snprintf returned a negative value for input: '%d'", topo->sockets);
+    return NULL;
+  }
+  return string;
+}
+
+uint32_t get_nsockets(struct topology* topo) {
+  return topo->sockets;
+}
+#endif
+
+int32_t get_value_as_smallest_unit(char ** str, uint32_t value) {
+  int32_t ret;
+  int max_len = 10; // Max is 8 for digits, 2 for units
+  *str = emalloc(sizeof(char)* (max_len + 1));
+
+  if(value/1024 >= 1024)
+    ret = snprintf(*str, max_len, "%.4g"STRING_MEGABYTES, (double)value/(1<<20));
+  else
+    ret = snprintf(*str, max_len, "%.4g"STRING_KILOBYTES, (double)value/(1<<10));
+
+  return ret;
+}
+
+// String functions
+char* get_str_cache_two(int32_t cache_size, uint32_t physical_cores) {
+  char* tmp1;
+  char* tmp2;
+  int32_t tmp1_len = get_value_as_smallest_unit(&tmp1, cache_size);
+  int32_t tmp2_len = get_value_as_smallest_unit(&tmp2, cache_size * physical_cores);
+
+  // tmp1_len for first output, 2 for ' (', tmp2_len for second output and 7 for ' Total)'
+  uint32_t size = tmp1_len + 2 + tmp2_len + 7 + 1;
+  char* string = emalloc(sizeof(char) * size);
+
+  if(tmp1_len < 0) {
+    printBug("get_value_as_smallest_unit: snprintf failed for input: %d\n", cache_size);
+    return NULL;
+  }
+  if(tmp2_len < 0) {
+    printBug("get_value_as_smallest_unit: snprintf failed for input: %d\n", cache_size * physical_cores);
+    return NULL;
+  }
+
+  if(snprintf(string, size, "%s (%s Total)", tmp1, tmp2) < 0) {
+    printBug("get_str_cache_two: snprintf failed for input: '%s' and '%s'\n", tmp1, tmp2);
+    return NULL;
+  }
+
+  free(tmp1);
+  free(tmp2);
+
+  return string;
+}
+
+char* get_str_cache_one(int32_t cache_size) {
+  char* string;
+  int32_t str_len = get_value_as_smallest_unit(&string, cache_size);
+
+  if(str_len < 0) {
+    printBug("get_value_as_smallest_unit: snprintf failed for input: %d", cache_size);
+    return NULL;
+  }
+
+  return string;
+}
+
+char* get_str_cache(int32_t cache_size, int32_t num_caches) {
+  if(num_caches > 1)
+    return get_str_cache_two(cache_size, num_caches);
+  else
+    return get_str_cache_one(cache_size);
+}
+
+char* get_str_l1i(struct cache* cach) {
+  return get_str_cache(cach->L1i->size, cach->L1i->num_caches);
+}
+
+char* get_str_l1d(struct cache* cach) {
+  return get_str_cache(cach->L1d->size, cach->L1d->num_caches);
+}
+
+char* get_str_l2(struct cache* cach) {
+  assert(cach->L2->exists);
+  return get_str_cache(cach->L2->size, cach->L2->num_caches);
+}
+
+char* get_str_l3(struct cache* cach) {
+  if(!cach->L3->exists)
+    return NULL;
+  return get_str_cache(cach->L3->size, cach->L3->num_caches);
+}
+
+char* get_str_freq(struct frequency* freq) {
+  //Max 3 digits and 3 for '(M/G)Hz' plus 1 for '\0'
+  uint32_t size = (5+1+3+1);
+  assert(strlen(STRING_UNKNOWN)+1 <= size);
+  char* string = emalloc(sizeof(char)*size);
+  memset(string, 0, sizeof(char)*size);
+
+  if(freq->max == UNKNOWN_DATA || freq->max < 0)
+    snprintf(string,strlen(STRING_UNKNOWN)+1,STRING_UNKNOWN);
+  else if(freq->max >= 1000)
+    snprintf(string,size,"%.3f "STRING_GIGAHERZ,(float)(freq->max)/1000);
+  else
+    snprintf(string,size,"%d "STRING_MEGAHERZ,freq->max);
+
+  return string;
+}
+
+char* get_str_peak_performance(int64_t flops) {
+  char* str;
+
+  if(flops == -1) {
+    str = emalloc(sizeof(char) * (strlen(STRING_UNKNOWN) + 1));
+    strncpy(str, STRING_UNKNOWN, strlen(STRING_UNKNOWN) + 1);
+    return str;
+  }
+
+  // 7 for digits (e.g, XXXX.XX), 7 for XFLOP/s
+  double flopsd = (double) flops;
+  uint32_t max_size = 7+1+7+1;
+  str = ecalloc(max_size, sizeof(char));
+
+  if(flopsd >= (double)1000000000000.0)
+    snprintf(str, max_size, "%.2f TFLOP/s", flopsd/1000000000000);
+  else if(flopsd >= 1000000000.0)
+    snprintf(str, max_size, "%.2f GFLOP/s", flopsd/1000000000);
+  else
+    snprintf(str, max_size, "%.2f MFLOP/s", flopsd/1000000);
+
+  return str;
+}
+
+void init_topology_struct(struct topology* topo, struct cache* cach) {
+  topo->total_cores = 0;
+  topo->cach = cach;
+#if defined(ARCH_X86) || defined(ARCH_PPC)
+  topo->physical_cores = 0;
+  topo->logical_cores = 0;
+  topo->smt_supported = 0;
+  topo->sockets = 0;
+#ifdef ARCH_X86
+  topo->smt_available = 0;
+  topo->apic = emalloc(sizeof(struct apic));
+#endif
+#endif
+}
+
+void init_cache_struct(struct cache* cach) {
+  cach->L1i = emalloc(sizeof(struct cach));
+  cach->L1d = emalloc(sizeof(struct cach));
+  cach->L2 = emalloc(sizeof(struct cach));
+  cach->L3 = emalloc(sizeof(struct cach));
+
+  cach->cach_arr = emalloc(sizeof(struct cach*) * 4);
+  cach->cach_arr[0] = cach->L1i;
+  cach->cach_arr[1] = cach->L1d;
+  cach->cach_arr[2] = cach->L2;
+  cach->cach_arr[3] = cach->L3;
+
+  cach->max_cache_level = 0;
+  cach->L1i->exists = false;
+  cach->L1d->exists = false;
+  cach->L2->exists = false;
+  cach->L3->exists = false;
+}
+
+void free_cache_struct(struct cache* cach) {
+  for(int i=0; i < 4; i++) free(cach->cach_arr[i]);
+  free(cach->cach_arr);
+  free(cach);
+}
+
+void free_freq_struct(struct frequency* freq) {
+  free(freq);
+}
+
+void free_hv_struct(struct hypervisor* hv) {
+  free(hv);
+}
+
+void free_cpuinfo_struct(struct cpuInfo* cpu) {
+  free_uarch_struct(cpu->arch);
+  free_hv_struct(cpu->hv);
+  #ifdef ARCH_X86
+  free(cpu->cpu_name);
+  #endif
+  free(cpu);
+}

src/common/cpu.h

@@ -0,0 +1,176 @@
+#ifndef __CPU__
+#define __CPU__
+
+#include <stdint.h>
+#include <stdbool.h>
+
+enum {
+// ARCH_X86
+  CPU_VENDOR_INTEL,
+  CPU_VENDOR_AMD,
+// ARCH_ARM
+  CPU_VENDOR_ARM,
+  CPU_VENDOR_APPLE,
+  CPU_VENDOR_BROADCOM,
+  CPU_VENDOR_CAVIUM,
+  CPU_VENDOR_NVIDIA,
+  CPU_VENDOR_APM,
+  CPU_VENDOR_QUALCOMM,
+  CPU_VENDOR_HUAWUEI,
+  CPU_VENDOR_SAMSUNG,
+  CPU_VENDOR_MARVELL,
+  CPU_VENDOR_PHYTIUM,
+// OTHERS
+  CPU_VENDOR_UNKNOWN,
+  CPU_VENDOR_INVALID
+};
+
+enum {
+  HV_VENDOR_KVM,
+  HV_VENDOR_QEMU,
+  HV_VENDOR_HYPERV,
+  HV_VENDOR_VMWARE,
+  HV_VENDOR_XEN,
+  HV_VENDOR_PARALLELS,
+  HV_VENDOR_INVALID
+};
+
+#define UNKNOWN_DATA -1
+#define CPU_NAME_MAX_LENGTH 64
+
+typedef int32_t VENDOR;
+
+struct frequency {
+  int32_t base;
+  int32_t max;
+};
+
+struct hypervisor {
+  bool present;
+  char* hv_name;
+  VENDOR hv_vendor;
+};
+
+struct cach {
+  int32_t size;
+  uint8_t num_caches;
+  bool exists;
+  // plenty of more properties to include in the future...
+};
+
+struct cache {
+  struct cach* L1i;
+  struct cach* L1d;
+  struct cach* L2;
+  struct cach* L3;
+  struct cach** cach_arr;
+
+  uint8_t max_cache_level;
+};
+
+struct topology {
+  int32_t total_cores;  
+  struct cache* cach;
+#if defined(ARCH_X86) || defined(ARCH_PPC)
+  int32_t physical_cores;
+  int32_t logical_cores;
+  uint32_t sockets;
+  uint32_t smt_supported; // Number of SMT that CPU supports (equal to smt_available if SMT is enabled)
+#ifdef ARCH_X86
+  uint32_t smt_available; // Number of SMT that is currently enabled
+  struct apic* apic;
+#endif
+#endif
+};
+
+struct features {
+  bool AES; // Must be the first field of features struct!  
+#ifdef ARCH_X86
+  bool AVX;
+  bool AVX2;
+  bool AVX512;
+  bool SSE;
+  bool SSE2;
+  bool SSE3;
+  bool SSSE3;
+  bool SSE4a;
+  bool SSE4_1;
+  bool SSE4_2;
+  bool FMA3;
+  bool FMA4;
+  bool SHA;
+#elif ARCH_PPC
+  bool altivec;
+#elif ARCH_ARM
+  bool NEON;  
+  bool SHA1;
+  bool SHA2;
+  bool CRC32;
+#endif  
+};
+
+struct cpuInfo {
+  VENDOR cpu_vendor;  
+  struct uarch* arch;
+  struct hypervisor* hv;
+  struct frequency* freq;
+  struct cache* cach;
+  struct topology* topo;
+  struct features* feat;
+  int64_t peak_performance;
+
+#if defined(ARCH_X86) || defined(ARCH_PPC)
+  // CPU name from model
+  char* cpu_name;
+#endif
+
+#ifdef ARCH_X86
+  //  Max cpuids levels
+  uint32_t maxLevels;
+  // Max cpuids extended levels
+  uint32_t maxExtendedLevels;
+  // Topology Extensions (AMD only)
+  bool topology_extensions;
+#elif ARCH_PPC
+  uint32_t pvr;
+#elif ARCH_ARM
+  // Main ID register
+  uint32_t midr;
+#endif
+
+#ifdef ARCH_ARM
+  struct system_on_chip* soc;
+  // If SoC contains more than one CPU and they
+  // are different, the others will be stored in
+  // the next_cpu field
+  struct cpuInfo* next_cpu;  
+  uint8_t num_cpus;
+#endif
+};
+
+#if defined(ARCH_X86) || defined(ARCH_PPC)
+char* get_str_cpu_name(struct cpuInfo* cpu, bool fcpuname);
+char* get_str_sockets(struct topology* topo);
+uint32_t get_nsockets(struct topology* topo);
+#endif
+
+VENDOR get_cpu_vendor(struct cpuInfo* cpu);
+int64_t get_freq(struct frequency* freq);
+
+char* get_str_aes(struct cpuInfo* cpu);
+char* get_str_sha(struct cpuInfo* cpu);
+char* get_str_l1i(struct cache* cach);
+char* get_str_l1d(struct cache* cach);
+char* get_str_l2(struct cache* cach);
+char* get_str_l3(struct cache* cach);
+char* get_str_freq(struct frequency* freq);
+char* get_str_peak_performance(int64_t flops);
+
+void init_topology_struct(struct topology* topo, struct cache* cach);
+void init_cache_struct(struct cache* cach);
+
+void free_cache_struct(struct cache* cach);
+void free_freq_struct(struct frequency* freq);
+void free_cpuinfo_struct(struct cpuInfo* cpu);
+
+#endif

src/common/global.c

@@ -0,0 +1,125 @@
+#include <stdarg.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <errno.h>
+
+#include "global.h"
+
+#ifdef _WIN32
+
+#define RED   ""
+#define BOLD  ""
+#define RESET ""
+
+#else
+
+#define RED "\x1b[31;1m"
+#define BOLD "\x1b[;1m"
+#define RESET "\x1b[0m"
+
+#endif
+
+enum {
+  LOG_LEVEL_NORMAL,
+  LOG_LEVEL_VERBOSE
+};
+
+int LOG_LEVEL;
+
+void printWarn(const char *fmt, ...) {
+  if(LOG_LEVEL == LOG_LEVEL_VERBOSE) {
+    int buffer_size = 4096;
+    char buffer[buffer_size];
+    va_list args;
+    va_start(args, fmt);
+    vsnprintf(buffer,buffer_size, fmt, args);
+    va_end(args);
+    fprintf(stderr,BOLD "[WARNING]: "RESET "%s\n",buffer);
+  }
+}
+
+void printErr(const char *fmt, ...) {
+  int buffer_size = 4096;
+  char buffer[buffer_size];
+  va_list args;
+  va_start(args, fmt);
+  vsnprintf(buffer,buffer_size, fmt, args);
+  va_end(args);
+  fprintf(stderr,RED "[ERROR]: "RESET "%s\n",buffer);
+}
+
+void printBug(const char *fmt, ...) {
+  int buffer_size = 4096;
+  char buffer[buffer_size];
+  va_list args;
+  va_start(args, fmt);
+  vsnprintf(buffer,buffer_size, fmt, args);
+  va_end(args);
+  fprintf(stderr,RED "[ERROR]: "RESET "%s\n",buffer);
+#if defined(ARCH_X86) || defined(ARCH_PPC)
+  fprintf(stderr, "Please, create a new issue with this error message, the output of 'cpufetch' and 'cpufetch --debug' on https://github.com/Dr-Noob/cpufetch/issues\n");
+#elif ARCH_ARM
+  fprintf(stderr, "Please, create a new issue with this error message, your smartphone/computer model, the output of 'cpufetch --verbose' and 'cpufetch --debug' on https://github.com/Dr-Noob/cpufetch/issues\n");
+#endif
+}
+
+void set_log_level(bool verbose) {
+  if(verbose) LOG_LEVEL = LOG_LEVEL_VERBOSE;
+  else LOG_LEVEL = LOG_LEVEL_NORMAL;
+}
+
+int max(int a, int b) {
+  return a > b ? a : b;
+}
+
+int min(int a, int b) {
+  return a < b ? a : b;
+}
+
+char *strremove(char *str, const char *sub) {
+  char *p, *q, *r;
+  if (*sub && (q = r = strstr(str, sub)) != NULL) {
+    size_t len = strlen(sub);
+    while ((r = strstr(p = r + len, sub)) != NULL) {
+      memmove(q, p, r - p);
+      q += r - p;
+    }
+    memmove(q, p, strlen(p) + 1);
+  }
+  return str;
+}
+
+void* emalloc(size_t size) {
+  void* ptr = malloc(size);
+
+  if(ptr == NULL) {
+    printErr("malloc failed: %s", strerror(errno));
+    exit(1);
+  }
+
+  return ptr;
+}
+
+void* ecalloc(size_t nmemb, size_t size) {
+  void* ptr = calloc(nmemb, size);
+
+  if(ptr == NULL) {
+    printErr("calloc failed: %s", strerror(errno));
+    exit(1);
+  }
+
+  return ptr;
+}
+
+void* erealloc(void *ptr, size_t size) {
+  void* newptr = realloc(ptr, size);
+
+  if(newptr == NULL) {
+    printErr("realloc failed: %s", strerror(errno));
+    exit(1);
+  }
+
+  return newptr;
+}
+

src/common/global.h

@@ -0,0 +1,20 @@
+#ifndef __GLOBAL__
+#define __GLOBAL__
+
+#include <stdbool.h>
+#include <stddef.h>
+
+#define STRING_UNKNOWN "Unknown"
+
+void set_log_level(bool verbose);
+void printWarn(const char *fmt, ...);
+void printErr(const char *fmt, ...);
+void printBug(const char *fmt, ...);
+int min(int a, int b);
+int max(int a, int b);
+char *strremove(char *str, const char *sub);
+void* emalloc(size_t size);
+void* ecalloc(size_t nmemb, size_t size);
+void* erealloc(void *ptr, size_t size);
+
+#endif

src/common/main.c

@@ -0,0 +1,155 @@
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "args.h"
+#include "printer.h"
+#include "global.h"
+
+#ifdef ARCH_X86
+  static const char* ARCH_STR = "x86_64 build";
+  #include "../x86/cpuid.h"
+#elif ARCH_PPC
+  static const char* ARCH_STR = "PowerPC build";
+  #include "../ppc/ppc.h"
+#elif ARCH_ARM
+  static const char* ARCH_STR = "ARM build";
+  #include "../arm/midr.h"
+#endif
+
+#ifdef __linux__
+  #ifdef __ANDROID__
+    static const char* OS_STR = "Android";
+  #else
+    static const char* OS_STR = "Linux";
+  #endif
+#elif __FreeBSD__
+  static const char* OS_STR = "FreeBSD";
+#elif _WIN32
+  static const char* OS_STR = "Windows";
+#elif defined __APPLE__ || __MACH__
+  static const char* OS_STR = "macOS";
+#else
+  static const char* OS_STR = "Unknown OS";
+#endif
+
+static const char* VERSION = "1.02";
+
+void print_help(char *argv[]) {
+  const char **t = args_str;
+  const char *c = args_chr;
+  int max_len = max_arg_str_length();
+
+  printf("Usage: %s [OPTION]...\n", argv[0]);
+  printf("Simple yet fancy CPU architecture fetching tool\n\n");
+
+  printf("OPTIONS: \n");
+  printf("  -%c, --%s %*s Set the color scheme (by default, cpufetch uses the system color scheme)\n", c[ARG_COLOR], t[ARG_COLOR], (int) (max_len-strlen(t[ARG_COLOR])), "");
+  printf("  -%c, --%s %*s Set the style of CPU logo\n", c[ARG_STYLE], t[ARG_STYLE], (int) (max_len-strlen(t[ARG_STYLE])), "");
+#ifdef ARCH_X86
+  printf("  -%c, --%s %*s Print CPU model and cpuid levels (debug purposes)\n", c[ARG_DEBUG], t[ARG_DEBUG], (int) (max_len-strlen(t[ARG_DEBUG])), "");
+#elif ARCH_PPC
+  printf("  -%c, --%s %*s Print PVR register (debug purposes)\n", c[ARG_DEBUG], t[ARG_DEBUG], (int) (max_len-strlen(t[ARG_DEBUG])), "");
+#elif ARCH_ARM
+  printf("  -%c, --%s %*s Print main ID register values (debug purposes)\n", c[ARG_DEBUG], t[ARG_DEBUG], (int) (max_len-strlen(t[ARG_DEBUG])), "");
+#endif
+  printf("      --%s %*s Show the short version of the logo\n", t[ARG_LOGO_SHORT], (int) (max_len-strlen(t[ARG_LOGO_SHORT])), "");
+  printf("      --%s %*s Show the long version of the logo\n", t[ARG_LOGO_LONG], (int) (max_len-strlen(t[ARG_LOGO_LONG])), "");
+  printf("  -%c, --%s %*s Print extra information (if available) about how cpufetch tried fetching information\n", c[ARG_VERBOSE], t[ARG_VERBOSE], (int) (max_len-strlen(t[ARG_VERBOSE])), "");
+#ifdef ARCH_X86
+#ifdef __linux__
+  printf("      --%s %*s Compute the peak performance accurately (measure the CPU frequency instead of using the maximum)\n", t[ARG_ACCURATE_PP], (int) (max_len-strlen(t[ARG_ACCURATE_PP])), "");
+#endif
+  printf("      --%s %*s Show the old Intel logo\n", t[ARG_LOGO_INTEL_OLD], (int) (max_len-strlen(t[ARG_LOGO_INTEL_OLD])), "");
+  printf("      --%s %*s Show the new Intel logo\n", t[ARG_LOGO_INTEL_NEW], (int) (max_len-strlen(t[ARG_LOGO_INTEL_NEW])), "");
+  printf("  -%c, --%s %*s Show the full CPU name (do not abbreviate it)\n", c[ARG_FULLCPUNAME], t[ARG_FULLCPUNAME], (int) (max_len-strlen(t[ARG_FULLCPUNAME])), "");
+  printf("  -%c, --%s %*s Print raw cpuid data (debug purposes)\n", c[ARG_RAW], t[ARG_RAW], (int) (max_len-strlen(t[ARG_RAW])), "");
+#endif
+  printf("  -%c, --%s %*s Print this help and exit\n", c[ARG_HELP], t[ARG_HELP], (int) (max_len-strlen(t[ARG_HELP])), "");
+  printf("  -%c, --%s %*s Print cpufetch version and exit\n", c[ARG_VERSION], t[ARG_VERSION], (int) (max_len-strlen(t[ARG_VERSION])), "");
+
+  printf("\nCOLORS: \n");
+  printf("  * \"intel\":     Use Intel default color scheme \n");
+  printf("  * \"amd\":       Use AMD default color scheme \n");
+  printf("  * \"ibm\",       Use IBM default color scheme \n");
+  printf("  * \"arm\":       Use ARM default color scheme \n");
+  printf("  * custom:      If the argument of --color does not match any of the previous strings, a custom scheme can be specified.\n");
+  printf("                 5 colors must be given in RGB with the format: R,G,B:R,G,B:...\n");
+  printf("                 The first 3 colors are the CPU art color and the next 2 colors are the text colors\n");
+
+  printf("\nSTYLES: \n");
+  printf("  * \"fancy\":     Default style\n");
+  printf("  * \"retro\":     Old cpufetch style\n");
+  printf("  * \"legacy\":    Fallback style for terminals that do not support colors\n");
+
+  printf("\nLOGOS: \n");
+  printf("    cpufetch will try to adapt the logo size and the text to the terminal width. When the output (logo and text) is wider than\n");
+  printf("    the terminal width, cpufetch will print a smaller version of the logo (if it exists). This behavior can be overridden by\n");
+  printf("    --logo-short  and --logo-long, which always sets the logo size as specified by the user, even if it is too big. After the\n");
+  printf("    logo selection (either automatically or set by the user), cpufetch will check again if the output fits in the terminal.\n");
+  printf("    If not, it will use a shorter name for the fields (the left part of the text). If, after all of this, the output still does\n");
+  printf("    not fit, cpufetch will cut the text and will only print the text until there is no space left in each line\n");
+
+  printf("\nEXAMPLES: \n");
+  printf("    Run cpufetch with Intel color scheme:\n");
+  printf("      ./cpufetch --color intel\n");
+  printf("    Run cpufetch with a custom color scheme:\n");
+  printf("      ./cpufetch --color 239,90,45:210,200,200:0,0,0:100,200,45:0,200,200\n");
+
+  printf("\nBUGS: \n");
+  printf("    Report bugs to https://github.com/Dr-Noob/cpufetch/issues\n");
+
+  printf("\nNOTE: \n");
+  printf("    Peak performance information is NOT accurate. cpufetch computes peak performance using the max\n");
+  printf("    frequency of the CPU. However, to compute the peak performance, you need to know the frequency of the\n");
+  printf("    CPU running AVX code. This value is not be fetched by cpufetch since it depends on each specific CPU.\n");
+  printf("    To correctly measure peak performance, see: https://github.com/Dr-Noob/peakperf\n");
+}
+
+void print_version() {
+  printf("cpufetch v%s (%s %s)\n",VERSION, OS_STR, ARCH_STR);
+}
+
+int main(int argc, char* argv[]) {
+  if(!parse_args(argc,argv))
+    return EXIT_FAILURE;
+
+  if(show_help()) {
+    print_help(argv);
+    return EXIT_SUCCESS;
+  }
+
+  if(show_version()) {
+    print_version();
+    return EXIT_SUCCESS;
+  }
+
+  set_log_level(verbose_enabled());
+
+  struct cpuInfo* cpu = get_cpu_info();
+  if(cpu == NULL)
+    return EXIT_FAILURE;
+
+  if(show_debug()) {
+    print_version();
+    print_debug(cpu);
+    return EXIT_SUCCESS;
+  }
+
+  // TODO: This should be moved to the end of args.c
+  if(show_raw()) {
+  #ifdef ARCH_X86
+    print_version();
+    print_raw(cpu);
+    return EXIT_SUCCESS;
+  #else
+    printErr("raw option is valid only in x86_64");
+    return EXIT_FAILURE;
+  #endif
+  }
+
+  if(print_cpufetch(cpu, get_style(), get_colors(), show_full_cpu_name()))
+    return EXIT_SUCCESS;
+  else
+    return EXIT_FAILURE;
+}

src/common/printer.c

@@ -0,0 +1,914 @@
+#include <stdlib.h>
+#include <string.h>
+#include <stdio.h>
+#include <stdbool.h>
+#include <errno.h>
+#include <stdarg.h>
+
+#include "printer.h"
+#include "ascii.h"
+#include "../common/global.h"
+#include "../common/cpu.h"
+
+#ifdef ARCH_X86
+  #include "../x86/uarch.h"
+  #include "../x86/cpuid.h"
+#elif ARCH_PPC
+  #include "../ppc/uarch.h"
+  #include "../ppc/ppc.h"
+#else
+  #include "../arm/uarch.h"
+  #include "../arm/midr.h"
+  #include "../arm/soc.h"
+#endif
+
+#ifdef _WIN32
+  #define NOMINMAX
+  #include <Windows.h>
+#else
+  #ifdef  __linux__
+    #ifndef _POSIX_C_SOURCE
+      #define _POSIX_C_SOURCE 199309L
+    #endif
+  #endif
+  #include <sys/ioctl.h>
+  #include <unistd.h>
+#endif
+
+#define LINE_BUFFER_SIZE    (1<<16)
+#define MAX_ATTRIBUTES      100
+#define MAX_TERM_SIZE       1024
+
+enum {
+#if defined(ARCH_X86) || defined(ARCH_PPC)
+  ATTRIBUTE_NAME,
+#elif ARCH_ARM
+  ATTRIBUTE_SOC,
+  ATTRIBUTE_CPU_NUM,
+#endif
+  ATTRIBUTE_HYPERVISOR,
+  ATTRIBUTE_UARCH,
+  ATTRIBUTE_TECHNOLOGY,
+  ATTRIBUTE_FREQUENCY,
+  ATTRIBUTE_SOCKETS,
+  ATTRIBUTE_NCORES,
+  ATTRIBUTE_NCORES_DUAL,
+#ifdef ARCH_X86
+  ATTRIBUTE_AVX,
+  ATTRIBUTE_FMA,
+#elif ARCH_PPC
+  ATTRIBUTE_ALTIVEC,
+#elif ARCH_ARM
+  ATTRIBUTE_FEATURES,
+#endif
+  ATTRIBUTE_L1i,
+  ATTRIBUTE_L1d,
+  ATTRIBUTE_L2,
+  ATTRIBUTE_L3,
+  ATTRIBUTE_PEAK
+};
+
+static const char* ATTRIBUTE_FIELDS [] = {
+#ifdef ARCH_X86
+  "Name:",
+#elif ARCH_PPC
+  "Part Number:",
+#elif ARCH_ARM
+  "SoC:",
+  "",
+#endif
+  "Hypervisor:",
+  "Microarchitecture:",
+  "Technology:",
+  "Max Frequency:",
+  "Sockets:",
+  "Cores:",
+  "Cores (Total):",
+#ifdef ARCH_X86
+  "AVX:",
+  "FMA:",
+#elif ARCH_PPC
+  "Altivec: ",
+#elif defined(ARCH_ARM)
+  "Features: ",
+#endif
+  "L1i Size:",
+  "L1d Size:",
+  "L2 Size:",
+  "L3 Size:",
+  "Peak Performance:",
+};
+
+static const char* ATTRIBUTE_FIELDS_SHORT [] = {
+#if defined(ARCH_X86)
+  "Name:",
+#elif ARCH_PPC
+  "P/N:",
+#elif ARCH_ARM
+  "SoC:",
+  "",
+#endif
+  "Hypervisor:",
+  "uArch:",
+  "Technology:",
+  "Max Freq:",
+  "Sockets:",
+  "Cores:",
+  "Cores (Total):",
+#ifdef ARCH_X86
+  "AVX:",
+  "FMA:",
+#elif ARCH_PPC
+  "Altivec: ",
+#elif defined(ARCH_ARM)
+  "Features: ",
+#endif
+  "L1i Size:",
+  "L1d Size:",
+  "L2 Size:",
+  "L3 Size:",
+  "Peak Perf.:",
+};
+
+struct terminal {
+  int w;
+  int h;
+};
+
+struct attribute {
+  int type;
+  char* value;
+};
+
+struct ascii {
+  struct ascii_logo* art;
+  char reset[100];
+  struct attribute** attributes;
+  uint32_t n_attributes_set;
+  uint32_t additional_spaces;
+  bool new_intel_logo;
+  VENDOR vendor;
+  STYLE style;
+};
+
+struct line_buffer {
+  char* buf;
+  int pos;
+  int chars;
+};
+
+// Writes to the line buffer the output passed in fmt
+void printOut(struct line_buffer* lbuf, int chars, const char *fmt, ...) {
+  int buffer_size = 4096;
+  char buffer[buffer_size];
+  va_list args;
+  va_start(args, fmt);
+  vsnprintf(buffer,buffer_size, fmt, args);
+  va_end(args);
+
+  if(lbuf->pos > LINE_BUFFER_SIZE) {
+    printBug("Line buffer size exceeded. Max is %d, current position is %d", lbuf->pos, LINE_BUFFER_SIZE);
+  }
+  else {
+    lbuf->pos += sprintf(lbuf->buf + lbuf->pos, "%s", buffer);
+    lbuf->chars += chars;
+  }
+}
+
+// Writes a full line (restricting the output length) using the line buffer
+void printOutLine(struct line_buffer* lbuf, struct ascii* art, int termw) {
+  int chars_to_print = min(lbuf->chars, termw);
+  int pos = 0;
+
+  for(int i=0; i < chars_to_print; i++) {
+    while(lbuf->buf[pos] == '\x1b') {
+      // Skip color
+      while(lbuf->buf[pos] != 'm') {
+        printf("%c", lbuf->buf[pos]);
+        pos++;
+      }
+      printf("%c", lbuf->buf[pos]);
+      pos++;
+    }
+
+    printf("%c", lbuf->buf[pos]);
+    pos++;
+  }
+
+  // Make sure weset the color
+  printf("%s", art->reset);
+
+  lbuf->pos = 0;
+  lbuf->chars = 0;
+}
+
+void setAttribute(struct ascii* art, int type, char* value) {
+  art->attributes[art->n_attributes_set]->value = value;
+  art->attributes[art->n_attributes_set]->type = type;
+  art->n_attributes_set++;
+
+  if(art->n_attributes_set > MAX_ATTRIBUTES) {
+    printBug("Set %d attributes, while max value is %d!", art->n_attributes_set, MAX_ATTRIBUTES);
+  }
+}
+
+char* rgb_to_ansi(struct color* c, bool background, bool bold) {
+  char* str = emalloc(sizeof(char) * 100);
+  if(background) {
+    snprintf(str, 44, "\x1b[48;2;%.3d;%.3d;%.3dm", c->R, c->G, c->B);
+  }
+  else {
+    if(bold)
+      snprintf(str, 48, "\x1b[1m\x1b[38;2;%.3d;%.3d;%.3dm", c->R, c->G, c->B);
+    else
+      snprintf(str, 44, "\x1b[38;2;%.3d;%.3d;%.3dm", c->R, c->G, c->B);
+  }
+
+  return str;
+}
+
+struct ascii* set_ascii(VENDOR vendor, STYLE style) {
+  struct ascii* art = emalloc(sizeof(struct ascii));
+
+  art->n_attributes_set = 0;
+  art->additional_spaces = 0;
+  art->vendor = vendor;
+  art->attributes = emalloc(sizeof(struct attribute *) * MAX_ATTRIBUTES);
+  for(uint32_t i=0; i < MAX_ATTRIBUTES; i++) {
+    art->attributes[i] = emalloc(sizeof(struct attribute));
+    art->attributes[i]->type = 0;
+    art->attributes[i]->value = NULL;
+  }
+
+  #ifdef _WIN32
+    // Old Windows do not define the flag
+    #ifndef ENABLE_VIRTUAL_TERMINAL_PROCESSING
+      #define ENABLE_VIRTUAL_TERMINAL_PROCESSING 0x0004
+    #endif
+
+    HANDLE std_handle = GetStdHandle(STD_OUTPUT_HANDLE);
+    DWORD console_mode;
+
+    // Attempt to enable the VT100-processing flag
+    GetConsoleMode(std_handle, &console_mode);
+    SetConsoleMode(std_handle, console_mode | ENABLE_VIRTUAL_TERMINAL_PROCESSING);
+    // Get the console mode flag again, to see if it successfully enabled it
+    GetConsoleMode(std_handle, &console_mode);
+  #endif
+
+  if(style == STYLE_EMPTY) {
+    #ifdef _WIN32
+      // Use fancy style if VT100-processing is enabled,
+      // or legacy style in other case
+      art->style = (console_mode & ENABLE_VIRTUAL_TERMINAL_PROCESSING) ? STYLE_FANCY : STYLE_LEGACY;
+    #else
+      art->style = STYLE_FANCY;
+    #endif
+  }
+  else {
+    art->style = style;
+  }
+
+  return art;
+}
+
+void parse_print_color(struct ascii* art, struct line_buffer* lbuf, uint32_t* logo_pos) {
+  struct ascii_logo* logo = art->art;
+  char color_id_str = logo->art[*logo_pos + 2];
+
+  if(color_id_str == 'R') {
+    printOut(lbuf, 0, "%s", art->reset);
+  }
+  else {
+    int color_id = (color_id_str - '0') - 1;
+    printOut(lbuf, 0, "%s", logo->color_ascii[color_id]);
+  }
+
+  *logo_pos += 3;
+}
+
+bool ascii_fits_screen(int termw, struct ascii_logo logo, int lf) {
+  return termw - ((int) logo.width + lf) >= 0;
+}
+
+// TODO: Instead of using a function to do so, change ascii.h
+// and store an color ID that is converted to BG or FG depending
+// on logo->replace_blocks
+void replace_bgbyfg_color(struct ascii_logo* logo) {
+  // Replace background by foreground color
+  for(int i=0; i < 3; i++) {
+    if(logo->color_ascii[i] == NULL) break;
+
+    if(strcmp(logo->color_ascii[i], C_BG_BLACK) == 0) strcpy(logo->color_ascii[i], C_FG_BLACK);
+    else if(strcmp(logo->color_ascii[i], C_BG_RED) == 0) strcpy(logo->color_ascii[i], C_FG_RED);
+    else if(strcmp(logo->color_ascii[i], C_BG_GREEN) == 0) strcpy(logo->color_ascii[i], C_FG_GREEN);
+    else if(strcmp(logo->color_ascii[i], C_BG_YELLOW) == 0) strcpy(logo->color_ascii[i], C_FG_YELLOW);
+    else if(strcmp(logo->color_ascii[i], C_BG_BLUE) == 0) strcpy(logo->color_ascii[i], C_FG_BLUE);
+    else if(strcmp(logo->color_ascii[i], C_BG_MAGENTA) == 0) strcpy(logo->color_ascii[i], C_FG_MAGENTA);
+    else if(strcmp(logo->color_ascii[i], C_BG_CYAN) == 0) strcpy(logo->color_ascii[i], C_FG_CYAN);
+    else if(strcmp(logo->color_ascii[i], C_BG_WHITE) == 0) strcpy(logo->color_ascii[i], C_FG_WHITE);
+  }
+}
+
+struct ascii_logo* choose_ascii_art_aux(struct ascii_logo* logo_long, struct ascii_logo* logo_short, struct terminal* term, int lf) {
+  if(show_logo_long()) return logo_long;
+  if(show_logo_short()) return logo_short;
+  if(ascii_fits_screen(term->w, *logo_long, lf)) {
+    return logo_long;
+  }
+  else {
+    return logo_short;
+  }
+}
+
+void choose_ascii_art(struct ascii* art, struct color** cs, struct terminal* term, int lf) {
+  // 1. Choose logo
+#ifdef ARCH_X86
+  if(art->vendor == CPU_VENDOR_INTEL) {
+    if(art->new_intel_logo) {
+      art->art = choose_ascii_art_aux(&logo_intel_l_new, &logo_intel_new, term, lf);
+    }
+    else {
+      art->art = choose_ascii_art_aux(&logo_intel_l, &logo_intel, term, lf);
+    }
+  }
+  else if(art->vendor == CPU_VENDOR_AMD) {
+    art->art = choose_ascii_art_aux(&logo_amd_l, &logo_amd, term, lf);
+  }
+  else {
+    art->art = &logo_unknown;
+  }
+#elif ARCH_PPC
+  art->art = choose_ascii_art_aux(&logo_ibm_l, &logo_ibm, term, lf);
+#elif ARCH_ARM
+  if(art->vendor == SOC_VENDOR_SNAPDRAGON)
+    art->art = &logo_snapd;
+  else if(art->vendor == SOC_VENDOR_MEDIATEK)
+    art->art = &logo_mtk;
+  else if(art->vendor == SOC_VENDOR_EXYNOS)
+    art->art = &logo_exynos;
+  else if(art->vendor == SOC_VENDOR_KIRIN)
+    art->art = &logo_kirin;
+  else if(art->vendor == SOC_VENDOR_BROADCOM)
+    art->art = &logo_broadcom;
+  else if(art->vendor == SOC_VENDOR_APPLE)
+    art->art = &logo_apple;
+  else if(art->vendor == SOC_VENDOR_ALLWINNER)
+    art->art = &logo_allwinner;
+  else {
+    art->art = choose_ascii_art_aux(&logo_arm_l, &logo_arm, term, lf);
+  }
+#endif
+
+  // 2. Choose colors
+  struct ascii_logo* logo = art->art;
+
+  switch(art->style) {
+    case STYLE_LEGACY:
+      logo->replace_blocks = false;
+      strcpy(logo->color_text[0], COLOR_NONE);
+      strcpy(logo->color_text[1], COLOR_NONE);
+      strcpy(logo->color_ascii[0], COLOR_NONE);
+      strcpy(logo->color_ascii[1], COLOR_NONE);
+      strcpy(logo->color_ascii[2], COLOR_NONE);
+      art->reset[0] = '\0';
+      break;
+    case STYLE_RETRO:
+      logo->replace_blocks = false;
+      replace_bgbyfg_color(logo);
+      // fall through
+    case STYLE_FANCY:
+      if(cs != NULL) {
+        strcpy(logo->color_text[0], rgb_to_ansi(cs[3], false, true));
+        strcpy(logo->color_text[1], rgb_to_ansi(cs[4], false, true));
+        strcpy(logo->color_ascii[0], rgb_to_ansi(cs[0], logo->replace_blocks, true));
+        strcpy(logo->color_ascii[1], rgb_to_ansi(cs[1], logo->replace_blocks, true));
+        strcpy(logo->color_ascii[2], rgb_to_ansi(cs[2], logo->replace_blocks, true));
+      }
+      strcpy(art->reset, COLOR_RESET);
+      break;
+    case STYLE_INVALID:
+    default:
+      printBug("Found invalid style (%d)", art->style);
+  }
+}
+
+uint32_t longest_attribute_length(struct ascii* art, const char** attribute_fields) {
+  uint32_t max = 0;
+  uint64_t len = 0;
+
+  for(uint32_t i=0; i < art->n_attributes_set; i++) {
+    if(art->attributes[i]->value != NULL) {
+      len = strlen(attribute_fields[art->attributes[i]->type]);
+      if(len > max) max = len;
+    }
+  }
+
+  return max;
+}
+
+uint32_t longest_field_length(struct ascii* art, int la) {
+  uint32_t max = 0;
+  uint64_t len = 0;
+
+  for(uint32_t i=0; i < art->n_attributes_set; i++) {
+    if(art->attributes[i]->value != NULL) {
+      // longest attribute + 1 (space) + longest value
+      len = la + 1 + strlen(art->attributes[i]->value);
+
+      if(len > max) max = len;
+    }
+  }
+
+  return max;
+}
+
+#if defined(ARCH_X86) || defined(ARCH_PPC)
+void print_ascii_generic(struct ascii* art, uint32_t la, int32_t termw, const char** attribute_fields) {
+  struct ascii_logo* logo = art->art;
+  int attr_to_print = 0;
+  int attr_type;
+  char* attr_value;
+  int32_t space_right;
+  int32_t space_up = ((int)logo->height - (int)art->n_attributes_set)/2;
+  int32_t space_down = (int)logo->height - (int)art->n_attributes_set - (int)space_up;
+  uint32_t logo_pos = 0;
+  int32_t iters = max(logo->height, art->n_attributes_set);
+
+  struct line_buffer* lbuf = emalloc(sizeof(struct line_buffer));
+  lbuf->buf = emalloc(sizeof(char) * LINE_BUFFER_SIZE);
+  lbuf->pos = 0;
+  lbuf->chars = 0;
+
+  printf("\n");
+  for(int32_t n=0; n < iters; n++) {
+    // 1. Print logo
+    if(space_up > 0 || (space_up + n >= 0 && space_up + n < (int)logo->height)) {
+      for(uint32_t i=0; i < logo->width; i++) {
+        if(logo->art[logo_pos] == '$') {
+          if(logo->replace_blocks) logo_pos += 3;
+          else parse_print_color(art, lbuf, &logo_pos);
+        }
+        if(logo->replace_blocks && logo->art[logo_pos] != ' ') {
+          if(logo->art[logo_pos] == '#') printOut(lbuf, 1, "%s%c%s", logo->color_ascii[0], ' ', art->reset);
+          else if(logo->art[logo_pos] == '@') printOut(lbuf, 1, "%s%c%s", logo->color_ascii[1], ' ', art->reset);
+          else if(logo->art[logo_pos] == '%') printOut(lbuf, 1, "%s%c%s", logo->color_ascii[2], ' ', art->reset);
+          else printOut(lbuf, 1, "%c", logo->art[logo_pos]);
+        }
+        else
+          printOut(lbuf, 1, "%c", logo->art[logo_pos]);
+
+        logo_pos++;
+      }
+      printOut(lbuf, 0, "%s", art->reset);
+    }
+    else {
+      // If logo should not be printed, fill with spaces
+      printOut(lbuf, logo->width, "%*c", logo->width, ' ');
+    }
+
+    // 2. Print text
+    if(space_up < 0 || (n > space_up-1 && n < (int)logo->height - space_down)) {
+      attr_type = art->attributes[attr_to_print]->type;
+      attr_value = art->attributes[attr_to_print]->value;
+      attr_to_print++;
+
+      space_right = 1 + (la - strlen(attribute_fields[attr_type]));
+      printOut(lbuf, strlen(attribute_fields[attr_type]) + space_right + strlen(attr_value),
+               "%s%s%s%*s%s%s%s", logo->color_text[0], attribute_fields[attr_type], art->reset, space_right, "", logo->color_text[1], attr_value, art->reset);
+    }
+    printOutLine(lbuf, art, termw);
+    printf("\n");
+  }
+  printf("\n");
+
+  free(lbuf->buf);
+  free(lbuf);
+}
+#endif
+
+#ifdef ARCH_X86
+bool choose_new_intel_logo(struct cpuInfo* cpu) {
+  if(show_logo_intel_new()) return true;
+  if(show_logo_intel_old()) return false;
+  return choose_new_intel_logo_uarch(cpu);
+}
+
+bool print_cpufetch_x86(struct cpuInfo* cpu, STYLE s, struct color** cs, struct terminal* term, bool fcpuname) {
+  struct ascii* art = set_ascii(get_cpu_vendor(cpu), s);
+  if(art == NULL)
+    return false;
+
+  art->new_intel_logo = choose_new_intel_logo(cpu);
+
+  // Step 1. Retrieve attributes (if some structures are NULL, like topo
+  //         or cache, do not try to retrieve them)
+  uint32_t socket_num = 1;
+  char* l1i, *l1d, *l2, *l3, *n_cores, *n_cores_dual, *sockets;
+  l1i = l1d = l2 = l3 = n_cores = n_cores_dual = sockets = NULL;
+
+  char* uarch = get_str_uarch(cpu);
+  char* manufacturing_process = get_str_process(cpu);
+  char* max_frequency = get_str_freq(cpu->freq);
+  char* cpu_name = get_str_cpu_name(cpu, fcpuname);
+  char* avx = get_str_avx(cpu);
+  char* fma = get_str_fma(cpu);
+  char* pp = get_str_peak_performance(cpu->peak_performance);
+
+  if(cpu->topo != NULL) {
+    sockets = get_str_sockets(cpu->topo);
+    n_cores = get_str_topology(cpu, cpu->topo, false);
+    n_cores_dual = get_str_topology(cpu, cpu->topo, true);
+  }
+
+  if(cpu->cach != NULL) {
+    l1i = get_str_l1i(cpu->cach);
+    l1d = get_str_l1d(cpu->cach);
+    l2 = get_str_l2(cpu->cach);
+    l3 = get_str_l3(cpu->cach);
+  }
+
+  // Step 2. Set attributes
+  setAttribute(art, ATTRIBUTE_NAME, cpu_name);
+  if(cpu->hv->present) {
+    setAttribute(art, ATTRIBUTE_HYPERVISOR, cpu->hv->hv_name);
+  }
+  setAttribute(art, ATTRIBUTE_UARCH, uarch);
+  setAttribute(art, ATTRIBUTE_TECHNOLOGY, manufacturing_process);
+  setAttribute(art, ATTRIBUTE_FREQUENCY, max_frequency);
+  if(cpu->topo != NULL) {
+    socket_num = get_nsockets(cpu->topo);
+    if (socket_num > 1) {
+      setAttribute(art, ATTRIBUTE_SOCKETS, sockets);
+      setAttribute(art, ATTRIBUTE_NCORES, n_cores);
+      setAttribute(art, ATTRIBUTE_NCORES_DUAL, n_cores_dual);
+    }
+    else {
+      setAttribute(art, ATTRIBUTE_NCORES, n_cores);
+    }
+  }
+  setAttribute(art, ATTRIBUTE_AVX, avx);
+  setAttribute(art, ATTRIBUTE_FMA, fma);
+  if(l1i != NULL) setAttribute(art, ATTRIBUTE_L1i, l1i);
+  if(l1d != NULL) setAttribute(art, ATTRIBUTE_L1d, l1d);
+  if(l2 != NULL) setAttribute(art, ATTRIBUTE_L2, l2);
+  if(l3 != NULL) setAttribute(art, ATTRIBUTE_L3, l3);
+  setAttribute(art, ATTRIBUTE_PEAK, pp);
+
+  // Step 3. Print output
+  const char** attribute_fields = ATTRIBUTE_FIELDS;
+  uint32_t longest_attribute = longest_attribute_length(art, attribute_fields);
+  uint32_t longest_field = longest_field_length(art, longest_attribute);
+  choose_ascii_art(art, cs, term, longest_field);
+
+  if(!ascii_fits_screen(term->w, *art->art, longest_field)) {
+    // Despite of choosing the smallest logo, the output does not fit
+    // Choose the shorter field names and recalculate the longest attr
+    attribute_fields = ATTRIBUTE_FIELDS_SHORT;
+    longest_attribute = longest_attribute_length(art, attribute_fields);
+  }
+
+  print_ascii_generic(art, longest_attribute, term->w, attribute_fields);
+
+  free(manufacturing_process);
+  free(max_frequency);
+  free(sockets);
+  free(n_cores);
+  free(n_cores_dual);
+  free(avx);
+  free(fma);
+  free(l1i);
+  free(l1d);
+  free(l2);
+  free(l3);
+  free(pp);
+
+  free(art->attributes);
+  free(art);
+
+  if(cs != NULL) free_colors_struct(cs);
+  if(cpu->cach != NULL) free_cache_struct(cpu->cach);
+  if(cpu->topo != NULL) free_topo_struct(cpu->topo);
+  free_freq_struct(cpu->freq);
+  free_cpuinfo_struct(cpu);
+
+  return true;
+}
+#endif
+
+#ifdef ARCH_PPC
+bool print_cpufetch_ppc(struct cpuInfo* cpu, STYLE s, struct color** cs, struct terminal* term, bool fcpuname) {
+  struct ascii* art = set_ascii(get_cpu_vendor(cpu), s);
+  if(art == NULL)
+    return false;
+
+  // Step 1. Retrieve attributes
+  char* uarch = get_str_uarch(cpu);
+  char* manufacturing_process = get_str_process(cpu);
+  char* sockets = get_str_sockets(cpu->topo);
+  char* max_frequency = get_str_freq(cpu->freq);
+  char* cpu_name = get_str_cpu_name(cpu, fcpuname);
+  char* n_cores = get_str_topology(cpu->topo, false);
+  char* n_cores_dual = get_str_topology(cpu->topo, true);
+  char* altivec = get_str_altivec(cpu);
+
+  char* l1i = get_str_l1i(cpu->cach);
+  char* l1d = get_str_l1d(cpu->cach);
+  char* l2 = get_str_l2(cpu->cach);
+  char* l3 = get_str_l3(cpu->cach);
+  char* pp = get_str_peak_performance(cpu->peak_performance);
+
+  // Step 2. Set attributes
+  if(cpu_name != NULL) {
+    setAttribute(art,ATTRIBUTE_NAME,cpu_name);
+  }
+  setAttribute(art,ATTRIBUTE_UARCH,uarch);
+  setAttribute(art,ATTRIBUTE_TECHNOLOGY,manufacturing_process);
+  setAttribute(art,ATTRIBUTE_FREQUENCY,max_frequency);
+  uint32_t socket_num = get_nsockets(cpu->topo);
+  if (socket_num > 1) {
+    setAttribute(art, ATTRIBUTE_SOCKETS, sockets);
+    setAttribute(art, ATTRIBUTE_NCORES, n_cores);
+    setAttribute(art, ATTRIBUTE_NCORES_DUAL, n_cores_dual);
+  }
+  else {
+    setAttribute(art,ATTRIBUTE_NCORES, n_cores);
+  }
+  setAttribute(art,ATTRIBUTE_ALTIVEC, altivec);
+  setAttribute(art,ATTRIBUTE_L1i,l1i);
+  setAttribute(art,ATTRIBUTE_L1d,l1d);
+  setAttribute(art,ATTRIBUTE_L2,l2);
+  if(l3 != NULL) {
+    setAttribute(art,ATTRIBUTE_L3,l3);
+  }
+  setAttribute(art,ATTRIBUTE_PEAK,pp);
+
+  // Step 3. Print output
+  const char** attribute_fields = ATTRIBUTE_FIELDS;
+  uint32_t longest_attribute = longest_attribute_length(art, attribute_fields);
+  uint32_t longest_field = longest_field_length(art, longest_attribute);
+  choose_ascii_art(art, cs, term, longest_field);
+
+  if(!ascii_fits_screen(term->w, *art->art, longest_field)) {
+    // Despite of choosing the smallest logo, the output does not fit
+    // Choose the shorter field names and recalculate the longest attr
+    attribute_fields = ATTRIBUTE_FIELDS_SHORT;
+    longest_attribute = longest_attribute_length(art, attribute_fields);
+  }
+
+  print_ascii_generic(art, longest_attribute, term->w, attribute_fields);
+
+  return true;
+}
+#endif
+
+#ifdef ARCH_ARM
+uint32_t longest_field_length_arm(struct ascii* art, int la) {
+  uint32_t max = 0;
+  uint64_t len = 0;
+
+  for(uint32_t i=0; i < art->n_attributes_set; i++) {
+    if(art->attributes[i]->value != NULL) {
+      // longest attribute + 1 (space) + longest value
+      len = la + 1 + strlen(art->attributes[i]->value);
+      if(art->attributes[i]->type == ATTRIBUTE_UARCH     ||
+         art->attributes[i]->type == ATTRIBUTE_FREQUENCY ||
+         art->attributes[i]->type == ATTRIBUTE_NCORES    ||
+         art->attributes[i]->type == ATTRIBUTE_FEATURES) {
+        len += 2;
+      }
+      if(len > max) max = len;
+    }
+  }
+
+  return max;
+}
+
+void print_ascii_arm(struct ascii* art, uint32_t la, int32_t termw, const char** attribute_fields) {
+  struct ascii_logo* logo = art->art;
+  int attr_to_print = 0;
+  int attr_type;
+  char* attr_value;
+  int32_t beg_space;
+  int32_t limit_up;
+  int32_t limit_down;
+  uint32_t logo_pos = 0;
+  uint32_t space_right;
+  int32_t space_up = ((int)logo->height - (int)art->n_attributes_set)/2;
+  int32_t space_down = (int)logo->height - (int)art->n_attributes_set - (int)space_up;
+
+  struct line_buffer* lbuf = emalloc(sizeof(struct line_buffer));
+  lbuf->buf = emalloc(sizeof(char) * LINE_BUFFER_SIZE);
+  lbuf->pos = 0;
+  lbuf->chars = 0;
+
+  if(art->n_attributes_set > logo->height) {
+    limit_up = 0;
+    limit_down = art->n_attributes_set;
+  }
+  else {
+    limit_up = space_up;
+    limit_down = logo->height - space_down;
+  }
+  bool add_space = false;
+  int32_t iters = max(logo->height, art->n_attributes_set);
+
+  printf("\n");
+  for(int32_t n=0; n < iters; n++) {
+    // 1. Print logo
+    if(n >= (int) art->additional_spaces && n < (int) logo->height + (int) art->additional_spaces) {
+      for(uint32_t i=0; i < logo->width; i++) {
+        if(logo->art[logo_pos] == '$') {
+          if(logo->replace_blocks) logo_pos += 3;
+          else parse_print_color(art, lbuf, &logo_pos);
+        }
+        if(logo->replace_blocks && logo->art[logo_pos] != ' ') {
+          if(logo->art[logo_pos] == '#') printOut(lbuf, 1, "%s%c%s", logo->color_ascii[0], ' ', art->reset);
+          else if(logo->art[logo_pos] == '@') printOut(lbuf, 1, "%s%c%s", logo->color_ascii[1], ' ', art->reset);
+          else if(logo->art[logo_pos] == '%') printOut(lbuf, 1, "%s%c%s", logo->color_ascii[2], ' ', art->reset);
+          else printOut(lbuf, 1, "%c", logo->art[logo_pos]);
+        }
+        else
+          printOut(lbuf, 1, "%c", logo->art[logo_pos]);
+
+        logo_pos++;
+      }
+      printOut(lbuf, 0, "%s", art->reset);
+    }
+    else {
+      // If logo should not be printed, fill with spaces
+      printOut(lbuf, logo->width, "%*c", logo->width, ' ');
+    }
+
+    // 2. Print text
+    if(n >= limit_up && n < limit_down) {
+      attr_type = art->attributes[attr_to_print]->type;
+      attr_value = art->attributes[attr_to_print]->value;
+      attr_to_print++;
+
+      if(attr_type == ATTRIBUTE_PEAK) {
+        add_space = false;
+      }
+      if(attr_type == ATTRIBUTE_CPU_NUM) {
+        printOut(lbuf, strlen(attr_value), "%s%s%s", logo->color_text[0], attr_value, art->reset);
+        add_space = true;
+      }
+      else {
+        beg_space = 0;
+        space_right = 2 + 1 + (la - strlen(attribute_fields[attr_type]));
+        if(add_space) {
+          beg_space = 2;
+          space_right -= 2;
+        }
+
+        printOut(lbuf, beg_space + strlen(attribute_fields[attr_type]) + space_right + strlen(attr_value),
+               "%*s%s%s%s%*s%s%s%s", beg_space, "", logo->color_text[0], attribute_fields[attr_type], art->reset, space_right, "", logo->color_text[1], attr_value, art->reset);
+      }
+    }
+    printOutLine(lbuf, art, termw);
+    printf("\n");
+  }
+  printf("\n");
+
+  free(lbuf->buf);
+  free(lbuf);
+}
+
+bool print_cpufetch_arm(struct cpuInfo* cpu, STYLE s, struct color** cs, struct terminal* term) {
+  struct ascii* art = set_ascii(get_soc_vendor(cpu->soc), s);
+  if(art == NULL)
+    return false;
+
+  char* manufacturing_process = get_str_process(cpu->soc);
+  char* soc_name = get_soc_name(cpu->soc);
+  char* features = get_str_features(cpu);
+  setAttribute(art,ATTRIBUTE_SOC,soc_name);
+  setAttribute(art,ATTRIBUTE_TECHNOLOGY,manufacturing_process);
+
+  if(cpu->num_cpus == 1) {
+    char* uarch = get_str_uarch(cpu);
+    char* max_frequency = get_str_freq(cpu->freq);
+    char* n_cores = get_str_topology(cpu, cpu->topo, false);
+    /*
+     * char* l1i = get_str_l1i(cpu->cach);
+     * char* l1d = get_str_l1d(cpu->cach);
+     * char* l2 = get_str_l2(cpu->cach);
+     * char* l3 = get_str_l3(cpu->cach);
+     * Do not setAttribute for caches.
+     * Cache functionality may be implemented
+     * in the future
+    */
+
+    setAttribute(art,ATTRIBUTE_UARCH,uarch);
+    setAttribute(art,ATTRIBUTE_FREQUENCY,max_frequency);
+    setAttribute(art,ATTRIBUTE_NCORES,n_cores);
+    if(features != NULL) {
+      setAttribute(art, ATTRIBUTE_FEATURES, features);
+    }
+  }
+  else {
+    struct cpuInfo* ptr = cpu;
+    for(int i = 0; i < cpu->num_cpus; ptr = ptr->next_cpu, i++) {
+      char* uarch = get_str_uarch(ptr);
+      char* max_frequency = get_str_freq(ptr->freq);
+      char* n_cores = get_str_topology(ptr, ptr->topo, false);
+      /*
+       * char* l1i = get_str_l1i(cpu->cach);
+       * char* l1d = get_str_l1d(cpu->cach);
+       * char* l2 = get_str_l2(cpu->cach);
+       * char* l3 = get_str_l3(cpu->cach);
+       * Do not setAttribute for caches.
+       * Cache functionality may be implemented
+       * in the future
+       */
+
+      char* cpu_num = emalloc(sizeof(char) * 9);
+      sprintf(cpu_num, "CPU %d:", i+1);
+      setAttribute(art, ATTRIBUTE_CPU_NUM, cpu_num);
+      setAttribute(art, ATTRIBUTE_UARCH, uarch);
+      setAttribute(art, ATTRIBUTE_FREQUENCY, max_frequency);
+      setAttribute(art, ATTRIBUTE_NCORES, n_cores);
+      if(features != NULL) {
+        setAttribute(art, ATTRIBUTE_FEATURES, features);
+      }
+    }
+  }
+  char* pp = get_str_peak_performance(cpu->peak_performance);
+  setAttribute(art,ATTRIBUTE_PEAK,pp);
+  if(cpu->hv->present) {
+    setAttribute(art, ATTRIBUTE_HYPERVISOR, cpu->hv->hv_name);
+  }
+
+  const char** attribute_fields = ATTRIBUTE_FIELDS;
+  uint32_t longest_attribute = longest_attribute_length(art, attribute_fields);
+  uint32_t longest_field = longest_field_length_arm(art, longest_attribute);
+  choose_ascii_art(art, cs, term, longest_field);
+
+  struct ascii_logo* logo = art->art;
+  if(art->n_attributes_set > logo->height) {
+    art->additional_spaces = (art->n_attributes_set - logo->height) / 2;
+  }
+
+  if(!ascii_fits_screen(term->w, *art->art, longest_field)) {
+    // Despite of choosing the smallest logo, the output does not fit
+    // Choose the shorter field names and recalculate the longest attr
+    attribute_fields = ATTRIBUTE_FIELDS_SHORT;
+    longest_attribute = longest_attribute_length(art, attribute_fields);
+  }
+
+  print_ascii_arm(art, longest_attribute, term->w, attribute_fields);
+
+  free(manufacturing_process);
+  free(pp);
+
+  free(art->attributes);
+  free(art);
+
+  if(cs != NULL) free_colors_struct(cs);
+  free_cache_struct(cpu->cach);
+  free_topo_struct(cpu->topo);
+  free_cpuinfo_struct(cpu);
+
+  return true;
+}
+#endif
+
+struct terminal* get_terminal_size() {
+  struct terminal* term = emalloc(sizeof(struct terminal));
+
+#ifdef _WIN32
+  CONSOLE_SCREEN_BUFFER_INFO csbi;
+  if(GetConsoleScreenBufferInfo(GetStdHandle(STD_OUTPUT_HANDLE), &csbi) == 0) {
+    printWarn("get_terminal_size: GetConsoleScreenBufferInfo failed");
+    term->w = MAX_TERM_SIZE;
+    term->h = MAX_TERM_SIZE;
+    return term;
+  }
+  term->w = csbi.srWindow.Right - csbi.srWindow.Left + 1;
+  term->h = csbi.srWindow.Bottom - csbi.srWindow.Top + 1;
+#else
+  struct winsize w;
+  if(ioctl(STDOUT_FILENO, TIOCGWINSZ, &w) == -1) {
+    printWarn("get_terminal_size: ioctl: %s", strerror(errno));
+    term->w = MAX_TERM_SIZE;
+    term->h = MAX_TERM_SIZE;
+    return term;
+  }
+  term->h = w.ws_row;
+  term->w = w.ws_col;
+#endif
+
+  return term;
+}
+
+bool print_cpufetch(struct cpuInfo* cpu, STYLE s, struct color** cs, bool show_full_cpu_name) {
+  struct terminal* term = get_terminal_size();
+
+#ifdef ARCH_X86
+  return print_cpufetch_x86(cpu, s, cs, term, show_full_cpu_name);
+#elif ARCH_PPC
+  return print_cpufetch_ppc(cpu, s, cs, term, show_full_cpu_name);
+#elif ARCH_ARM
+  return print_cpufetch_arm(cpu, s, cs, term);
+#endif
+}

src/common/printer.h

@@ -0,0 +1,31 @@
+#ifndef __PRINTER__
+#define __PRINTER__
+
+typedef int STYLE;
+
+#include "args.h"
+
+#ifdef ARCH_X86
+  #include "../x86/cpuid.h"
+#elif ARCH_PPC
+  #include "../ppc/ppc.h"
+#elif ARCH_ARM
+  #include "../arm/midr.h"
+#endif
+
+//                              +-----------------------------------+-----------------------+
+//                              | Color logo                        | Color text            |
+//                              | Color 1   | Color 2   | Color 3   | Color 1   | Color 2   |
+#define COLOR_DEFAULT_INTEL     "015,125,194:230,230,230:000,000,000:040,150,220:230,230,230"
+#define COLOR_DEFAULT_INTEL_NEW "030,204,251:250,250,250:000,104,181:230,230,230:030,204,251"
+#define COLOR_DEFAULT_AMD       "250,250,250:000,154,102:000,000,000:250,250,250:000,154,102"
+#define COLOR_DEFAULT_IBM       "092,119,172:092,119,172:000,000,000:240,240,240:092,119,172"
+#define COLOR_DEFAULT_ARM       "000,145,189:000,145,189:000,000,000:240,240,240:000,145,189"
+
+#ifdef ARCH_X86
+void print_levels(struct cpuInfo* cpu);
+#endif
+
+bool print_cpufetch(struct cpuInfo* cpu, STYLE s, struct color** cs, bool fcpuname);
+
+#endif

src/common/udev.c

@@ -0,0 +1,237 @@
+#include "udev.h"
+#include "global.h"
+#include "cpu.h"
+
+// https://www.kernel.org/doc/html/latest/core-api/cpu_hotplug.html
+int get_ncores_from_cpuinfo() {
+  // Examples:
+  // 0-271
+  // 0-7
+  // 0
+
+  int filelen;
+  char* buf;
+  if((buf = read_file(_PATH_CPUS_PRESENT, &filelen)) == NULL) {
+    printWarn("read_file: %s: %s\n", _PATH_CPUS_PRESENT, strerror(errno));
+    return -1;
+  }
+
+  int ncores;
+  char* tmp1;
+  if((tmp1 = strstr(buf, "-")) == NULL) {
+    // file contains no - character, we assume that it contains 0,
+    // which means that the CPU contains only one core
+    return 1;
+  }
+  else {
+    tmp1++;
+  }
+  char* tmp2 = strstr(buf, "\n");
+  char ncores_str[filelen];
+  memset(ncores_str, 0, sizeof(char) * filelen);
+  memcpy(ncores_str, tmp1, tmp2-tmp1);
+
+  char* end;
+  errno = 0;
+  ncores = strtol(ncores_str, &end, 10) + 1;
+  if(errno != 0) {
+    printWarn("strtol: %s:\n", strerror(errno));
+    return -1;
+  }
+
+  free(buf);
+
+  return ncores;
+}
+
+char* read_file(char* path, int* len) {
+  int fd = open(path, O_RDONLY);
+
+  if(fd == -1) {
+    return NULL;
+  }
+
+  //File exists, read it
+  int bytes_read = 0;
+  int offset = 0;
+  int block = 1024;
+  int buf_size = block * 4;
+  char* buf = emalloc(sizeof(char) * buf_size);
+
+  while ((bytes_read = read(fd, buf+offset, block)) > 0) {
+    offset += bytes_read;
+    if(offset + block > buf_size) {
+      buf = erealloc(buf, sizeof(char) * (buf_size + block));
+      buf_size += block;
+    }
+  }
+  buf[offset] = '\0';
+
+  if (close(fd) == -1) {
+    return NULL;
+  }
+
+  *len = offset;
+  return buf;
+}
+
+long get_freq_from_file(char* path) {
+  int filelen;
+  char* buf;
+  if((buf = read_file(path, &filelen)) == NULL) {
+    printWarn("Could not open '%s'", path);
+    return UNKNOWN_DATA;
+  }
+
+  char* end;
+  errno = 0;
+  long ret = strtol(buf, &end, 10);
+  if(errno != 0) {
+    printBug("strtol: %s", strerror(errno));
+    free(buf);
+    return UNKNOWN_DATA;
+  }
+
+  // We will be getting the frequency in KHz
+  // We consider it is an error if frequency is
+  // greater than 10 GHz or less than 100 MHz
+  if(ret > 10000 * 1000 || ret <  100 * 1000) {
+    printBug("Invalid data was read from file '%s': %ld\n", path, ret);
+    return UNKNOWN_DATA;
+  }
+
+  free(buf);
+
+  return ret/1000;
+}
+
+long get_cache_size_from_file(char* path) {
+  int filelen;
+  char* buf;
+  if((buf = read_file(path, &filelen)) == NULL) {
+    printWarn("Could not open '%s'", path);
+    return -1;
+  }
+
+  buf[filelen] = '\0'; // remove the K at the end
+
+  char* end;
+  errno = 0;
+  long ret = strtol(buf, &end, 10);
+  if(errno != 0) {
+    printBug("strtol: %s", strerror(errno));
+    free(buf);
+    return -1;
+  }
+
+  free(buf);
+
+  return ret * 1024;
+}
+
+long get_max_freq_from_file(uint32_t core) {
+  char path[_PATH_FREQUENCY_MAX_LEN];
+  sprintf(path, "%s%s/cpu%d%s%s", _PATH_SYS_SYSTEM, _PATH_SYS_CPU, core, _PATH_FREQUENCY, _PATH_FREQUENCY_MAX);
+  return get_freq_from_file(path);
+}
+
+long get_min_freq_from_file(uint32_t core) {
+  char path[_PATH_FREQUENCY_MAX_LEN];
+  sprintf(path, "%s%s/cpu%d%s%s", _PATH_SYS_SYSTEM, _PATH_SYS_CPU, core, _PATH_FREQUENCY, _PATH_FREQUENCY_MIN);
+  return get_freq_from_file(path);
+}
+
+long get_l1i_cache_size(uint32_t core) {
+  char path[_PATH_CACHE_MAX_LEN];
+  sprintf(path, "%s%s/cpu%d%s%s",  _PATH_SYS_SYSTEM, _PATH_SYS_CPU, core, _PATH_CACHE_L1I, _PATH_CACHE_SIZE);
+  return get_cache_size_from_file(path);
+}
+
+long get_l1d_cache_size(uint32_t core) {
+  char path[_PATH_CACHE_MAX_LEN];
+  sprintf(path, "%s%s/cpu%d%s%s",  _PATH_SYS_SYSTEM, _PATH_SYS_CPU, core, _PATH_CACHE_L1D, _PATH_CACHE_SIZE);
+  return get_cache_size_from_file(path);
+}
+
+long get_l2_cache_size(uint32_t core) {
+  char path[_PATH_CACHE_MAX_LEN];
+  sprintf(path, "%s%s/cpu%d%s%s",  _PATH_SYS_SYSTEM, _PATH_SYS_CPU, core, _PATH_CACHE_L2, _PATH_CACHE_SIZE);
+  return get_cache_size_from_file(path);
+}
+
+long get_l3_cache_size(uint32_t core) {
+  char path[_PATH_CACHE_MAX_LEN];
+  sprintf(path, "%s%s/cpu%d%s%s",  _PATH_SYS_SYSTEM, _PATH_SYS_CPU, core, _PATH_CACHE_L3, _PATH_CACHE_SIZE);
+  return get_cache_size_from_file(path);
+}
+
+int get_num_caches_from_files(char** paths, int num_paths) {
+  int filelen;
+  char* buf;
+  uint32_t* shared_maps = emalloc(sizeof(uint32_t *) * num_paths);
+
+  // 1. Read cpu_shared_map from every core
+  for(int i=0; i < num_paths; i++) {
+    if((buf = read_file(paths[i], &filelen)) == NULL) {
+      printWarn("Could not open '%s'", paths[i]);
+      return -1;
+    }
+
+    char* end;
+    errno = 0;
+    long ret = strtol(buf, &end, 16);
+    if(errno != 0) {
+      printBug("strtol: %s", strerror(errno));
+      free(buf);
+      return -1;
+    }
+
+    shared_maps[i] = (uint32_t) ret;
+  }
+
+  // 2. Count number of different masks; this is the number of caches
+  int num_caches = 0;
+  bool found = false;
+  uint32_t* unique_shared_maps = emalloc(sizeof(uint32_t *) * num_paths);
+  for(int i=0; i < num_paths; i++) unique_shared_maps[i] = 0;
+
+  for(int i=0; i < num_paths; i++) {
+    for(int j=0; j < num_paths && !found; j++) {
+      if(shared_maps[i] == unique_shared_maps[j]) found = true;
+    }
+    if(!found) {
+      unique_shared_maps[num_caches] = shared_maps[i];
+      num_caches++;
+    }
+    found = false;
+  }
+
+  return num_caches;
+}
+
+int get_num_caches_by_level(struct cpuInfo* cpu, uint32_t level) {
+  char** paths = emalloc(sizeof(char *) * cpu->topo->total_cores);
+  char* cache_path = NULL;
+
+  if(level == 0) cache_path = _PATH_CACHE_L1I;
+  else if(level == 1) cache_path = _PATH_CACHE_L1D;
+  else if(level == 2) cache_path = _PATH_CACHE_L2;
+  else if(level == 3) cache_path = _PATH_CACHE_L3;
+  else {
+    printBug("Found invalid cache level to inspect: %d\n", level);
+    return -1;
+  }
+
+  for(int i=0; i < cpu->topo->total_cores; i++) {
+    paths[i] = emalloc(sizeof(char) * _PATH_CACHE_MAX_LEN);
+    sprintf(paths[i], "%s%s/cpu%d%s%s",  _PATH_SYS_SYSTEM, _PATH_SYS_CPU, i, cache_path, _PATH_CACHE_SHARED_MAP);
+  }
+
+  int ret = get_num_caches_from_files(paths, cpu->topo->total_cores);
+
+  for(int i=0; i < cpu->topo->total_cores; i++)
+    free(paths[i]);
+  free(paths);
+
+  return ret;
+}

src/common/udev.h

@@ -0,0 +1,41 @@
+#ifndef __UDEV__
+#define __UDEV__
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <stdint.h>
+#include <string.h>
+#include <stdbool.h>
+#include <unistd.h>
+#include <fcntl.h>
+#include <errno.h>
+
+#include "cpu.h"
+
+#define _PATH_SYS_SYSTEM        "/sys/devices/system"
+#define _PATH_SYS_CPU           "/cpu"
+#define _PATH_FREQUENCY         "/cpufreq"
+#define _PATH_FREQUENCY_MAX     "/cpuinfo_max_freq"
+#define _PATH_FREQUENCY_MIN     "/cpuinfo_min_freq"
+#define _PATH_CACHE_L1D         "/cache/index0"
+#define _PATH_CACHE_L1I         "/cache/index1"
+#define _PATH_CACHE_L2          "/cache/index2"
+#define _PATH_CACHE_L3          "/cache/index3"
+#define _PATH_CACHE_SIZE        "/size"
+#define _PATH_CACHE_SHARED_MAP  "/shared_cpu_map"
+#define _PATH_CPUS_PRESENT           _PATH_SYS_SYSTEM _PATH_SYS_CPU "/present"
+
+#define _PATH_FREQUENCY_MAX_LEN 100
+#define _PATH_CACHE_MAX_LEN     200
+
+char* read_file(char* path, int* len);
+long get_max_freq_from_file(uint32_t core);
+long get_min_freq_from_file(uint32_t core);
+long get_l1i_cache_size(uint32_t core);
+long get_l1d_cache_size(uint32_t core);
+long get_l2_cache_size(uint32_t core);
+long get_l3_cache_size(uint32_t core);
+int get_num_caches_by_level(struct cpuInfo* cpu, uint32_t level);
+int get_ncores_from_cpuinfo();
+
+#endif

src/extended.c

@@ -1,96 +0,0 @@
-#include <stdio.h>
-#include <string.h>
-#include "extended.h"
-
-char* get_str_cpu_name() {
-  uint32_t eax = 0;
-  uint32_t ebx = 0;
-  uint32_t ecx = 0;
-  uint32_t edx = 0;
-  
-  char *name = malloc(sizeof(char)*64);
-  memset(name, 0, 64);
-
-  //First, check we can use extended
-  eax = 0x80000000;
-  cpuid(&eax, &ebx, &ecx, &edx);
-  if(eax < 0x80000001) {
-    char* none = malloc(sizeof(char)*64);
-    sprintf(none,"Unknown");
-    return none;
-  }
-
-  //We can, fetch name
-  eax = 0x80000002;
-  cpuid(&eax, &ebx, &ecx, &edx);
-
-  name[__COUNTER__] = eax       & MASK;
-  name[__COUNTER__] = (eax>>8)  & MASK;
-  name[__COUNTER__] = (eax>>16) & MASK;
-  name[__COUNTER__] = (eax>>24) & MASK;
-  name[__COUNTER__] = ebx       & MASK;
-  name[__COUNTER__] = (ebx>>8)  & MASK;
-  name[__COUNTER__] = (ebx>>16) & MASK;
-  name[__COUNTER__] = (ebx>>24) & MASK;
-  name[__COUNTER__] = ecx       & MASK;
-  name[__COUNTER__] = (ecx>>8)  & MASK;
-  name[__COUNTER__] = (ecx>>16) & MASK;
-  name[__COUNTER__] = (ecx>>24) & MASK;
-  name[__COUNTER__] = edx       & MASK;
-  name[__COUNTER__] = (edx>>8)  & MASK;
-  name[__COUNTER__] = (edx>>16) & MASK;
-  name[__COUNTER__] = (edx>>24) & MASK;
-
-  eax = 0x80000003;
-  cpuid(&eax, &ebx, &ecx, &edx);
-
-  name[__COUNTER__] = eax       & MASK;
-  name[__COUNTER__] = (eax>>8)  & MASK;
-  name[__COUNTER__] = (eax>>16) & MASK;
-  name[__COUNTER__] = (eax>>24) & MASK;
-  name[__COUNTER__] = ebx       & MASK;
-  name[__COUNTER__] = (ebx>>8)  & MASK;
-  name[__COUNTER__] = (ebx>>16) & MASK;
-  name[__COUNTER__] = (ebx>>24) & MASK;
-  name[__COUNTER__] = ecx       & MASK;
-  name[__COUNTER__] = (ecx>>8)  & MASK;
-  name[__COUNTER__] = (ecx>>16) & MASK;
-  name[__COUNTER__] = (ecx>>24) & MASK;
-  name[__COUNTER__] = edx       & MASK;
-  name[__COUNTER__] = (edx>>8)  & MASK;
-  name[__COUNTER__] = (edx>>16) & MASK;
-  name[__COUNTER__] = (edx>>24) & MASK;
-
-  eax = 0x80000004;
-  cpuid(&eax, &ebx, &ecx, &edx);
-
-  name[__COUNTER__] = eax       & MASK;
-  name[__COUNTER__] = (eax>>8)  & MASK;
-  name[__COUNTER__] = (eax>>16) & MASK;
-  name[__COUNTER__] = (eax>>24) & MASK;
-  name[__COUNTER__] = ebx       & MASK;
-  name[__COUNTER__] = (ebx>>8)  & MASK;
-  name[__COUNTER__] = (ebx>>16) & MASK;
-  name[__COUNTER__] = (ebx>>24) & MASK;
-  name[__COUNTER__] = ecx       & MASK;
-  name[__COUNTER__] = (ecx>>8)  & MASK;
-  name[__COUNTER__] = (ecx>>16) & MASK;
-  name[__COUNTER__] = (ecx>>24) & MASK;
-  name[__COUNTER__] = edx       & MASK;
-  name[__COUNTER__] = (edx>>8)  & MASK;
-  name[__COUNTER__] = (edx>>16) & MASK;
-  name[__COUNTER__] = (edx>>24) & MASK;
-
-  name[__COUNTER__] = '\0';
-
-  //Remove unused characters  
-  char *str = name;
-  char *dest = name;
-  while (*str != '\0') {
-    while (*str == ' ' && *(str + 1) == ' ') str++;
-    *dest++ = *str++;
-  }
-  *dest = '\0';
-  
-  return name;
-}

src/extended.h

@@ -1,11 +0,0 @@
-#ifndef __EXTENDED__
-#define __EXTENDED__
-
-#define MASK 0xFF
-#include "cpuid.h"
-#include <stdint.h>
-#include <stdlib.h>
-
-char* get_str_cpu_name();
-
-#endif

src/global.c

@@ -1,60 +0,0 @@
-#include <stdarg.h>
-#include <stdio.h>
-#include "global.h"
-
-#ifdef _WIN32
-
-#define RED   ""
-#define BOLD  ""
-#define RESET ""
-
-#else
-
-#define RED "\x1b[31;1m"
-#define BOLD "\x1b[;1m"
-#define RESET "\x1b[0m"
-
-#endif
-
-#define LOG_LEVEL_NORMAL  0
-#define LOG_LEVEL_VERBOSE 1
-
-int LOG_LEVEL;
-
-void printWarn(const char *fmt, ...) {
-  if(LOG_LEVEL == LOG_LEVEL_VERBOSE) {
-    int buffer_size = 4096;
-    char buffer[buffer_size];
-    va_list args;
-    va_start(args, fmt);
-    vsnprintf(buffer,buffer_size, fmt, args);
-    va_end(args);
-    fprintf(stderr,BOLD "[WARNING]: "RESET "%s\n",buffer);
-  }
-}
-
-void printErr(const char *fmt, ...) {
-  int buffer_size = 4096;
-  char buffer[buffer_size];
-  va_list args;
-  va_start(args, fmt);
-  vsnprintf(buffer,buffer_size, fmt, args);
-  va_end(args);
-  fprintf(stderr,RED "[ERROR]: "RESET "%s\n",buffer);
-}
-
-void printBug(const char *fmt, ...) {
-  int buffer_size = 4096;
-  char buffer[buffer_size];
-  va_list args;
-  va_start(args, fmt);
-  vsnprintf(buffer,buffer_size, fmt, args);
-  va_end(args);
-  fprintf(stderr,RED "[ERROR]: "RESET "%s\n",buffer);
-  fprintf(stderr,"Please, create a new issue with this error message and your CPU in https://github.com/Dr-Noob/cpufetch/issues\n");
-}
-
-void set_log_level(bool verbose) {
-  if(verbose) LOG_LEVEL = LOG_LEVEL_VERBOSE;
-  else LOG_LEVEL = LOG_LEVEL_NORMAL;
-}

src/global.h

@@ -1,11 +0,0 @@
-#ifndef __GLOBAL__
-#define __GLOBAL__
-
-#include <stdbool.h>
-
-void set_log_level(bool verbose);
-void printWarn(const char *fmt, ...);
-void printErr(const char *fmt, ...);
-void printBug(const char *fmt, ...);
-
-#endif

src/main.c

@@ -1,137 +0,0 @@
-#include <stdio.h>
-#include <stdlib.h>
-
-#include "args.h"
-#include "printer.h"
-#include "standart.h"
-#include "extended.h"
-#include "global.h"
-
-/***
-SAMPLE OUTPUT
-
-Name:        Intel Core i7-4790K
-Frequency:   4.0 GHz
-NºCores:     4 cores(8 threads)
-AXV:         AVX,AVX2
-SSE:         SSE,SSE2,SSE4.1,SSE4.2
-FMA:         FMA3
-AES:         Yes
-SHA:         No
-L1 Size:     32KB(Data)32KB(Instructions)
-L2 Size:     512KB
-L3 Size:     8MB
-Peak FLOPS:  512 GFLOP/s(in simple precision)
-
-***/
-
-static const char* VERSION = "0.410";
-
-void print_help(char *argv[]) {
-  printf("Usage: %s [--version] [--help] [--style STYLE]\n\
-Options: \n\
-  --style    Set logo style color\n\
-    default:   Default style color\n\
-    dark:      Dark style color\n\
-    none:      Don't use colors\n\
-  --help     Prints this help and exit\n\
-  --levels   Prints CPU model and cpuid levels (debug purposes)\n\
-  --version  Prints cpufetch version and exit\n",
-  argv[0]);
-}
-
-void print_version() {
-  printf("cpufetch v%s\n",VERSION);
-}
-
-int main(int argc, char* argv[]) {
-  if(!parse_args(argc,argv))
-    return EXIT_FAILURE;
-
-  if(show_help()) {
-    print_help(argv);
-    return EXIT_SUCCESS;
-  }
-
-  if(show_version()) {
-    print_version();
-    return EXIT_SUCCESS;
-  }
-  
-  set_log_level(verbose_enabled());
-
-  struct cpuInfo* cpu = get_cpu_info();
-  if(cpu == NULL)
-    return EXIT_FAILURE;
-  char* cpuName = get_str_cpu_name();
-  
-  if(show_levels()) {
-    print_version();
-    print_levels(cpu, cpuName);
-    return EXIT_SUCCESS;    
-  }
-
-  struct cache* cach = get_cache_info(cpu);
-  if(cach == NULL)
-    return EXIT_FAILURE;
-  
-  struct frequency* freq = get_frequency_info(cpu);
-  if(freq == NULL)
-    return EXIT_FAILURE;
-  
-  struct topology* topo = get_topology_info(cpu);
-  if(topo == NULL)
-    return EXIT_FAILURE;
-  
-  struct ascii* art = set_ascii(get_cpu_vendor(cpu),get_style());
-  if(art == NULL)
-    return EXIT_FAILURE;
-  
-  char* maxFrequency = get_str_freq(freq);
-  char* nCores = get_str_topology(topo);
-  char* avx = get_str_avx(cpu);
-  char* sse = get_str_sse(cpu);
-  char* fma = get_str_fma(cpu);
-  char* aes = get_str_aes(cpu);
-  char* sha = get_str_sha(cpu);
-  char* l1 = get_str_l1(cach);
-  char* l2 = get_str_l2(cach);
-  char* l3 = get_str_l3(cach);
-  char* pp = get_str_peak_performance(cpu,topo,get_freq(freq));
-
-  setAttribute(art,ATTRIBUTE_NAME,cpuName);
-  setAttribute(art,ATTRIBUTE_FREQUENCY,maxFrequency);
-  setAttribute(art,ATTRIBUTE_NCORES,nCores);
-  setAttribute(art,ATTRIBUTE_AVX,avx);
-  setAttribute(art,ATTRIBUTE_SSE,sse);
-  setAttribute(art,ATTRIBUTE_FMA,fma);
-  setAttribute(art,ATTRIBUTE_AES,aes);
-  setAttribute(art,ATTRIBUTE_SHA,sha);
-  setAttribute(art,ATTRIBUTE_L1,l1);
-  setAttribute(art,ATTRIBUTE_L2,l2);
-  setAttribute(art,ATTRIBUTE_L3,l3);
-  setAttribute(art,ATTRIBUTE_PEAK,pp);
-
-  print_ascii(art);
-
-  free(cpuName);
-  free(maxFrequency);
-  free(nCores);
-  free(avx);
-  free(sse);
-  free(fma);
-  free(aes);
-  free(sha);
-  free(l1);
-  free(l2);
-  free(l3);
-  free(pp);
-
-  free(cpu);
-  free(art);
-  free_cache_struct(cach);
-  free_topo_struct(topo);
-  free_freq_struct(freq);
-
-  return EXIT_SUCCESS;
-}

src/ppc/ppc.c

@@ -0,0 +1,220 @@
+#include <stdio.h>
+#include <stdlib.h>
+#include <stdlib.h>
+#include <string.h>
+#include <unistd.h>
+#include <assert.h>
+
+#include "ppc.h"
+#include "uarch.h"
+#include "udev.h"
+#include "../common/udev.h"
+#include "../common/global.h"
+
+struct cache* get_cache_info(struct cpuInfo* cpu) {
+  struct cache* cach = emalloc(sizeof(struct cache));
+  init_cache_struct(cach);
+
+  cach->L1i->size = get_l1i_cache_size(0);
+  cach->L1d->size = get_l1d_cache_size(0);
+  cach->L2->size = get_l2_cache_size(0);
+  cach->L3->size = get_l3_cache_size(0);
+
+  if(cach->L1i->size > 0) {
+    cach->L1i->exists = true;
+    cach->L1i->num_caches = get_num_caches_by_level(cpu, 0);
+    cach->max_cache_level = 1;
+  }
+  if(cach->L1d->size > 0) {
+    cach->L1d->exists = true;
+    cach->L1d->num_caches = get_num_caches_by_level(cpu, 1);
+    cach->max_cache_level = 2;
+  }
+  if(cach->L2->size > 0) {
+    cach->L2->exists = true;
+    cach->L2->num_caches = get_num_caches_by_level(cpu, 2);
+    cach->max_cache_level = 3;
+  }
+  if(cach->L3->size > 0) {
+    cach->L3->exists = true;
+    cach->L3->num_caches = get_num_caches_by_level(cpu, 3);
+    cach->max_cache_level = 4;
+  }
+
+  return cach;
+}
+
+struct topology* get_topology_info(struct cache* cach) {
+  struct topology* topo = emalloc(sizeof(struct topology));
+  init_topology_struct(topo, cach);
+
+  // 1. Total cores detection
+  if((topo->total_cores = sysconf(_SC_NPROCESSORS_ONLN)) == -1) {
+    printWarn("sysconf(_SC_NPROCESSORS_ONLN): %s", strerror(errno));
+    topo->total_cores = 1; // fallback
+  }
+
+  // To find physical cores, we use topo->total_cores and core_ids
+  // To find number of sockets, we use package_ids
+  int* core_ids = emalloc(sizeof(int) * topo->total_cores);
+  int* package_ids = emalloc(sizeof(int) * topo->total_cores);
+
+  if(!fill_core_ids_from_sys(core_ids, topo->total_cores)) {
+    printWarn("fill_core_ids_from_sys failed, output may be incomplete/invalid");
+    for(int i=0; i < topo->total_cores; i++) core_ids[i] = 0;
+  }
+  if(!fill_package_ids_from_sys(package_ids, topo->total_cores)) {
+    printWarn("fill_package_ids_from_sys failed, output may be incomplete/invalid");
+    for(int i=0; i < topo->total_cores; i++) package_ids[i] = 0;
+  }
+
+  // 2. Socket detection
+  int *package_ids_count = emalloc(sizeof(int) * topo->total_cores);
+  for(int i=0; i < topo->total_cores; i++) {
+    package_ids_count[i] = 0;
+  }
+  for(int i=0; i < topo->total_cores; i++) {
+    package_ids_count[package_ids[i]]++;
+  }
+  for(int i=0; i < topo->total_cores; i++) {
+    if(package_ids_count[i] != 0) {
+      topo->sockets++;
+    }
+  }
+
+  // 3. Physical cores detection
+  int *core_ids_unified = emalloc(sizeof(int) * topo->total_cores);
+  for(int i=0; i < topo->total_cores; i++) {
+    core_ids_unified[i] = -1;
+  }
+  bool found = false;
+  for(int i=0; i < topo->total_cores; i++) {
+    for(int j=0; j < topo->total_cores && !found; j++) {
+      if(core_ids_unified[j] == core_ids[i]) found = true;
+    }
+    if(!found) {
+      core_ids_unified[topo->physical_cores] = core_ids[i];
+      topo->physical_cores++;
+    }
+    found = false;
+  }
+
+  topo->physical_cores = topo->physical_cores / topo->sockets; // only count cores on one socket
+  topo->logical_cores = topo->total_cores / topo->sockets;     // only count threads on one socket
+  topo->smt_supported = topo->logical_cores / topo->physical_cores;
+
+  free(core_ids);
+  free(package_ids);
+  free(package_ids_count);
+  free(core_ids_unified);
+
+  return topo;
+}
+
+static inline uint32_t mfpvr() {
+    uint32_t pvr;
+
+    asm ("mfpvr %0"
+         : "=r"(pvr));
+    return pvr;
+}
+
+struct uarch* get_cpu_uarch(struct cpuInfo* cpu) {
+  return get_uarch_from_pvr(cpu->pvr);
+}
+
+struct frequency* get_frequency_info() {
+  struct frequency* freq = emalloc(sizeof(struct frequency));
+
+  freq->max = get_max_freq_from_file(0);
+  freq->base = get_min_freq_from_file(0);
+
+  return freq;
+}
+
+int64_t get_peak_performance(struct cpuInfo* cpu, struct topology* topo, int64_t freq) {
+  /*
+   * Not sure about this
+   * PP(SP) = N_CORES * FREQUENCY * 4(If altivec)
+   */
+
+  //First check we have consistent data
+  if(freq == UNKNOWN_DATA) {
+    return -1;
+  }
+
+  struct features* feat = cpu->feat;
+  int64_t flops = topo->physical_cores * topo->sockets * (freq * 1000000);
+  if(feat->altivec) flops = flops * 4;
+
+  // POWER9 has the concept called "slices". Each SMT4 core has two super-slices,
+  // and each super-slice is capable of doing two FLOPS per cycle. In the case of
+  // SMT8, it has 4 super-slices, thus four FLOPS per cycle.
+  if(is_power9(cpu->arch)) {
+    int threads_per_core = topo->logical_cores / topo->physical_cores;
+    flops = flops * (threads_per_core / 2);
+  }
+
+  return flops;
+}
+
+struct cpuInfo* get_cpu_info() {
+  struct cpuInfo* cpu = emalloc(sizeof(struct cpuInfo));
+  struct features* feat = emalloc(sizeof(struct features));
+  cpu->feat = feat;
+
+  bool *ptr = &(feat->AES);
+  for(uint32_t i = 0; i < sizeof(struct features)/sizeof(bool); i++, ptr++) {
+    *ptr = false;
+  }
+
+  int len;
+  char* path = emalloc(sizeof(char) * (strlen(_PATH_DT) + strlen(_PATH_DT_PART) + 1));
+  sprintf(path, "%s%s", _PATH_DT, _PATH_DT_PART);
+
+  cpu->cpu_name = read_file(path, &len);
+  cpu->pvr = mfpvr();
+  cpu->arch = get_cpu_uarch(cpu);
+  cpu->freq = get_frequency_info();
+  cpu->topo = get_topology_info(cpu->cach);
+  cpu->cach = get_cache_info(cpu);
+  feat->altivec = has_altivec(cpu->arch);
+  cpu->peak_performance = get_peak_performance(cpu, cpu->topo, get_freq(cpu->freq));
+
+  return cpu;
+}
+
+char* get_str_altivec(struct cpuInfo* cpu) {
+  char* string = ecalloc(4, sizeof(char));
+
+  if(cpu->feat->altivec) strcpy(string, "Yes");
+  else strcpy(string, "No");
+
+  return string;
+}
+
+char* get_str_topology(struct topology* topo, bool dual_socket) {
+  char* string;
+  if(topo->smt_supported > 1) {
+    uint32_t size = 3+3+17+1;
+    string = emalloc(sizeof(char)*size);
+    if(dual_socket)
+      snprintf(string, size, "%d cores (%d threads)", topo->physical_cores * topo->sockets, topo->logical_cores * topo->sockets);
+    else
+      snprintf(string, size, "%d cores (%d threads)",topo->physical_cores,topo->logical_cores);
+  }
+  else {
+    uint32_t size = 3+7+1;
+    string = emalloc(sizeof(char)*size);
+    if(dual_socket)
+      snprintf(string, size, "%d cores",topo->physical_cores * topo->sockets);
+    else
+      snprintf(string, size, "%d cores",topo->physical_cores);
+  }
+  return string;
+}
+
+
+void print_debug(struct cpuInfo* cpu) {
+  printf("PVR: 0x%.8X\n", cpu->pvr);
+}

src/ppc/ppc.h

@@ -0,0 +1,11 @@
+#ifndef __POWERPC__
+#define __POWERPC__
+
+#include "../common/cpu.h"
+
+struct cpuInfo* get_cpu_info();
+char* get_str_altivec(struct cpuInfo* cpu);
+char* get_str_topology(struct topology* topo, bool dual_socket);
+void print_debug(struct cpuInfo* cpu);
+
+#endif

src/ppc/pvr_kern_to_cpufetch.sh

@@ -0,0 +1,28 @@
+#!/bin/bash
+
+# This script takes as input cputable.c from linux kernel
+# and generates a valid output for cpufetch in src/ppc/uarch.c
+
+CPUTABLE_PATH="linux-5.13.7/arch/powerpc/kernel/cputable.c"
+
+raw_values=$(grep '\.pvr_value' "$CPUTABLE_PATH" | grep -oP "= .*," | cut -d' ' -f2 | tr -d ',')
+raw_masks=$(grep '\.pvr_mask' "$CPUTABLE_PATH" | grep -oE "0x........")
+
+raw_v_len=$(echo "$raw_values" | wc -l)
+raw_m_len=$(echo "$raw_masks" | wc -l)
+
+if [ $raw_v_len -ne $raw_m_len ]
+then
+  echo "Lengths do not match!"
+  echo "values length: $raw_v_len"
+  echo "masks length:  $raw_m_len"
+  exit 1
+fi
+
+IFS=$'\n' read -r -d ' ' -a values <<< "$raw_values"
+IFS=$'\n' read -r -d ' ' -a masks <<< "$raw_masks"
+
+for i in "${!values[@]}"
+do
+  echo '  CHECK_UARCH(arch, pvr, '"${masks[i]}"', '"${values[i]}"', "POWERX", UARCH_POWERX, -1)'
+done

src/ppc/uarch.c

@@ -0,0 +1,286 @@
+#include <stdint.h>
+#include <stdbool.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <sys/auxv.h>
+#include <errno.h>
+
+#include "uarch.h"
+#include "../common/global.h"
+
+typedef uint32_t MICROARCH;
+
+// Data not available
+#define NA                   -1
+
+// Unknown manufacturing process
+#define UNK                  -1
+
+enum {
+  UARCH_UNKNOWN,
+  UARCH_PPC604,
+  UARCH_PPCG3,
+  UARCH_PPCG4,
+  UARCH_PPC405,
+  UARCH_PPC603,
+  UARCH_PPC440,
+  UARCH_PPC470,
+  UARCH_PPC970,
+  UARCH_PPC970FX,
+  UARCH_PPC970MP,
+  UARCH_CELLBE,
+  UARCH_POWER5,
+  UARCH_POWER5PLUS,
+  UARCH_POWER6,
+  UARCH_POWER7,
+  UARCH_POWER7PLUS,
+  UARCH_POWER8,
+  UARCH_POWER9,
+  UARCH_POWER9_DD20,
+  UARCH_POWER9_DD21,
+  UARCH_POWER9_DD22,
+  UARCH_POWER9_DD23,
+  UARCH_POWER10,
+};
+
+struct uarch {
+  MICROARCH uarch;
+  char* uarch_str;
+  int32_t process; // measured in nanometers
+};
+
+#define UARCH_START if (false) {}
+#define CHECK_UARCH(arch, cpu_pvr, pvr_mask, pvr_value, uarch) \
+   else if ((cpu_pvr & pvr_mask) == pvr_value) fill_uarch(arch, uarch);
+#define UARCH_END else { printBug("Unknown microarchitecture detected: 0x%.8X", pvr); fill_uarch(arch, UARCH_UNKNOWN); }
+
+#define FILL_START if (false) {}
+#define FILL_UARCH(u, uarch, uarch_str, uarch_process) \
+   else if(u == uarch) { fill = true; str = uarch_str; process = uarch_process; }
+#define FILL_END else { printBug("Found invalid microarchitecture: %d", u); }
+
+void fill_uarch(struct uarch* arch, MICROARCH u) {
+  arch->uarch = u;
+  char* str = NULL;
+  int32_t process = UNK;
+  bool fill = false;
+
+  FILL_START
+  FILL_UARCH(arch->uarch, UARCH_UNKNOWN,     STRING_UNKNOWN,  UNK)
+  FILL_UARCH(arch->uarch, UARCH_PPC604,      "PowerPC 604",   500)
+  FILL_UARCH(arch->uarch, UARCH_PPCG3,       "PowerPC G3",    UNK) // varies
+  FILL_UARCH(arch->uarch, UARCH_PPCG4,       "PowerPC G4",    UNK) // varies
+  FILL_UARCH(arch->uarch, UARCH_PPC405,      "PowerPC 405",   UNK)
+  FILL_UARCH(arch->uarch, UARCH_PPC603,      "PowerPC 603",   UNK) // varies
+  FILL_UARCH(arch->uarch, UARCH_PPC440,      "PowerPC 440",   UNK)
+  FILL_UARCH(arch->uarch, UARCH_PPC470,      "PowerPC 470",    45) // strange...
+  FILL_UARCH(arch->uarch, UARCH_PPC970,      "PowerPC 970",   130)
+  FILL_UARCH(arch->uarch, UARCH_PPC970FX,    "PowerPC 970FX",  90)
+  FILL_UARCH(arch->uarch, UARCH_PPC970MP,    "PowerPC 970MP",  90)
+  FILL_UARCH(arch->uarch, UARCH_CELLBE,      "Cell BE",       UNK) // varies depending on manufacturer
+  FILL_UARCH(arch->uarch, UARCH_POWER5,      "POWER5",        130)
+  FILL_UARCH(arch->uarch, UARCH_POWER5PLUS,  "POWER5+",        90)
+  FILL_UARCH(arch->uarch, UARCH_POWER6,      "POWER6",         65)
+  FILL_UARCH(arch->uarch, UARCH_POWER7,      "POWER7",         45)
+  FILL_UARCH(arch->uarch, UARCH_POWER7PLUS,  "POWER7+",        32)
+  FILL_UARCH(arch->uarch, UARCH_POWER8,      "POWER8",         22)
+  FILL_UARCH(arch->uarch, UARCH_POWER9,      "POWER9",         14)
+  FILL_UARCH(arch->uarch, UARCH_POWER9_DD20, "POWER9 (DD2.0)", 14)
+  FILL_UARCH(arch->uarch, UARCH_POWER9_DD21, "POWER9 (DD2.1)", 14)
+  FILL_UARCH(arch->uarch, UARCH_POWER9_DD22, "POWER9 (DD2.2)", 14)
+  FILL_UARCH(arch->uarch, UARCH_POWER9_DD23, "POWER9 (DD2.3)", 14)
+  FILL_UARCH(arch->uarch, UARCH_POWER10,     "POWER10",         7)
+  FILL_END
+
+  if(fill) {
+    arch->uarch_str = emalloc(sizeof(char) * (strlen(str)+1));
+    strcpy(arch->uarch_str, str);
+    arch->process= process;
+  }
+}
+
+/*
+ * PVR masks/values from arch/powerpc/kernel/cputable.c (Linux kernel)
+ * This list may be incorrect, incomplete or overly simplified,
+ * specially in the case of 32 bit entries
+ */
+struct uarch* get_uarch_from_pvr(uint32_t pvr) {
+  struct uarch* arch = emalloc(sizeof(struct uarch));
+
+  UARCH_START
+  // 64 bit
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x00390000, UARCH_PPC970)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x003c0000, UARCH_PPC970FX)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x00440100, UARCH_PPC970MP)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x00440000, UARCH_PPC970MP)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x003a0000, UARCH_POWER5)
+  CHECK_UARCH(arch, pvr, 0xffffff00, 0x003b0300, UARCH_POWER5PLUS)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x003b0000, UARCH_POWER5)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x0f000001, UARCH_POWER5)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x003e0000, UARCH_POWER6)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x0f000002, UARCH_POWER6)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x0f000003, UARCH_POWER7)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x0f000004, UARCH_POWER8)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x0f000005, UARCH_POWER9)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x0f000006, UARCH_POWER10)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x003f0000, UARCH_POWER7)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x004A0000, UARCH_POWER7PLUS)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x004b0000, UARCH_POWER8)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x004c0000, UARCH_POWER8)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x004d0000, UARCH_POWER8)
+  CHECK_UARCH(arch, pvr, 0xffffefff, 0x004e0200, UARCH_POWER9_DD20)
+  CHECK_UARCH(arch, pvr, 0xffffefff, 0x004e0201, UARCH_POWER9_DD21)
+  CHECK_UARCH(arch, pvr, 0xffffefff, 0x004e0202, UARCH_POWER9_DD22)
+  CHECK_UARCH(arch, pvr, 0xffffefff, 0x004e0203, UARCH_POWER9_DD23)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x00800000, UARCH_POWER10)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x00700000, UARCH_CELLBE)
+  // 32 bit
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x00040000, UARCH_PPC604)
+  CHECK_UARCH(arch, pvr, 0xfffff000, 0x00090000, UARCH_PPC604)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x00090000, UARCH_PPC604)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x000a0000, UARCH_PPC604)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x00084202, UARCH_PPCG3)
+  CHECK_UARCH(arch, pvr, 0xfffffff0, 0x00080100, UARCH_PPCG3)
+  CHECK_UARCH(arch, pvr, 0xfffffff0, 0x00082200, UARCH_PPCG3)
+  CHECK_UARCH(arch, pvr, 0xfffffff0, 0x00082210, UARCH_PPCG3)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x00083214, UARCH_PPCG3)
+  CHECK_UARCH(arch, pvr, 0xfffff0e0, 0x00087000, UARCH_PPCG3)
+  CHECK_UARCH(arch, pvr, 0xfffff000, 0x00083000, UARCH_PPCG3)
+  CHECK_UARCH(arch, pvr, 0xffffff00, 0x70000100, UARCH_PPCG3)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x70000200, UARCH_PPCG3)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x70000000, UARCH_PPCG3)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x70020000, UARCH_PPCG3)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x00080000, UARCH_PPCG3)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x000c1101, UARCH_PPCG4)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x000c0000, UARCH_PPCG4)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x800c0000, UARCH_PPCG4)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x80000200, UARCH_PPCG4)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x80000201, UARCH_PPCG4)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x80000000, UARCH_PPCG4)
+  CHECK_UARCH(arch, pvr, 0xffffff00, 0x80010100, UARCH_PPCG4)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x80010200, UARCH_PPCG4)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x80010000, UARCH_PPCG4)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x80020100, UARCH_PPCG4)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x80020101, UARCH_PPCG4)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x80020000, UARCH_PPCG4)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x80030000, UARCH_PPCG4)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x80040000, UARCH_PPCG4)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x00030000, UARCH_PPC603)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x00060000, UARCH_PPC603)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x00070000, UARCH_PPC603)
+  CHECK_UARCH(arch, pvr, 0x7fff0000, 0x00810000, UARCH_PPC603)
+  CHECK_UARCH(arch, pvr, 0x7fff0000, 0x00820000, UARCH_PPC603)
+  CHECK_UARCH(arch, pvr, 0x7fff0000, 0x00830000, UARCH_PPC603)
+  CHECK_UARCH(arch, pvr, 0x7fff0000, 0x00840000, UARCH_PPC603)
+  CHECK_UARCH(arch, pvr, 0x7fff0000, 0x00850000, UARCH_PPC603)
+  CHECK_UARCH(arch, pvr, 0x7fff0000, 0x00860000, UARCH_PPC603)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x41810000, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x41610000, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x40B10000, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x41410000, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x50910000, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x51510000, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x41F10000, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x51210000, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff000f, 0x12910007, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff000f, 0x1291000d, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff000f, 0x1291000f, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff000f, 0x12910003, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff000f, 0x12910005, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff000f, 0x12910001, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff000f, 0x12910009, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff000f, 0x1291000b, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff000f, 0x12910000, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff000f, 0x12910002, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x41510000, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x7ff11432, UARCH_PPC405)
+  CHECK_UARCH(arch, pvr, 0xf0000fff, 0x40000850, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xf0000fff, 0x40000858, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xf0000fff, 0x400008d3, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xf0000ff7, 0x400008d4, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xf0000fff, 0x400008db, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xf0000ffb, 0x200008D0, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xf0000ffb, 0x200008D8, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xf0000fff, 0x40000440, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xf0000fff, 0x40000481, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xf0000fff, 0x50000850, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xf0000fff, 0x50000851, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xf0000fff, 0x50000892, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xf0000fff, 0x50000894, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xfff00fff, 0x53200891, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xfff00fff, 0x53400890, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xfff00fff, 0x53400891, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xffff0006, 0x13020002, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xffff0007, 0x13020004, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xffff0006, 0x13020000, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xffff0007, 0x13020005, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xffffff00, 0x13541800, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xfffffff0, 0x12C41C80, UARCH_PPC440)
+  CHECK_UARCH(arch, pvr, 0xffffffff, 0x11a52080, UARCH_PPC470)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x7ff50000, UARCH_PPC470)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x00050000, UARCH_PPC470)
+  CHECK_UARCH(arch, pvr, 0xffff0000, 0x11a50000, UARCH_PPC470)
+  UARCH_END
+
+  return arch;
+}
+
+bool has_altivec(struct uarch* arch) {
+  switch(arch->uarch) {
+    case UARCH_PPC970FX:
+    case UARCH_PPC970MP:
+    case UARCH_CELLBE:
+    case UARCH_POWER6:
+    case UARCH_POWER7:
+    case UARCH_POWER7PLUS:
+    case UARCH_POWER8:
+    case UARCH_POWER9:
+    case UARCH_POWER9_DD20:
+    case UARCH_POWER9_DD21:
+    case UARCH_POWER9_DD22:
+    case UARCH_POWER9_DD23:
+    case UARCH_POWER10:
+      return true;
+    default:
+      return false;
+  }
+}
+
+bool is_power9(struct uarch* arch) {
+  return arch->uarch == UARCH_POWER9      ||
+         arch->uarch == UARCH_POWER9_DD20 ||
+         arch->uarch == UARCH_POWER9_DD21 ||
+         arch->uarch == UARCH_POWER9_DD22 ||
+         arch->uarch == UARCH_POWER9_DD23;
+}
+
+char* get_str_uarch(struct cpuInfo* cpu) {
+  return cpu->arch->uarch_str;
+}
+
+char* get_str_process(struct cpuInfo* cpu) {
+  char* str = emalloc(sizeof(char) * (strlen(STRING_UNKNOWN)+1));
+  int32_t process = cpu->arch->process;
+
+  if(process == UNK) {
+    snprintf(str, strlen(STRING_UNKNOWN)+1, STRING_UNKNOWN);
+  }
+  else if(process > 100) {
+    sprintf(str, "%.2fum", (double)process/100);
+  }
+  else if(process > 0){
+    sprintf(str, "%dnm", process);
+  }
+  else {
+    snprintf(str, strlen(STRING_UNKNOWN)+1, STRING_UNKNOWN);
+    printBug("Found invalid process: '%d'", process);
+  }
+
+  return str;
+}
+
+void free_uarch_struct(struct uarch* arch) {
+  free(arch->uarch_str);
+  free(arch);
+}

src/ppc/uarch.h

@@ -0,0 +1,16 @@
+#ifndef __UARCH__
+#define __UARCH__
+
+#include <stdint.h>
+#include "ppc.h"
+
+struct uarch;
+
+struct uarch* get_uarch_from_pvr(uint32_t pvr);
+bool has_altivec(struct uarch* arch);
+bool is_power9(struct uarch* arch);
+char* get_str_uarch(struct cpuInfo* cpu);
+char* get_str_process(struct cpuInfo* cpu);
+void free_uarch_struct(struct uarch* arch);
+
+#endif

src/ppc/udev.c

@@ -0,0 +1,40 @@
+#include <errno.h>
+
+#include "../common/global.h"
+#include "udev.h"
+
+#define _PATH_TOPO_CORE_ID    "topology/core_id"
+#define _PATH_TOPO_PACKAGE_ID "topology/physical_package_id"
+
+bool fill_array_from_sys(int *core_ids, int total_cores, char* SYS_PATH) {
+  int filelen;
+  char* buf;
+  char* end;
+  char path[128];
+
+  for(int i=0; i < total_cores; i++) {
+    sprintf(path, "%s%s/cpu%d/%s", _PATH_SYS_SYSTEM, _PATH_SYS_CPU, i, SYS_PATH);
+    if((buf = read_file(path, &filelen)) == NULL) {
+      printWarn("fill_array_from_sys: %s: %s", path, strerror(errno));
+      return false;
+    }
+
+    errno = 0;
+    core_ids[i] = strtol(buf, &end, 10);
+    if(errno != 0) {
+      printWarn("fill_array_from_sys: %s:", strerror(errno));
+      return false;
+    }
+    free(buf);
+  }
+
+  return true;
+}
+
+bool fill_core_ids_from_sys(int *core_ids, int total_cores) {
+  return fill_array_from_sys(core_ids, total_cores, _PATH_TOPO_CORE_ID);
+}
+
+bool fill_package_ids_from_sys(int* package_ids, int total_cores) {
+  return fill_array_from_sys(package_ids, total_cores, _PATH_TOPO_PACKAGE_ID);
+}

src/ppc/udev.h

@@ -0,0 +1,11 @@
+#ifndef __UDEV_PPC__
+#define __UDEV_PPC__
+
+#include "../common/udev.h"
+#define _PATH_DT              "/proc/device-tree/vpd/root-node-vpd@a000/enclosure@1e00/backplane@800/processor@1000"
+#define _PATH_DT_PART         "/part-number"
+
+bool fill_core_ids_from_sys(int *core_ids, int total_cores);
+bool fill_package_ids_from_sys(int* package_ids, int total_cores);
+
+#endif

src/printer.c

@@ -1,187 +0,0 @@
-#include <stdlib.h>
-#include <string.h>
-#include <stdio.h>
-#include <stdbool.h>
-
-#include "printer.h"
-#include "ascii.h"
-#include "global.h"
-
-#define COL_NONE            ""
-#define COL_INTEL_DEFAULT_1 "\x1b[36;1m"
-#define COL_INTEL_DEFAULT_2 "\x1b[37;1m"
-#define COL_INTEL_DARK_1    "\x1b[34;1m"
-#define COL_INTEL_DARK_2    "\x1b[30m"
-#define COL_AMD_DEFAULT_1   "\x1b[37;1m"
-#define COL_AMD_DEFAULT_2   "\x1b[31;1m"
-#define COL_AMD_DARK_1      "\x1b[30;1m"
-#define COL_AMD_DARK_2      "\x1b[32;1m"
-#define RESET               "\x1b[0m"
-
-#define TITLE_NAME      "Name:       "
-#define TITLE_FREQUENCY "Frequency:  "
-#define TITLE_NCORES    "N.Cores:    "
-#define TITLE_AVX       "AVX:        "
-#define TITLE_SSE       "SSE:        "
-#define TITLE_FMA       "FMA:        "
-#define TITLE_AES       "AES:        "
-#define TITLE_SHA       "SHA:        "
-#define TITLE_L1        "L1 Size:    "
-#define TITLE_L2        "L2 Size:    "
-#define TITLE_L3        "L3 Size:    "
-#define TITLE_PEAK      "Peak FLOPS: "
-
-/*** CENTER TEXT ***/
-#define LINES_SPACE_UP   4
-#define LINES_SPACE_DOWN 4
-
-static const char* ATTRIBUTE_FIELDS [ATTRIBUTE_COUNT] =  {  TITLE_NAME, TITLE_FREQUENCY,
-                                                            TITLE_NCORES, TITLE_AVX, TITLE_SSE,
-                                                            TITLE_FMA, TITLE_AES, TITLE_SHA,
-                                                            TITLE_L1, TITLE_L2, TITLE_L3,
-                                                            TITLE_PEAK };
-
-static const int ATTRIBUTE_LIST[ATTRIBUTE_COUNT] =  { ATTRIBUTE_NAME, ATTRIBUTE_FREQUENCY,
-                                                        ATTRIBUTE_NCORES, ATTRIBUTE_AVX, ATTRIBUTE_SSE,
-                                                        ATTRIBUTE_FMA, ATTRIBUTE_AES, ATTRIBUTE_SHA,
-                                                        ATTRIBUTE_L1, ATTRIBUTE_L2, ATTRIBUTE_L3,
-                                                        ATTRIBUTE_PEAK };
-
-struct ascii {
-  char art[NUMBER_OF_LINES][LINE_SIZE];
-  char color1[10];
-  char color2[10];
-  char reset[10];
-  char* atributes[ATTRIBUTE_COUNT];
-  VENDOR vendor;
-};
-
-void setAttribute(struct ascii* art, int type, char* value) {
-  int i = 0;
-  while(i < ATTRIBUTE_COUNT && type != ATTRIBUTE_LIST[i])
-    i++;
-  if(i != ATTRIBUTE_COUNT)
-    art->atributes[i] = value;
-  else
-    printBug("Setting attribute failed because it was not found");
-}
-
-struct ascii* set_ascii(VENDOR cpuVendor, STYLE style) {
-  /*** Check that number of lines of ascii art matches the number
-  of spaces plus the number of lines filled with text ***/
-  if(LINES_SPACE_UP+LINES_SPACE_DOWN+ATTRIBUTE_COUNT != NUMBER_OF_LINES) {
-    printBug("Number of lines do not match (%d vs %d)",LINES_SPACE_UP+LINES_SPACE_DOWN+ATTRIBUTE_COUNT,NUMBER_OF_LINES);
-    return NULL;
-  }
-
-  char *COL_DEFAULT_1, *COL_DEFAULT_2, *COL_DARK_1, *COL_DARK_2;
-  struct ascii* art = malloc(sizeof(struct ascii));
-  art->vendor = cpuVendor;
-  strcpy(art->reset,RESET);
-  
-  if(cpuVendor == VENDOR_INTEL) {
-    COL_DEFAULT_1 = COL_INTEL_DEFAULT_1;
-    COL_DEFAULT_2 = COL_INTEL_DEFAULT_2;
-    COL_DARK_1 = COL_INTEL_DARK_1;
-    COL_DARK_2 = COL_INTEL_DARK_2;
-  }
-  else {
-    COL_DEFAULT_1 = COL_AMD_DEFAULT_1;
-    COL_DEFAULT_2 = COL_AMD_DEFAULT_2;
-    COL_DARK_1 = COL_AMD_DARK_1;
-    COL_DARK_2 = COL_AMD_DARK_2;    
-  }
-  
-  switch(style) {
-    case STYLE_NONE:
-        strcpy(art->color1,COL_NONE);
-        strcpy(art->color2,COL_NONE);
-        break; 
-    case STYLE_EMPTY:
-      #ifdef _WIN32
-        strcpy(art->color1,COL_NONE);
-        strcpy(art->color2,COL_NONE);  
-        art->reset[0] = '\0';
-        break;
-      #endif
-    case STYLE_DEFAULT:
-      strcpy(art->color1,COL_DEFAULT_1);
-      strcpy(art->color2,COL_DEFAULT_2);
-      break;
-    case STYLE_DARK:
-      strcpy(art->color1,COL_DARK_1);
-      strcpy(art->color2,COL_DARK_2);
-      break;
-    default:
-      printBug("Found invalid style (%d)",style);
-      return NULL;    
-  }
-  
-  char tmp[NUMBER_OF_LINES*LINE_SIZE];
-  if(cpuVendor == VENDOR_INTEL) strcpy(tmp, INTEL_ASCII);    
-  else strcpy(tmp, AMD_ASCII);    
-    for(int i=0; i < NUMBER_OF_LINES; i++)
-      strncpy(art->art[i], tmp + i*LINE_SIZE, LINE_SIZE); 
-    
-  return art;
-}
-
-void print_ascii_intel(struct ascii* art) {
-  bool flag = false;
-
-  for(int n=0;n<NUMBER_OF_LINES;n++) {
-
-    /*** PRINT ASCII-ART ***/
-    for(int i=0;i<LINE_SIZE;i++) {
-      if(flag) {
-        if(art->art[n][i] == ' ') {
-          flag = false;
-          printf("%c",art->art[n][i]);
-        }
-        else
-          printf("%s%c%s", art->color1, art->art[n][i], art->reset);
-      }
-      else {
-        if(art->art[n][i] != ' ') {
-          flag = true;
-          printf("%s%c%s", art->color2, art->art[n][i], art->reset);
-        }
-        else
-          printf("%c",art->art[n][i]);
-      }
-    }
-
-    /*** PRINT ATTRIBUTE ***/
-    if(n>LINES_SPACE_UP-1 && n<NUMBER_OF_LINES-LINES_SPACE_DOWN)
-      printf("%s%s%s%s%s\n",art->color1,ATTRIBUTE_FIELDS[n-LINES_SPACE_UP],art->color2,art->atributes[n-LINES_SPACE_UP],art->reset);
-    else printf("\n");
-  }
-}
-
-void print_ascii_amd(struct ascii* art) {
-
-  for(int n=0;n<NUMBER_OF_LINES;n++) {
-    /*** PRINT ASCII-ART ***/
-    for(int i=0;i<LINE_SIZE;i++) {
-      if(art->art[n][i] == '@')
-        printf("%s%c%s", art->color1, art->art[n][i], art->reset);
-      else if(art->art[n][i] == '#')
-        printf("%s%c%s", art->color2, art->art[n][i], art->reset);
-      else
-        printf("%c",art->art[n][i]);
-    }
-
-    /*** PRINT ATTRIBUTE ***/
-    if(n>LINES_SPACE_UP-1 && n<NUMBER_OF_LINES-LINES_SPACE_DOWN)
-      printf("%s%s%s%s%s\n",art->color1,ATTRIBUTE_FIELDS[n-LINES_SPACE_UP],art->color2,art->atributes[n-LINES_SPACE_UP], art->reset);
-    else printf("\n");
-  }
-
-}
-
-void print_ascii(struct ascii* art) {
-  if(art->vendor == VENDOR_INTEL)
-    print_ascii_intel(art);
-  else
-    print_ascii_amd(art);
-}

src/printer.h

@@ -1,37 +0,0 @@
-#ifndef __PRINTER__
-#define __PRINTER__
-
-#include "standart.h"
-#include "ascii.h"
-
-#define ATTRIBUTE_COUNT    12
-#define ATTRIBUTE_NAME      0
-#define ATTRIBUTE_FREQUENCY 1
-#define ATTRIBUTE_NCORES    2
-#define ATTRIBUTE_AVX       3
-#define ATTRIBUTE_SSE       4
-#define ATTRIBUTE_FMA       5
-#define ATTRIBUTE_AES       6
-#define ATTRIBUTE_SHA       7
-#define ATTRIBUTE_L1        8
-#define ATTRIBUTE_L2        9
-#define ATTRIBUTE_L3        10
-#define ATTRIBUTE_PEAK      11
-
-typedef int STYLE;
-#define STYLES_COUNT 3
-
-#define STYLE_EMPTY   -2
-#define STYLE_INVALID -1
-#define STYLE_DEFAULT  0
-#define STYLE_DARK     1
-#define STYLE_NONE     2
-
-struct ascii;
-
-static const int STYLES_CODE_LIST [STYLES_COUNT] = {STYLE_DEFAULT, STYLE_DARK};
-struct ascii* set_ascii(VENDOR cpuVendor, STYLE style);
-void print_ascii(struct ascii* art);
-void setAttribute(struct ascii* art, int type, char* value);
-
-#endif

src/standart.c

@@ -1,736 +0,0 @@
-#include <stdio.h>
-#include <stdlib.h>
-#include <unistd.h>
-#include <string.h>
-#include <assert.h>
-#include <stdbool.h>
-
-#ifdef _WIN32
-#include <windows.h>
-#else
-#include <unistd.h>
-#include "udev.h"
-#endif
-
-#include "standart.h"
-#include "cpuid.h"
-#include "global.h"
-
-#define VENDOR_INTEL_STRING "GenuineIntel"
-#define VENDOR_AMD_STRING   "AuthenticAMD"
-
-#define STRING_YES        "Yes"
-#define STRING_NO         "No"
-#define STRING_UNKNOWN    "Unknown"
-#define STRING_NONE       "None"
-#define STRING_MEGAHERZ   "MHz"
-#define STRING_GIGAHERZ   "GHz"
-#define STRING_KILOBYTES  "KB"
-#define STRING_MEGABYTES  "MB"
-
-#define MASK 0xFF
-
-/*
- * cpuid reference: http://www.sandpile.org/x86/cpuid.htm
- * cpuid amd: https://www.amd.com/system/files/TechDocs/25481.pdf
- */
-
-struct cpuInfo {
-  bool AVX;
-  bool AVX2;
-  bool AVX512;
-  bool SSE;
-  bool SSE2;
-  bool SSE3;
-  bool SSSE3;
-  bool SSE4a;
-  bool SSE4_1;
-  bool SSE4_2;
-  bool FMA3;
-  bool FMA4;
-  bool AES;
-  bool SHA;
-
-  VENDOR cpu_vendor;
-  
-  //  Max cpuids levels
-  uint32_t maxLevels;
-  // Max cpuids extended levels
-  uint32_t maxExtendedLevels;
-};
-
-struct cache {
-  int32_t L1i;
-  int32_t L1d;
-  int32_t L2;
-  int32_t L3;
-};
-
-struct frequency {
-  int64_t base;
-  int64_t max;
-};
-
-struct topology {
-  int64_t total_cores;
-  uint32_t physical_cores;
-  uint32_t logical_cores;
-  uint32_t smt;  
-  uint32_t sockets;  
-  bool ht;
-};
-
-void init_cpu_info(struct cpuInfo* cpu) {
-  cpu->AVX    = false;
-  cpu->AVX2   = false;
-  cpu->AVX512 = false;
-  cpu->SSE    = false;
-  cpu->SSE2   = false;
-  cpu->SSE3   = false;
-  cpu->SSSE3  = false;
-  cpu->SSE4a  = false;
-  cpu->SSE4_1 = false;
-  cpu->SSE4_2 = false;
-  cpu->FMA3   = false;
-  cpu->FMA4   = false;
-  cpu->AES    = false;
-  cpu->SHA    = false;
-}
-
-void get_cpu_vendor_internal(char* name, uint32_t ebx,uint32_t ecx,uint32_t edx) {
-  name[__COUNTER__] = ebx       & MASK;
-  name[__COUNTER__] = (ebx>>8)  & MASK;
-  name[__COUNTER__] = (ebx>>16) & MASK;
-  name[__COUNTER__] = (ebx>>24) & MASK;
-
-  name[__COUNTER__] = edx       & MASK;
-  name[__COUNTER__] = (edx>>8)  & MASK;
-  name[__COUNTER__] = (edx>>16) & MASK;
-  name[__COUNTER__] = (edx>>24) & MASK;
-
-  name[__COUNTER__] = ecx       & MASK;
-  name[__COUNTER__] = (ecx>>8)  & MASK;
-  name[__COUNTER__] = (ecx>>16) & MASK;
-  name[__COUNTER__] = (ecx>>24) & MASK;
-}
-
-struct cpuInfo* get_cpu_info() {
-  struct cpuInfo* cpu = malloc(sizeof(struct cpuInfo));
-  init_cpu_info(cpu);
-  uint32_t eax = 0;
-  uint32_t ebx = 0;
-  uint32_t ecx = 0;
-  uint32_t edx = 0;
-
-  //Get max cpuid level
-  cpuid(&eax, &ebx, &ecx, &edx);
-  cpu->maxLevels = eax;
-
-  //Fill vendor
-  char name[13];
-  memset(name,0,13);
-  get_cpu_vendor_internal(name, ebx, ecx, edx);
-  
-  if(strcmp(VENDOR_INTEL_STRING,name) == 0)
-    cpu->cpu_vendor = VENDOR_INTEL;
-  else if (strcmp(VENDOR_AMD_STRING,name) == 0)
-    cpu->cpu_vendor = VENDOR_AMD;  
-  else {
-    cpu->cpu_vendor = VENDOR_INVALID;
-    printErr("Unknown CPU vendor: %s", name);
-    return NULL;
-  }
-
-  //Get max extended level
-  eax = 0x80000000;
-  ebx = 0;
-  ecx = 0;
-  edx = 0;
-  cpuid(&eax, &ebx, &ecx, &edx);
-  cpu->maxExtendedLevels = eax;  
-
-  //Fill instructions support
-  if (cpu->maxLevels >= 0x00000001){
-    eax = 0x00000001;
-    cpuid(&eax, &ebx, &ecx, &edx);
-    cpu->SSE    = (edx & ((int)1 << 25)) != 0;
-    cpu->SSE2   = (edx & ((int)1 << 26)) != 0;
-    cpu->SSE3   = (ecx & ((int)1 <<  0)) != 0;
-
-    cpu->SSSE3  = (ecx & ((int)1 <<  9)) != 0;
-    cpu->SSE4_1 = (ecx & ((int)1 << 19)) != 0;
-    cpu->SSE4_2 = (ecx & ((int)1 << 20)) != 0;
-
-    cpu->AES    = (ecx & ((int)1 << 25)) != 0;
-
-    cpu->AVX    = (ecx & ((int)1 << 28)) != 0;
-    cpu->FMA3   = (ecx & ((int)1 << 12)) != 0;
-  }
-  else {
-    printWarn("Can't read features information from cpuid (needed level is 0x%.8X, max is 0x%.8X)", 0x00000001, cpu->maxLevels);
-  }
-  
-  if (cpu->maxLevels >= 0x00000007){
-    eax = 0x00000007;
-    ecx = 0x00000000;
-    cpuid(&eax, &ebx, &ecx, &edx);
-    cpu->AVX2         = (ebx & ((int)1 <<  5)) != 0;
-    cpu->SHA          = (ebx & ((int)1 << 29)) != 0;
-    cpu->AVX512       = (((ebx & ((int)1 << 16)) != 0) ||
-                        ((ebx & ((int)1 << 28)) != 0)  ||
-                        ((ebx & ((int)1 << 26)) != 0)  ||
-                        ((ebx & ((int)1 << 27)) != 0)  ||
-                        ((ebx & ((int)1 << 31)) != 0)  ||
-                        ((ebx & ((int)1 << 30)) != 0)  ||
-                        ((ebx & ((int)1 << 17)) != 0)  ||
-                        ((ebx & ((int)1 << 21)) != 0));
-  }
-  else {
-    printWarn("Can't read features information from cpuid (needed level is 0x%.8X, max is 0x%.8X)", 0x00000007, cpu->maxLevels);    
-  }
-  
-  if (cpu->maxExtendedLevels >= 0x80000001){
-      eax = 0x80000001;
-      cpuid(&eax, &ebx, &ecx, &edx);
-      cpu->SSE4a = (ecx & ((int)1 <<  6)) != 0;
-      cpu->FMA4  = (ecx & ((int)1 << 16)) != 0;
-  }
-  else {
-    printWarn("Can't read features information from cpuid (needed extended level is 0x%.8X, max is 0x%.8X)", 0x80000001, cpu->maxExtendedLevels);        
-  }
-
-  return cpu;
-}
-
-struct topology* get_topology_info(struct cpuInfo* cpu) {
-  struct topology* topo = malloc(sizeof(struct topology));
-  uint32_t eax = 0;
-  uint32_t ebx = 0;
-  uint32_t ecx = 0;
-  uint32_t edx = 0;
-  int32_t type;
-  
-  if (cpu->maxLevels >= 0x00000001) {
-    eax = 0x00000001;
-    cpuid(&eax, &ebx, &ecx, &edx);
-    topo->ht = edx & (1 << 28);
-  }
-  else {
-    printWarn("Can't read HT information from cpuid (needed level is 0x%.8X, max is 0x%.8X). Assuming HT is disabled", 0x00000001, cpu->maxLevels); 
-    topo->ht = false;
-  }
-    
-  switch(cpu->cpu_vendor) {
-    case VENDOR_INTEL:  
-      if (cpu->maxLevels >= 0x0000000B) {
-        //TODO: This idea only works with no NUMA systems  
-        eax = 0x0000000B;
-        ecx = 0x00000000;
-        cpuid(&eax, &ebx, &ecx, &edx);
-        type = (ecx >> 8) & 0xFF;
-        if (type != 1) {
-          printBug("Unexpected type in cpuid 0x0000000B (expected 1, got %d)", type);     
-          return NULL;
-        }        
-        topo->smt = ebx & 0xFFFF;                
-  
-        eax = 0x0000000B;
-        ecx = 0x00000001;
-        cpuid(&eax, &ebx, &ecx, &edx); 
-        type = (ecx >> 8) & 0xFF;
-        if (type < 2) {       
-          printBug("Unexpected type in cpuid 0x0000000B (expected < 2, got %d)", type);     
-          return NULL;
-        }
-        topo->logical_cores = ebx & 0xFFFF;
-        topo->physical_cores = topo->logical_cores / topo->smt;
-      }
-      else {
-        printWarn("Can't read topology information from cpuid (needed level is 0x%.8X, max is 0x%.8X)", 0x0000000B, cpu->maxLevels); 
-        topo->physical_cores = 1;
-        topo->logical_cores = 1;
-        topo->smt = 1;
-      }
-      break;
-    case VENDOR_AMD:  
-      if (cpu->maxExtendedLevels >= 0x80000008) {
-        eax = 0x80000008;  
-        cpuid(&eax, &ebx, &ecx, &edx);        
-        topo->logical_cores = (ecx & 0xFF) + 1;
- 
-        if (cpu->maxExtendedLevels >= 0x8000001E) {
-          eax = 0x8000001E;  
-          cpuid(&eax, &ebx, &ecx, &edx);
-          topo->smt = ((ebx >> 8) & 0x03) + 1;          
-        }
-        else {
-          printWarn("Can't read topology information from cpuid (needed extended level is 0x%.8X, max is 0x%.8X)", 0x8000001E, cpu->maxLevels); 
-          topo->smt = 1;    
-        }
-        topo->physical_cores = topo->logical_cores / topo->smt;
-      }
-      else {
-        printWarn("Can't read topology information from cpuid (needed extended level is 0x%.8X, max is 0x%.8X)", 0x80000008, cpu->maxLevels); 
-        topo->physical_cores = 1;
-        topo->logical_cores = 1;
-        topo->smt = 1;    
-      }
-      break;
-    default:
-      printBug("Cant get topology because VENDOR is empty");
-      return NULL;
-  }
-  
-  // Ask the OS the total number of cores it sees
-  // If we have one socket, it will be same as the cpuid,
-  // but in dual socket it will not!
-  #ifdef _WIN32
-    SYSTEM_INFO info;
-    GetSystemInfo(&info);
-    topo->total_cores = info.dwNumberOfProcessors;
-  #else
-    if((topo->total_cores = sysconf(_SC_NPROCESSORS_ONLN)) == -1) {
-      perror("sysconf");
-      topo->total_cores = topo->logical_cores; // fallback
-    }    
-  #endif  
-  topo->sockets = topo->total_cores / topo->smt / topo->physical_cores; // Idea borrowed from lscpu
-  
-  return topo;
-}
-
-struct cache* get_cache_info(struct cpuInfo* cpu) {
-  struct cache* cach = malloc(sizeof(struct cache));    
-  uint32_t eax = 0;
-  uint32_t ebx = 0;
-  uint32_t ecx = 0;
-  uint32_t edx = 0;
-  uint32_t level;
-
-  // We use standart 0x00000004 for Intel
-  // We use extended 0x8000001D for AMD
-  if(cpu->cpu_vendor == VENDOR_INTEL) {
-    level = 0x00000004;
-    if(cpu->maxLevels < level) {
-      printErr("Can't read cache information from cpuid (needed level is %d, max is %d)", level, cpu->maxLevels);    
-      return NULL;
-    }
-  }
-  else {
-    level = 0x8000001D;
-    if(cpu->maxExtendedLevels < level) {
-      printErr("Can't read cache information from cpuid (needed extended level is %d, max is %d)", level, cpu->maxExtendedLevels);    
-      return NULL;
-    }
-  }
-  
-  // We suppose there are 4 caches (at most)
-  for(int i=0; i < 4; i++) {
-    eax = level; // get cache info
-    ebx = 0;
-    ecx = i; // cache id
-    edx = 0;
-      
-    cpuid(&eax, &ebx, &ecx, &edx); 
-      
-    int32_t cache_type = eax & 0x1F;
-      
-    // If its 0, we tried fetching a non existing cache
-    if (cache_type > 0) {
-      int32_t cache_level = (eax >>= 5) & 0x7;
-      int32_t cache_is_self_initializing = (eax >>= 3) & 0x1; // does not need SW initialization
-      int32_t cache_is_fully_associative = (eax >>= 1) & 0x1;
-      uint32_t cache_sets = ecx + 1;
-      uint32_t cache_coherency_line_size = (ebx & 0xFFF) + 1;
-      uint32_t cache_physical_line_partitions = ((ebx >>= 12) & 0x3FF) + 1;
-      uint32_t cache_ways_of_associativity = ((ebx >>= 10) & 0x3FF) + 1;
-        
-      int32_t cache_total_size = cache_ways_of_associativity * cache_physical_line_partitions * cache_coherency_line_size * cache_sets;  
-        
-      switch (cache_type) {
-        case 1: // Data Cache (We assume this is L1d)
-          if(cache_level != 1) {
-            printBug("Found data cache at level %d (expected 1)", cache_level);
-            return NULL;
-          }
-          cach->L1d = cache_total_size; 
-          break;
-            
-        case 2: // Instruction Cache (We assume this is L1i)
-          if(cache_level != 1) {
-            printBug("Found instruction cache at level %d (expected 1)", cache_level);
-            return NULL;
-          }
-          cach->L1i = cache_total_size;
-          break;
-          
-        case 3: // Unified Cache (This may be L2 or L3)
-          if(cache_level == 2) cach->L2 = cache_total_size;
-          else if(cache_level == 3) cach->L3 = cache_total_size;
-          else {
-            printBug("Found unified cache at level %d (expected == 2 or 3)", cache_level);
-            return NULL;
-          }
-          break;
-          
-        default: // Unknown Type Cache
-          printBug("Unknown Type Cache found at ID %d", i);
-          return NULL;
-      }
-    }    
-    else if(i == 2) cach->L2 = UNKNOWN;
-    else if(i == 3) cach->L3 = UNKNOWN; 
-    else {
-      printBug("Could not find cache ID %d", i);
-      return NULL;    
-    }    
-  }
-  
-  // Sanity checks. If we read values greater than this, they can't be valid ones
-  // The values were chosen by me
-  if(cach->L1i > 64 * 1024) {
-    printBug("Invalid L1i size: %dKB\n", cach->L1i/1024);
-    return NULL;
-  }
-  if(cach->L1d > 64 * 1024) {
-    printBug("Invalid L1d size: %dKB\n", cach->L1d/1024);
-    return NULL;
-  }
-  if(cach->L2 != UNKNOWN && cach->L2 > 2 * 1048576) {
-    printBug("Invalid L2 size: %dMB\n", cach->L2/(1048576));
-    return NULL;
-  }
-  if(cach->L3 != UNKNOWN && cach->L3 > 100 * 1048576) {
-    printBug("Invalid L3 size: %dMB\n", cach->L3/(1048576));
-    return NULL;
-  }
-  
-  return cach;
-}
-
-struct frequency* get_frequency_info(struct cpuInfo* cpu) {
-  struct frequency* freq = malloc(sizeof(struct frequency));
-  
-  if(cpu->maxLevels < 0x16) {
-    #ifdef _WIN32
-      printErr("Can't read frequency information from cpuid (needed level is %d, max is %d)", 0x16, cpu->maxLevels);
-      freq->base = UNKNOWN;
-      freq->max = UNKNOWN;
-    #else
-      printWarn("Can't read frequency information from cpuid (needed level is %d, max is %d). Using udev", 0x16, cpu->maxLevels);
-      freq->base = UNKNOWN;
-      freq->max = get_max_freq_from_file();
-    #endif
-  }
-  else {
-    uint32_t eax = 0x16;
-    uint32_t ebx = 0;
-    uint32_t ecx = 0;
-    uint32_t edx = 0;
-    
-    cpuid(&eax, &ebx, &ecx, &edx);
-    
-    freq->base = eax;
-    freq->max = ebx;    
-  }
-  
-  return freq;
-}
-
-int64_t get_freq(struct frequency* freq) {
-  return freq->max;
-}
-
-VENDOR get_cpu_vendor(struct cpuInfo* cpu) {
-  return cpu->cpu_vendor;
-}
-
-void debug_cpu_info(struct cpuInfo* cpu) {
-  printf("AVX=%s\n", cpu->AVX ? "true" : "false");
-  printf("AVX2=%s\n", cpu->AVX2 ? "true" : "false");
-  printf("AVX512=%s\n\n", cpu->AVX512 ? "true" : "false");
-
-  printf("SSE=%s\n", cpu->SSE ? "true" : "false");
-  printf("SSE2=%s\n", cpu->SSE2 ? "true" : "false");
-  printf("SSE3=%s\n", cpu->SSE3 ? "true" : "false");
-  printf("SSSE3=%s\n", cpu->SSSE3 ? "true" : "false");
-  printf("SSE4a=%s\n", cpu->SSE4a ? "true" : "false");
-  printf("SSE4_1=%s\n", cpu->SSE4_1 ? "true" : "false");
-  printf("SSE4_2=%s\n\n", cpu->SSE4_2 ? "true" : "false");
-
-  printf("FMA3=%s\n", cpu->FMA3 ? "true" : "false");
-  printf("FMA4=%s\n\n", cpu->FMA4 ? "true" : "false");
-
-  printf("AES=%s\n", cpu->AES ? "true" : "false");
-  printf("SHA=%s\n", cpu->SHA ? "true" : "false");
-}
-
-void debug_cache(struct cache* cach) {
-  printf("L1i=%dB\n",cach->L1i);
-  printf("L1d=%dB\n",cach->L1d);
-  printf("L2=%dB\n",cach->L2);
-  printf("L3=%dB\n",cach->L3);
-}
-
-void debug_frequency(struct frequency* freq) {
-  #ifdef _WIN32
-    printf("maxf=%I64d Mhz\n",freq->max);
-    printf("basef=%I64d Mhz\n",freq->base);
-  #else
-    printf("maxf=%ld Mhz\n",freq->max);
-    printf("basef=%ld Mhz\n",freq->base);
-  #endif
-}
-
-/*** STRING FUNCTIONS ***/
-
-char* get_str_peak_performance(struct cpuInfo* cpu, struct topology* topo, int64_t freq) {
-  /***
-  PP = PeakPerformance
-  SP = SinglePrecision
-
-  PP(SP) =
-  N_CORES                             *
-  FREQUENCY                           *
-  2(Two vector units)                 *
-  2(If cpu has fma)                   *
-  16(If AVX512), 8(If AVX), 4(If SSE) *
-
-  ***/
-
-  //7 for GFLOP/s and 6 for digits,eg 412.14
-  uint32_t size = 7+6+1+1;
-  assert(strlen(STRING_UNKNOWN)+1 <= size);
-  char* string = malloc(sizeof(char)*size);
-
-  //First check we have consistent data
-  if(freq == UNKNOWN) {
-    snprintf(string,strlen(STRING_UNKNOWN)+1,STRING_UNKNOWN);
-    return string;
-  }
-
-  double flops = topo->physical_cores*(freq*1000000);
-  
-  // Intel USUALLY has two VPUs. I have never seen an AMD 
-  // with two VPUs.
-  if(cpu->cpu_vendor == VENDOR_INTEL) flops = flops * 2; 
-
-  if(cpu->FMA3 || cpu->FMA4)
-    flops = flops*2;
-
-  if(cpu->AVX512)
-    flops = flops*16;
-  else if(cpu->AVX || cpu->AVX2)
-    flops = flops*8;
-  else if(cpu->SSE)
-    flops = flops*4;
-
-  if(flops >= (double)1000000000000.0)
-    snprintf(string,size,"%.2f TFLOP/s",flops/1000000000000);
-  else if(flops >= 1000000000.0)
-    snprintf(string,size,"%.2f GFLOP/s",flops/1000000000);
-  else
-    snprintf(string,size,"%.2f MFLOP/s",flops/1000000);
-  return string;
-}
-
-char* get_str_topology(struct topology* topo) {
-  char* string;
-  if(topo->smt > 1) {
-    //3 for digits, 8 for ' cores (', 3 for digits, 9 for ' threads)'
-    uint32_t size = 3+8+3+9+1;
-    string = malloc(sizeof(char)*size);
-    snprintf(string, size, "%d cores (%d threads)",topo->physical_cores,topo->logical_cores);
-  }
-  else {
-    uint32_t size = 3+7+1;
-    string = malloc(sizeof(char)*size);
-    snprintf(string, size, "%d cores",topo->physical_cores);
-  }
-  return string;
-}
-
-char* get_str_avx(struct cpuInfo* cpu) {
-  //If all AVX are available, it will use up to 15
-  char* string = malloc(sizeof(char)*15+1);
-  if(!cpu->AVX)
-    snprintf(string,2+1,"No");
-  else if(!cpu->AVX2)
-    snprintf(string,3+1,"AVX");
-  else if(!cpu->AVX512)
-    snprintf(string,8+1,"AVX,AVX2");
-  else
-    snprintf(string,15+1,"AVX,AVX2,AVX512");
-
-  return string;
-}
-
-char* get_str_sse(struct cpuInfo* cpu) {
-  uint32_t last = 0;
-  uint32_t SSE_sl = 4;
-  uint32_t SSE2_sl = 5;
-  uint32_t SSE3_sl = 5;
-  uint32_t SSSE3_sl = 6;
-  uint32_t SSE4a_sl = 6;
-  uint32_t SSE4_1_sl = 7;
-  uint32_t SSE4_2_sl = 7;
-  char* string = malloc(sizeof(char)*SSE_sl+SSE2_sl+SSE3_sl+SSSE3_sl+SSE4a_sl+SSE4_1_sl+SSE4_2_sl+1);
-
-  if(cpu->SSE) {
-      snprintf(string+last,SSE_sl+1,"SSE,");
-      last+=SSE_sl;
-  }
-  if(cpu->SSE2) {
-      snprintf(string+last,SSE2_sl+1,"SSE2,");
-      last+=SSE2_sl;
-  }
-  if(cpu->SSE3) {
-      snprintf(string+last,SSE3_sl+1,"SSE3,");
-      last+=SSE3_sl;
-  }
-  if(cpu->SSSE3) {
-      snprintf(string+last,SSSE3_sl+1,"SSSE3,");
-      last+=SSSE3_sl;
-  }
-  if(cpu->SSE4a) {
-      snprintf(string+last,SSE4a_sl+1,"SSE4a,");
-      last+=SSE4a_sl;
-  }
-  if(cpu->SSE4_1) {
-      snprintf(string+last,SSE4_1_sl+1,"SSE4_1,");
-      last+=SSE4_1_sl;
-  }
-  if(cpu->SSE4_2) {
-      snprintf(string+last,SSE4_2_sl+1,"SSE4_2,");
-      last+=SSE4_2_sl;
-  }
-
-  //Purge last comma
-  string[last-1] = '\0';
-  return string;
-}
-
-char* get_str_fma(struct cpuInfo* cpu) {
-  char* string = malloc(sizeof(char)*9+1);
-  if(!cpu->FMA3)
-    snprintf(string,2+1,"No");
-  else if(!cpu->FMA4)
-    snprintf(string,4+1,"FMA3");
-  else
-    snprintf(string,9+1,"FMA3,FMA4");
-
-  return string;
-}
-
-char* get_str_aes(struct cpuInfo* cpu) {
-  char* string = malloc(sizeof(char)*3+1);
-  if(cpu->AES)
-    snprintf(string,3+1,STRING_YES);
-  else
-    snprintf(string,2+1,STRING_NO);
-  return string;
-}
-
-char* get_str_sha(struct cpuInfo* cpu) {
-  char* string = malloc(sizeof(char)*3+1);
-  if(cpu->SHA)
-    snprintf(string,3+1,STRING_YES);
-  else
-    snprintf(string,2+1,STRING_NO);
-  return string;
-}
-
-// String functions
-char* get_str_l1(struct cache* cach) {
-  // 2*2 for digits, 4 for two 'KB' and 6 for '(D)' and '(I)'
-  uint32_t size = (2*2+4+6+1);
-  int32_t sanity_ret;
-  char* string = malloc(sizeof(char)*size);
-  sanity_ret = snprintf(string,size,"%d"STRING_KILOBYTES"(D)%d"STRING_KILOBYTES"(I)",cach->L1d/1024,cach->L1i/1024);
-  assert(sanity_ret > 0);
-  return string;
-}
-
-char* get_str_l2(struct cache* cach) {
-  if(cach->L2 == UNKNOWN) {
-    char* string = malloc(sizeof(char) * 5);
-    snprintf(string, 5, STRING_NONE);
-    return string;
-  }
-  else {
-    int32_t sanity_ret;  
-    char* string;
-    if(cach->L2/1024 >= 1024) {
-      //1 for digit, 2 for 'MB'
-      uint32_t size = (1+2+1);    
-      string = malloc(sizeof(char)*size);
-      sanity_ret = snprintf(string,size,"%d"STRING_MEGABYTES,cach->L2/(1048576));    
-    }
-    else {
-      //4 for digits, 2 for 'KB'
-      uint32_t size = (4+2+1);    
-      string = malloc(sizeof(char)*size);
-      sanity_ret = snprintf(string,size,"%d"STRING_KILOBYTES,cach->L2/1024);  
-    }    
-    assert(sanity_ret > 0);    
-    return string;
-  }
-}
-
-char* get_str_l3(struct cache* cach) {
-  if(cach->L3 == UNKNOWN) {
-    char* string = malloc(sizeof(char) * 5);
-    snprintf(string, 5, STRING_NONE);
-    return string;
-  }
-  else {
-    int32_t sanity_ret;  
-    char* string;
-    if(cach->L3/1024 >= 1024) {
-      //1 for digit, 2 for 'MB'
-      uint32_t size = (1+2+1);    
-      string = malloc(sizeof(char)*size);
-      sanity_ret = snprintf(string,size,"%d"STRING_MEGABYTES,cach->L3/(1048576));    
-    }
-    else {
-      //4 for digits, 2 for 'KB'
-      uint32_t size = (4+2+1);    
-      string = malloc(sizeof(char)*size);
-      sanity_ret = snprintf(string,size,"%d"STRING_KILOBYTES,cach->L3/1024);  
-    }    
-    assert(sanity_ret > 0);    
-    return string;
-  }
-}
-
-char* get_str_freq(struct frequency* freq) {
-  //Max 3 digits and 3 for '(M/G)Hz' plus 1 for '\0'
-  uint32_t size = (4+3+1);
-  assert(strlen(STRING_UNKNOWN)+1 <= size);
-  char* string = malloc(sizeof(char)*size);
-  if(freq->max == UNKNOWN)
-    snprintf(string,strlen(STRING_UNKNOWN)+1,STRING_UNKNOWN);
-  else if(freq->max >= 1000)
-    snprintf(string,size,"%.2f"STRING_GIGAHERZ,(float)(freq->max)/1000);
-  else
-    snprintf(string,size,"%.2f"STRING_MEGAHERZ,(float)(freq->max));
-  return string;
-}
-
-void print_levels(struct cpuInfo* cpu, char* cpu_name) {
-  printf("%s\n", cpu_name);
-  printf("- Max standart level: 0x%.8X\n", cpu->maxLevels);
-  printf("- Max extended level: 0x%.8X\n", cpu->maxExtendedLevels);
-}
-
-void free_topo_struct(struct topology* topo) {
-  free(topo);
-}
-
-void free_cache_struct(struct cache* cach) {
-  free(cach);
-}
-
-void free_freq_struct(struct frequency* freq) {
-  free(freq);
-}

src/standart.h

@@ -1,55 +0,0 @@
-#ifndef __01h__
-#define __01h__
-
-#include <stdint.h>
-
-#define VENDOR_EMPTY   0
-#define VENDOR_INTEL   1
-#define VENDOR_AMD     2
-#define VENDOR_INVALID 3
-
-#define UNKNOWN -1
-
-struct cpuInfo;
-struct frequency;
-struct cache;
-struct topology;
-
-typedef int32_t VENDOR;
-
-struct cpuInfo* get_cpu_info();
-VENDOR get_cpu_vendor(struct cpuInfo* cpu);
-int64_t get_freq(struct frequency* freq);
-struct cache* get_cache_info(struct cpuInfo* cpu);
-struct frequency* get_frequency_info(struct cpuInfo* cpu);
-struct topology* get_topology_info(struct cpuInfo* cpu);
-
-char* get_str_ncores(struct cpuInfo* cpu);
-char* get_str_avx(struct cpuInfo* cpu);
-char* get_str_sse(struct cpuInfo* cpu);
-char* get_str_fma(struct cpuInfo* cpu);
-char* get_str_aes(struct cpuInfo* cpu);
-char* get_str_sha(struct cpuInfo* cpu);
-
-char* get_str_l1(struct cache* cach);
-char* get_str_l2(struct cache* cach);
-char* get_str_l3(struct cache* cach);
-
-char* get_str_freq(struct frequency* freq);
-
-char* get_str_topology(struct topology* topo);
-
-char* get_str_peak_performance(struct cpuInfo* cpu, struct topology* topo, int64_t freq);
-
-void print_levels(struct cpuInfo* cpu, char* cpu_name);
-
-void free_cpuinfo_struct(struct cpuInfo* cpu);
-void free_cache_struct(struct cache* cach);
-void free_topo_struct(struct topology* topo);
-void free_freq_struct(struct frequency* freq);
-
-void debug_cpu_info(struct cpuInfo* cpu);
-void debug_cache(struct cache* cach);
-void debug_frequency(struct frequency* freq);
-
-#endif

src/udev.c

@@ -1,74 +0,0 @@
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-#include <unistd.h>
-#include <fcntl.h>
-#include <errno.h>
-
-#include "global.h"
-#include "standart.h"
-
-#define _PATH_SYS_SYSTEM    "/sys/devices/system"
-#define _PATH_SYS_CPU       _PATH_SYS_SYSTEM"/cpu"
-#define _PATH_ONE_CPU       _PATH_SYS_CPU"/cpu0"
-
-#define _PATH_FREQUENCY     _PATH_ONE_CPU"/cpufreq"
-#define _PATH_FREQUENCY_MAX _PATH_FREQUENCY"/cpuinfo_max_freq"
-#define _PATH_FREQUENCY_MIN _PATH_FREQUENCY"/cpuinfo_min_freq"
-
-#define DEFAULT_FILE_SIZE 4096
-
-long get_freq_from_file(char* path) {
-  int fd = open(path, O_RDONLY);
-
-  if(fd == -1) {
-    perror("open");
-    printBug("Could not open '%s'", path);
-    return UNKNOWN;
-  }
-
-  //File exists, read it
-  int bytes_read = 0;
-  int offset = 0;
-  int block = 1;
-  char* buf = malloc(sizeof(char)*DEFAULT_FILE_SIZE);
-  memset(buf, 0, sizeof(char)*DEFAULT_FILE_SIZE);
-
-  while (  (bytes_read = read(fd, buf+offset, block)) > 0 ) {
-    offset += bytes_read;
-  }
-
-  char* end;
-  errno = 0;
-  long ret = strtol(buf, &end, 10);
-  if(errno != 0) {
-    perror("strtol");
-    printBug("Failed parsing '%s' file. Read data was: '%s'", path, buf);
-    free(buf);
-    return UNKNOWN;
-  }
-  
-  // We will be getting the frequency in KHz
-  // We consider it is an error if frequency is
-  // greater than 10 GHz or less than 100 MHz
-  if(ret > 10000 * 1000 || ret <  100 * 1000) {
-    printBug("Invalid data was read from file '%s': %ld\n", path, ret);
-    return UNKNOWN;
-  }
-  
-  free(buf);
-  if (close(fd) == -1) {
-    perror("close");
-    printErr("Closing '%s' failed\n", path);    
-  }
-  
-  return ret/1000;
-}
-
-long get_max_freq_from_file() {
-  return get_freq_from_file(_PATH_FREQUENCY_MAX);
-}
-
-long get_min_freq_from_file() {
-  return get_freq_from_file(_PATH_FREQUENCY_MIN);
-}

src/udev.h

@@ -1,7 +0,0 @@
-#ifndef __UDEV__
-#define __UDEV__
-
-long get_max_freq_from_file();
-long get_min_freq_from_file();
-
-#endif

src/x86/apic.c

@@ -0,0 +1,460 @@
+#ifdef _WIN32
+  #define NOMINMAX
+  #include <windows.h>
+#elif defined __linux__
+  #define _GNU_SOURCE
+  #include <sched.h>
+#elif defined __FreeBSD__
+  #include <sys/param.h>
+  #include <sys/cpuset.h>
+#elif defined __APPLE__
+  #define UNUSED(x) (void)(x)
+#endif
+
+#include <stdlib.h>
+#include <stdint.h>
+#include <string.h>
+#include <stdio.h>
+#include <unistd.h>
+#include <errno.h>
+
+#include "apic.h"
+#include "cpuid_asm.h"
+#include "../common/global.h"
+
+/*
+ * bit_scan_reverse and create_mask code taken from:
+ * https://software.intel.com/content/www/us/en/develop/articles/intel-64-architecture-processor-topology-enumeration.html
+ */
+unsigned char bit_scan_reverse(uint32_t* index, uint64_t mask) {
+  for(uint64_t i = (8 * sizeof(uint64_t)); i > 0; i--) {
+    if((mask & (1ULL << (i-1))) != 0) {
+      *index = (uint64_t) (i-1);
+      break;
+    }
+  }
+  return (unsigned char) (mask != 0);
+}
+
+uint32_t create_mask(uint32_t num_entries, uint32_t *mask_width) {
+  uint32_t i = 0;
+  uint64_t k = 0;
+
+  // NearestPo2(numEntries) is the nearest power of 2 integer that is not less than numEntries
+  // The most significant bit of (numEntries * 2 -1) matches the above definition
+
+  k = (uint64_t)(num_entries) * 2 -1;
+
+  if (bit_scan_reverse(&i, k) == 0) {
+    if (mask_width) *mask_width = 0;
+    return 0;
+  }
+
+  if (mask_width) *mask_width = i;
+  if (i == 31) return (uint32_t ) -1;
+
+  return (1 << i) -1;
+}
+
+uint32_t get_apic_id(bool x2apic_id) {
+  uint32_t eax = 0;
+  uint32_t ebx = 0;
+  uint32_t ecx = 0;
+  uint32_t edx = 0;
+
+  if(x2apic_id) {
+    eax = 0x0000000B;
+    cpuid(&eax, &ebx, &ecx, &edx);
+    return edx;
+  }
+  else {
+    eax = 0x00000001;
+    cpuid(&eax, &ebx, &ecx, &edx);
+    return (ebx >> 24);
+  }
+}
+
+#ifndef __APPLE__
+bool bind_to_cpu(int cpu_id) {
+  #ifdef _WIN32
+    HANDLE process = GetCurrentProcess();
+    DWORD_PTR processAffinityMask = 1 << cpu_id;
+    return SetProcessAffinityMask(process, processAffinityMask);
+  #elif defined __linux__
+    cpu_set_t currentCPU;
+    CPU_ZERO(&currentCPU);
+    CPU_SET(cpu_id, &currentCPU);
+    if (sched_setaffinity (0, sizeof(currentCPU), &currentCPU) == -1) {
+      printWarn("sched_setaffinity: %s", strerror(errno));
+      return false;
+    }
+    return true;
+  #elif defined __FreeBSD__
+    cpuset_t currentCPU;
+    CPU_ZERO(&currentCPU);
+    CPU_SET(cpu_id, &currentCPU);
+    if(cpuset_setaffinity(CPU_LEVEL_WHICH, CPU_WHICH_TID, -1, sizeof(cpuset_t), &currentCPU) == -1) {
+      printWarn("cpuset_setaffinity: %s", strerror(errno));
+      return false;
+    }
+    return true;
+  #endif
+}
+#endif
+
+bool fill_topo_masks_apic(struct topology* topo) {
+  uint32_t eax = 0x00000001;
+  uint32_t ebx = 0;
+  uint32_t ecx = 0;
+  uint32_t edx = 0;
+  uint32_t core_plus_smt_id_max_cnt;
+  uint32_t core_id_max_cnt;
+  uint32_t smt_id_per_core_max_cnt;
+
+  cpuid(&eax, &ebx, &ecx, &edx);
+
+  core_plus_smt_id_max_cnt = (ebx >> 16) & 0xFF;
+
+  eax = 0x00000004;
+  ecx = 0;
+  cpuid(&eax, &ebx, &ecx, &edx);
+
+  core_id_max_cnt = (eax >> 26) + 1;
+  smt_id_per_core_max_cnt = core_plus_smt_id_max_cnt / core_id_max_cnt;
+
+  topo->apic->smt_mask = create_mask(smt_id_per_core_max_cnt, &(topo->apic->smt_mask_width));
+  topo->apic->core_mask = create_mask(core_id_max_cnt,&(topo->apic->pkg_mask_shift));
+  topo->apic->pkg_mask_shift += topo->apic->smt_mask_width;
+  topo->apic->core_mask <<= topo->apic->smt_mask_width;
+  topo->apic->pkg_mask = (-1) ^ (topo->apic->core_mask | topo->apic->smt_mask);
+
+  return true;
+}
+
+bool fill_topo_masks_x2apic(struct topology* topo) {
+  int32_t level_type;
+  int32_t level_shift;
+
+  int32_t coreplus_smt_mask = 0;
+  bool level2 = false;
+  bool level1 = false;
+
+  uint32_t eax = 0;
+  uint32_t ebx = 0;
+  uint32_t ecx = 0;
+  uint32_t edx = 0;
+  uint32_t i = 0;
+
+  while(true) {
+    eax = 0x0000000B;
+    ecx = i;
+    cpuid(&eax, &ebx, &ecx, &edx);
+    if(ebx == 0) break;
+
+    level_type = (ecx >> 8) & 0xFF;
+    level_shift = eax & 0xFFF;
+
+    switch(level_type) {
+      case 1: // SMT
+        topo->apic->smt_mask = ~(0xFFFFFFFF << level_shift);
+        topo->apic->smt_mask_width = level_shift;
+        topo->smt_supported = ebx & 0xFFFF;
+        level1 = true;
+        break;
+      case 2: // Core
+        coreplus_smt_mask = ~(0xFFFFFFFF << level_shift);
+        topo->apic->pkg_mask_shift =  level_shift;
+        topo->apic->pkg_mask = (-1) ^ coreplus_smt_mask;
+        level2 = true;
+        break;
+      default:
+        printErr("Found invalid level when querying topology: %d", level_type);
+        break;
+    }
+
+    i++; // sublevel to query
+  }
+
+  if (level1 && level2) {
+    topo->apic->core_mask = coreplus_smt_mask ^ topo->apic->smt_mask;
+  }
+  else if (!level2 && level1) {
+    topo->apic->core_mask = 0;
+    topo->apic->pkg_mask_shift = topo->apic->smt_mask_width;
+    topo->apic->pkg_mask =  (-1) ^ topo->apic->smt_mask;
+  }
+  else {
+    printErr("SMT level was not found when querying topology");
+    return false;
+  }
+
+  return true;
+}
+
+// Not a very elegant solution. The width should always be as long
+// as the number of cores, but in the case of Xeon Phi KNL it is not
+uint32_t max_apic_id_size(uint32_t** cache_id_apic, struct topology* topo) {
+  uint32_t max = 0;
+
+  for(int i=0; i < topo->cach->max_cache_level; i++) {
+    for(int j=0; j < topo->total_cores; j++) {
+      if(cache_id_apic[j][i] > max) max = cache_id_apic[j][i];
+    }
+  }
+
+  max++;
+  if(max > (uint32_t) topo->total_cores) return max;
+  return topo->total_cores;
+}
+
+bool build_topo_from_apic(uint32_t* apic_pkg, uint32_t* apic_smt, uint32_t** cache_id_apic, struct topology* topo) {
+  uint32_t size = max_apic_id_size(cache_id_apic, topo);
+  uint32_t* sockets = emalloc(sizeof(uint32_t) * size);
+  uint32_t* smt = emalloc(sizeof(uint32_t) * size);
+  uint32_t* apic_id = emalloc(sizeof(uint32_t) * size);
+  uint32_t num_caches = 0;
+
+  memset(sockets, 0, sizeof(uint32_t) * size);
+  memset(smt, 0, sizeof(uint32_t) * size);  
+  memset(apic_id, 0, sizeof(uint32_t) * size);
+
+  // System topology
+  for(int i=0; i < topo->total_cores; i++) {
+    sockets[apic_pkg[i]] = 1;
+    smt[apic_smt[i]] = 1;
+  }
+  for(int i=0; i < topo->total_cores; i++) {
+    if(sockets[i] != 0)
+      topo->sockets++;
+    if(smt[i] != 0)
+      topo->smt_available++;
+  }
+
+  topo->logical_cores = topo->total_cores / topo->sockets;
+  topo->physical_cores = topo->logical_cores / topo->smt_available;
+
+  // Cache topology
+  for(int i=0; i < topo->cach->max_cache_level; i++) {
+    num_caches = 0;
+    memset(apic_id, 0, sizeof(uint32_t) * size);
+
+    for(int c=0; c < topo->total_cores; c++) {
+      apic_id[cache_id_apic[c][i]]++;
+    }
+    for(uint32_t c=0; c < size; c++) {
+      if(apic_id[c] > 0) num_caches++;
+    }
+
+    topo->cach->cach_arr[i]->num_caches = num_caches;
+  }
+
+  free(sockets);
+  free(smt);
+  free(apic_id);
+
+  return true;
+}
+
+void get_cache_topology_from_apic(struct topology* topo) {
+  uint32_t eax = 0x00000004;
+  uint32_t ebx = 0;
+  uint32_t ecx = 0;
+  uint32_t edx = 0;
+
+  for(int i=0; i < topo->cach->max_cache_level; i++) {
+    eax = 0x00000004;
+    ecx = i;
+
+    cpuid(&eax, &ebx, &ecx, &edx);
+
+    uint32_t SMTMaxCntPerEachCache = ((eax >> 14) & 0x7FF) + 1;
+    uint32_t dummy;
+    topo->apic->cache_select_mask[i] = create_mask(SMTMaxCntPerEachCache,&dummy);
+  }
+}
+
+bool apic_array_full(uint32_t* apic_ids, int n) {
+  for(int i=0; i < n; i++) {
+    if(apic_ids[i] == (uint32_t) -1) return false;
+  }
+  return true;
+}
+
+void add_apic_to_array(uint32_t apic, uint32_t* apic_ids, int n) {
+  int i=0;
+  int last=0;
+  bool found = false;
+
+  while(!found && i < n) {
+    if(apic_ids[i] == apic) found = true;
+    if(apic_ids[i] != (uint32_t) -1) last = i+1;
+    i++;
+  }
+
+  if(!found) {
+    apic_ids[last] = apic;
+    //printf("Added %d\n", apic);
+  }
+}
+
+bool fill_apic_ids(uint32_t* apic_ids, int n, bool x2apic_id) {
+#ifdef __APPLE__
+  // macOS extremely dirty approach...
+  printf("cpufetch is computing APIC IDs, please wait...\n");
+  bool end = false;
+  uint32_t apic;
+  for(int i=0; i < n; i++) apic_ids[i] = (uint32_t) -1;
+
+  while(!end) {
+    apic = get_apic_id(x2apic_id);
+
+    add_apic_to_array(apic, apic_ids, n);
+    end = apic_array_full(apic_ids, n);
+    usleep(1000);
+  }
+#else
+  #ifdef __linux__
+  // In Linux we reset the affinity; first we get the original mask
+  cpu_set_t original_mask;
+  if(sched_getaffinity(0, sizeof(original_mask), &original_mask) == -1) {
+    printWarn("sched_getaffinity: %s", strerror(errno));
+    return false;
+  }
+  #endif
+
+  for(int i=0; i < n; i++) {
+    if(!bind_to_cpu(i)) {
+      printErr("Failed binding the process to CPU %d", i);
+      return false;
+    }
+    apic_ids[i] = get_apic_id(x2apic_id);
+  }
+
+  #ifdef __linux__
+  // With the original mask previosly retrieved, we reset the affinity
+  if (sched_setaffinity (0, sizeof(original_mask), &original_mask) == -1) {
+    printWarn("sched_setaffinity: %s", strerror(errno));
+    return false;
+  }
+  #endif
+#endif
+
+  return true;
+}
+
+bool get_topology_from_apic(struct cpuInfo* cpu, struct topology* topo) {
+  uint32_t apic_id;
+  uint32_t* apic_ids = emalloc(sizeof(uint32_t) * topo->total_cores);
+  uint32_t* apic_pkg = emalloc(sizeof(uint32_t) * topo->total_cores);
+  uint32_t* apic_core = emalloc(sizeof(uint32_t) * topo->total_cores);
+  uint32_t* apic_smt = emalloc(sizeof(uint32_t) * topo->total_cores);
+  uint32_t** cache_smt_id_apic = emalloc(sizeof(uint32_t*) * topo->total_cores);
+  uint32_t** cache_id_apic = emalloc(sizeof(uint32_t*) * topo->total_cores);
+  bool x2apic_id;
+
+  if(cpu->maxLevels >= 0x0000000B) {
+    uint32_t eax = 0x0000000B;
+    uint32_t ebx = 0;
+    uint32_t ecx = 0;
+    uint32_t edx = 0;
+
+    cpuid(&eax, &ebx, &ecx, &edx);
+
+    if(ebx == 0) x2apic_id = false;
+    else x2apic_id = true;
+  }
+  else {
+    x2apic_id = false;
+  }
+
+  for(int i=0; i < topo->total_cores; i++) {
+    cache_smt_id_apic[i] = emalloc(sizeof(uint32_t) * (topo->cach->max_cache_level));
+    cache_id_apic[i] = emalloc(sizeof(uint32_t) * (topo->cach->max_cache_level));
+  }
+  topo->apic->cache_select_mask = emalloc(sizeof(uint32_t) * (topo->cach->max_cache_level));
+  topo->apic->cache_id_apic = emalloc(sizeof(uint32_t) * (topo->cach->max_cache_level));
+
+  if(x2apic_id) {
+    if(!fill_topo_masks_x2apic(topo))
+      return false;
+  }
+  else {
+    if(!fill_topo_masks_apic(topo))
+      return false;
+  }
+
+  get_cache_topology_from_apic(topo);
+
+  if(!fill_apic_ids(apic_ids, topo->total_cores, x2apic_id))
+    return false;
+
+  for(int i=0; i < topo->total_cores; i++) {
+    apic_id = apic_ids[i];
+
+    apic_pkg[i] = (apic_id & topo->apic->pkg_mask) >> topo->apic->pkg_mask_shift;
+    apic_core[i] = (apic_id & topo->apic->core_mask) >> topo->apic->smt_mask_width;
+    apic_smt[i] = apic_id & topo->apic->smt_mask;
+
+    for(int c=0; c < topo->cach->max_cache_level; c++) {
+      cache_smt_id_apic[i][c] = apic_id & topo->apic->cache_select_mask[c];
+      cache_id_apic[i][c] = apic_id & (-1 ^ topo->apic->cache_select_mask[c]);
+    }
+  }
+
+  /* DEBUG
+  for(int i=0; i < topo->cach->max_cache_level; i++) {
+    printf("[CACH %1d]", i);
+    for(int j=0; j < topo->total_cores; j++)
+      printf("[%03d]", cache_id_apic[j][i]);
+    printf("\n");
+  }
+  for(int i=0; i < topo->total_cores; i++)
+    printf("[%2d] 0x%.8X\n", i, apic_pkg[i]);
+  printf("\n");
+  for(int i=0; i < topo->total_cores; i++)
+    printf("[%2d] 0x%.8X\n", i, apic_core[i]);
+  printf("\n");
+  for(int i=0; i < topo->total_cores; i++)
+    printf("[%2d] 0x%.8X\n", i, apic_smt[i]);*/
+
+
+  bool ret = build_topo_from_apic(apic_pkg, apic_smt, cache_id_apic, topo);
+
+  // Assumption: If we cant get smt_available, we assume it is equal to smt_supported...
+  if (!x2apic_id) {
+    printWarn("Can't read SMT from cpuid (needed level is 0x%.8X, max is 0x%.8X)", 0x0000000B, cpu->maxLevels);
+    topo->smt_supported = topo->smt_available;
+  }
+
+  free(apic_pkg);
+  free(apic_core);
+  free(apic_smt);
+  for(int i=0; i < topo->total_cores; i++) {
+    free(cache_smt_id_apic[i]);
+    free(cache_id_apic[i]);
+  }
+  free(cache_smt_id_apic);
+  free(cache_id_apic);
+
+  return ret;
+}
+
+uint32_t is_smt_enabled_amd(struct topology* topo) {
+#ifdef __APPLE__
+  UNUSED(topo);
+  return 1;
+#else
+  uint32_t id;
+
+  for(int i = 0; i < topo->total_cores; i++) {
+    if(!bind_to_cpu(i)) {
+      printErr("Failed binding to CPU %d", i);
+      return false;
+    }
+    id = get_apic_id(false) & 1; // get the last bit
+    if(id == 1) return 2; // We assume there isn't any AMD CPU with more than 2th per core.
+  }
+
+  return 1;
+#endif
+}

src/x86/apic.h

@@ -0,0 +1,24 @@
+#ifndef __APIC__
+#define __APIC__
+
+#include <stdbool.h>
+#include "cpuid.h"
+
+struct apic {
+  uint32_t pkg_mask;
+  uint32_t pkg_mask_shift;
+  uint32_t core_mask;
+  uint32_t smt_mask_width;
+  uint32_t smt_mask;
+  uint32_t* cache_select_mask;
+  uint32_t* cache_id_apic;
+};
+
+bool get_topology_from_apic(struct cpuInfo* cpu, struct topology* topo);
+uint32_t is_smt_enabled_amd(struct topology* topo);
+
+#ifndef __APPLE__
+bool bind_to_cpu(int cpu_id);
+#endif
+
+#endif

src/x86/cpuid.h

@@ -0,0 +1,22 @@
+#ifndef __CPUID__
+#define __CPUID__
+
+#include "../common/cpu.h"
+
+struct cpuInfo* get_cpu_info();
+struct cache* get_cache_info(struct cpuInfo* cpu);
+struct frequency* get_frequency_info(struct cpuInfo* cpu);
+struct topology* get_topology_info(struct cpuInfo* cpu, struct cache* cach);
+
+char* get_str_avx(struct cpuInfo* cpu);
+char* get_str_sse(struct cpuInfo* cpu);
+char* get_str_fma(struct cpuInfo* cpu);
+char* get_str_topology(struct cpuInfo* cpu, struct topology* topo, bool dual_socket);
+char* get_str_cpu_name_abbreviated(struct cpuInfo* cpu);
+
+void print_debug(struct cpuInfo* cpu);
+void print_raw(struct cpuInfo* cpu);
+
+void free_topo_struct(struct topology* topo);
+
+#endif

src/x86/cpuid_asm.c

@@ -1,4 +1,4 @@
-#include "cpuid.h"
+#include "cpuid_asm.h"
 
 void cpuid(uint32_t *eax, uint32_t *ebx, uint32_t *ecx, uint32_t *edx) {
         __asm volatile("cpuid"

src/x86/cpuid_asm.h

@@ -1,5 +1,5 @@
-#ifndef __CPUID__
-#define __CPUID__
+#ifndef __CPUID_ASM__
+#define __CPUID_ASM__
 
 #include <stdint.h>
 

src/x86/freq/freq.c

@@ -0,0 +1,146 @@
+#define  _GNU_SOURCE
+#include <stdio.h>
+
+#include "../../common/global.h"
+#include "../uarch.h"
+#include "freq.h"
+#include "freq_nov.h"
+#include "freq_avx.h"
+#include "freq_avx512.h"
+
+#include <immintrin.h>
+#include <stdlib.h>
+#include <stdbool.h>
+#include <sys/time.h>
+#include <time.h>
+#include <errno.h>
+#include <string.h>
+#include <pthread.h>
+
+#define MAX_NUMBER_THREADS         512
+#define FREQ_VECTOR_SIZE         1<<16
+
+struct freq_thread {
+  bool end;
+  bool measure;
+  double freq;
+};
+
+double vector_average_harmonic(double* v, int len) {
+  double acc = 0.0;
+  for(int i=0; i < len; i++) {
+    acc += 1 / v[i];
+  }
+  return len / acc;
+}
+
+void sleep_ms(int64_t ms) {
+  struct timespec ts;
+  ts.tv_sec = ms / 1000;
+  ts.tv_nsec = (ms % 1000) * 1000000;
+  nanosleep(&ts, &ts);
+}
+
+void* measure_freq(void *freq_ptr) {
+  struct freq_thread* freq = (struct freq_thread*) freq_ptr;
+
+  char* end = NULL;
+  char* line = NULL;
+  size_t len = 0;
+  ssize_t read;
+
+  int v = 0;
+  double* freq_vector = malloc(sizeof(double) * FREQ_VECTOR_SIZE);
+
+  while(!freq->end) {
+    if(!freq->measure) continue;
+
+    FILE* fp = fopen("/proc/cpuinfo", "r");
+    if(fp == NULL) return NULL;
+    while ((read = getline(&line, &len, fp)) != -1) {
+      if((line = strstr(line, "cpu MHz")) != NULL) {
+        line = strstr(line, "\t: ");
+        if(line == NULL) return NULL;
+        line += sizeof("\t: ") - 1;
+        double f = strtold(line, &end);
+        if(errno != 0) {
+          printf("strtol: %s", strerror(errno));
+          return NULL;
+        }
+
+        freq_vector[v] = f;
+        v++;
+      }
+    }
+    fclose(fp);
+    sleep_ms(500);
+  }
+
+  freq->freq = vector_average_harmonic(freq_vector, v);
+  printWarn("AVX2 measured freq=%f\n", freq->freq);
+
+  return NULL;
+}
+
+int64_t measure_frequency(struct cpuInfo* cpu) {
+  int ret;
+  int num_spaces;
+  struct freq_thread* freq_struct = malloc(sizeof(struct freq_thread));
+  freq_struct->end = false;
+  freq_struct->measure = false;
+
+  void* (*compute_function)(void*);
+
+  if(cpu->feat->AVX512 && vpus_are_AVX512(cpu)) {
+    printf("cpufetch is measuring the AVX512 frequency...");
+    compute_function = compute_avx512;
+    num_spaces = 45;
+  }
+  else if(cpu->feat->AVX || cpu->feat->AVX2) {
+    printf("cpufetch is measuring the AVX frequency...");
+    compute_function = compute_avx;
+    num_spaces = 42;
+  }
+  else {
+    printf("cpufetch is measuring the frequency (no vector instructions)...");
+    compute_function = compute_nov;
+    num_spaces = 63;
+  }
+
+  fflush(stdout);
+
+  pthread_t freq_t;
+  if(pthread_create(&freq_t, NULL, measure_freq, freq_struct)) {
+    fprintf(stderr, "Error creating thread\n");
+    return -1;
+  }
+
+  pthread_t* compute_th = malloc(sizeof(pthread_t) * cpu->topo->total_cores);
+  for(int i=0; i < cpu->topo->total_cores; i++) {
+    ret = pthread_create(&compute_th[i], NULL, compute_function, NULL);
+
+    if(ret != 0) {
+      fprintf(stderr, "Error creating thread\n");
+      return -1;
+    }
+  }
+
+  sleep_ms(500);
+  freq_struct->measure = true;
+
+  for(int i=0; i < cpu->topo->total_cores; i++) {
+    if(pthread_join(compute_th[i], NULL)) {
+      fprintf(stderr, "Error joining thread\n");
+      return -1;
+    }
+    freq_struct->end = true;
+  }
+
+  if(pthread_join(freq_t, NULL)) {
+    fprintf(stderr, "Error joining thread\n");
+    return -1;
+  }
+
+  printf("\r%*c", num_spaces, ' ');
+  return freq_struct->freq;
+}

src/x86/freq/freq.h

@@ -0,0 +1,12 @@
+#ifndef __FREQ__
+#define __FREQ__
+
+#include <stdint.h>
+#include "../../common/cpu.h"
+
+#define MEASURE_TIME_SECONDS         5
+#define LOOP_ITERS           100000000
+
+int64_t measure_frequency(struct cpuInfo* cpu);
+
+#endif

src/x86/freq/freq_avx.c

@@ -0,0 +1,56 @@
+#include <stdio.h>
+#include <immintrin.h>
+#include <stdlib.h>
+#include <stdbool.h>
+#include <sys/time.h>
+#include <time.h>
+#include <errno.h>
+#include <string.h>
+#include <pthread.h>
+#include <stdint.h>
+#include "freq.h"
+
+void* compute_avx() {
+  bool end = false;
+
+  struct timeval begin, now;
+
+  __m256 a[8];
+  __m256 b[8];
+
+  for(int i=0; i < 8; i++) {
+    a[i] = _mm256_set1_ps(1.5);
+    b[i] = _mm256_set1_ps(1.2);
+  }
+
+  gettimeofday(&begin, NULL);
+  while(!end) {
+    for(uint64_t i=0; i < LOOP_ITERS; i++) {
+      a[0] = _mm256_add_ps(a[0], b[0]);
+      a[1] = _mm256_add_ps(a[1], b[1]);
+      a[2] = _mm256_add_ps(a[2], b[2]);
+      a[3] = _mm256_add_ps(a[3], b[3]);
+      a[4] = _mm256_add_ps(a[4], b[4]);
+      a[5] = _mm256_add_ps(a[5], b[5]);
+      a[6] = _mm256_add_ps(a[6], b[6]);
+      a[7] = _mm256_add_ps(a[7], b[7]);
+    }
+
+    gettimeofday(&now, NULL);
+    double elapsed = (now.tv_sec - begin.tv_sec) + ((now.tv_usec - begin.tv_usec)/1000000.0);
+    end = elapsed >= (double) MEASURE_TIME_SECONDS;
+  }
+
+  FILE* fp = fopen("/dev/null", "w");
+  if(fp == NULL) {
+    printf("fopen: %s", strerror(errno));
+  }
+  else {
+    for(int i=0; i < 8; i++)
+      fprintf(fp, "%f", a[i][0]);
+    fclose(fp);
+  }
+
+  return NULL;
+}
+

src/x86/freq/freq_avx.h

@@ -0,0 +1,6 @@
+#ifndef __FREQ_AVX__
+#define __FREQ_AVX__
+
+void* compute_avx();
+
+#endif

src/x86/freq/freq_avx512.c

@@ -0,0 +1,56 @@
+#include <stdio.h>
+#include <immintrin.h>
+#include <stdlib.h>
+#include <stdbool.h>
+#include <sys/time.h>
+#include <time.h>
+#include <errno.h>
+#include <string.h>
+#include <pthread.h>
+#include <stdint.h>
+#include "freq.h"
+
+void* compute_avx512() {
+  bool end = false;
+
+  struct timeval begin, now;
+
+  __m512 a[8];
+  __m512 b[8];
+
+  for(int i=0; i < 8; i++) {
+    a[i] = _mm512_set1_ps(1.5);
+    b[i] = _mm512_set1_ps(1.2);
+  }
+
+  gettimeofday(&begin, NULL);
+  while(!end) {
+    for(uint64_t i=0; i < LOOP_ITERS; i++) {
+      a[0] = _mm512_add_ps(a[0], b[0]);
+      a[1] = _mm512_add_ps(a[1], b[1]);
+      a[2] = _mm512_add_ps(a[2], b[2]);
+      a[3] = _mm512_add_ps(a[3], b[3]);
+      a[4] = _mm512_add_ps(a[4], b[4]);
+      a[5] = _mm512_add_ps(a[5], b[5]);
+      a[6] = _mm512_add_ps(a[6], b[6]);
+      a[7] = _mm512_add_ps(a[7], b[7]);
+    }
+
+    gettimeofday(&now, NULL);
+    double elapsed = (now.tv_sec - begin.tv_sec) + ((now.tv_usec - begin.tv_usec)/1000000.0);
+    end = elapsed >= (double) MEASURE_TIME_SECONDS;
+  }
+
+  FILE* fp = fopen("/dev/null", "w");
+  if(fp == NULL) {
+    printf("fopen: %s", strerror(errno));
+  }
+  else {
+    for(int i=0; i < 8; i++)
+      fprintf(fp, "%f", a[i][0]);
+    fclose(fp);
+  }
+
+  return NULL;
+}
+

src/x86/freq/freq_avx512.h

@@ -0,0 +1,6 @@
+#ifndef __FREQ_AVX512__
+#define __FREQ_AVX512__
+
+void* compute_avx512();
+
+#endif

src/x86/freq/freq_nov.c

@@ -0,0 +1,44 @@
+#include <stdio.h>
+#include <immintrin.h>
+#include <stdlib.h>
+#include <stdbool.h>
+#include <sys/time.h>
+#include <time.h>
+#include <errno.h>
+#include <string.h>
+#include <pthread.h>
+#include <stdint.h>
+#include "freq.h"
+
+void* compute_nov() {
+  bool end = false;
+
+  struct timeval begin, now;
+
+  float a = 1.5;
+  float b = 1.2;
+  float c = 0.0;
+
+  gettimeofday(&begin, NULL);
+  while(!end) {
+    for(uint64_t i=0; i < LOOP_ITERS; i++) {
+      c = a * b;
+    }
+
+    gettimeofday(&now, NULL);
+    double elapsed = (now.tv_sec - begin.tv_sec) + ((now.tv_usec - begin.tv_usec)/1000000.0);
+    end = elapsed >= (double) MEASURE_TIME_SECONDS;
+  }
+
+  FILE* fp = fopen("/dev/null", "w");
+  if(fp == NULL) {
+    printf("fopen: %s", strerror(errno));
+  }
+  else {
+    fprintf(fp, "%f", c);
+    fclose(fp);
+  }
+
+  return NULL;
+}
+

src/x86/freq/freq_nov.h

@@ -0,0 +1,6 @@
+#ifndef __FREQ_NO_VECTOR__
+#define __FREQ_NO_VECTOR__
+
+void* compute_nov();
+
+#endif

src/x86/uarch.c

@@ -0,0 +1,468 @@
+#include <stdbool.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "uarch.h"
+#include "../common/global.h"
+
+/*
+ * - cpuid codes are based on Todd Allen's cpuid program
+ *   http://www.etallen.com/cpuid.html
+ * - This should be updated from time to time, to support newer CPUs. A good reference to look at:
+ *   https://en.wikichip.org/
+ *   http://instlatx64.atw.hu/
+ */
+
+// From Todd Allen:
+//
+// MSR_CPUID_table* is a table that appears in Intel document 325462, "Intel 64
+// and IA-32 Architectures Software Developer's Manual Combined Volumes: 1, 2A,
+// 2B, 2C, 2D, 3A, 3B, 3C, 3D, and 4" (the name changes from version to version
+// as more volumes are added).  The table moves around from version to version,
+// but in version 071US, was in "Volume 4: Model-Specific Registers", Table 2-1:
+// "CPUID Signature Values of DisplayFamily_DisplayModel".
+
+// MRG* is a table that forms the bulk of Intel Microcode Revision Guidance (or
+// Microcode Update Guidance).  Its purpose is not to list CPUID values, but
+// it does so, and sometimes lists values that appear nowhere else.
+
+// LX* indicates features that I have seen no documentation for, but which are
+// used by the Linux kernel (which is good evidence that they're correct).
+// The "hook" to find these generally is an X86_FEATURE_* flag in:
+//    arch/x86/include/asm/cpufeatures.h
+// For (synth) and (uarch synth) decoding, it often indicates
+// family/model/stepping value which are documented nowhere else.  These usually
+// can be found in:
+//    arch/x86/include/asm/intel-family.h
+
+typedef uint32_t MICROARCH;
+
+// Data not available
+#define NA                   -1
+
+// Unknown manufacturing process
+#define UNK                  -1
+
+enum {
+  UARCH_UNKNOWN,
+  // INTEL //
+  UARCH_P5,
+  UARCH_P6,
+  UARCH_DOTHAN,
+  UARCH_YONAH,
+  UARCH_MEROM,
+  UARCH_PENYR,
+  UARCH_NEHALEM,
+  UARCH_WESTMERE,
+  UARCH_BONNELL,
+  UARCH_SALTWELL,
+  UARCH_SANDY_BRIDGE,
+  UARCH_SILVERMONT,
+  UARCH_IVY_BRIDGE,
+  UARCH_HASWELL,
+  UARCH_BROADWELL,
+  UARCH_AIRMONT,
+  UARCH_KABY_LAKE,
+  UARCH_COMET_LAKE,
+  UARCH_ROCKET_LAKE,
+  UARCH_AMBER_LAKE,
+  UARCH_WHISKEY_LAKE,
+  UARCH_SKYLAKE,
+  UARCH_CASCADE_LAKE,
+  UARCH_COOPER_LAKE,
+  UARCH_KNIGHTS_LANDING,
+  UARCH_KNIGHTS_MILL,
+  UARCH_GOLDMONT,
+  UARCH_PALM_COVE,
+  UARCH_SUNNY_COVE,
+  UARCH_GOLDMONT_PLUS,
+  UARCH_TREMONT,
+  UARCH_LAKEMONT,
+  UARCH_COFFE_LAKE,
+  UARCH_ITANIUM,
+  UARCH_KNIGHTS_FERRY,
+  UARCH_KNIGHTS_CORNER,
+  UARCH_WILLAMETTE,
+  UARCH_NORTHWOOD,
+  UARCH_PRESCOTT,
+  UARCH_CEDAR_MILL,
+  UARCH_ITANIUM2,
+  UARCH_ICE_LAKE,
+  UARCH_TIGER_LAKE,
+  UARCH_ALDER_LAKE,
+  // AMD //
+  UARCH_AM486,
+  UARCH_AM5X86,
+  UARCH_K6,
+  UARCH_K7,
+  UARCH_K8,
+  UARCH_K10,
+  UARCH_PUMA_2008,
+  UARCH_BOBCAT,
+  UARCH_BULLDOZER,
+  UARCH_PILEDRIVER,
+  UARCH_STEAMROLLER,
+  UARCH_EXCAVATOR,
+  UARCH_JAGUAR,
+  UARCH_PUMA_2014,
+  UARCH_ZEN,
+  UARCH_ZEN_PLUS,
+  UARCH_ZEN2,
+  UARCH_ZEN3
+};
+
+struct uarch {
+  MICROARCH uarch;
+  char* uarch_str;
+  int32_t process; // measured in nanometers
+};
+
+#define UARCH_START if (false) {}
+#define CHECK_UARCH(arch, ef_, f_, em_, m_, s_, str, uarch, process) \
+   else if (ef_ == ef && f_ == f && (em_ == NA || em_ == em) && (m_ == NA || m_ == m) && (s_ == NA || s_ == s)) fill_uarch(arch, str, uarch, process);
+#define UARCH_END else { printBug("Unknown microarchitecture detected: M=0x%.8X EM=0x%.8X F=0x%.8X EF=0x%.8X S=0x%.8X", m, em, f, ef, s); fill_uarch(arch, STRING_UNKNOWN, UARCH_UNKNOWN, 0); }
+
+void fill_uarch(struct uarch* arch, char* str, MICROARCH u, uint32_t process) {
+  arch->uarch_str = emalloc(sizeof(char) * (strlen(str)+1));
+  strcpy(arch->uarch_str, str);
+  arch->uarch = u;
+  arch->process= process;
+}
+
+// Inspired in Todd Allen's decode_uarch_intel
+struct uarch* get_uarch_from_cpuid_intel(uint32_t ef, uint32_t f, uint32_t em, uint32_t m, int s) {
+  struct uarch* arch = emalloc(sizeof(struct uarch));
+
+  // EF: Extended Family                                                           //
+  // F:  Family                                                                    //
+  // EM: Extended Model                                                            //
+  // M: Model                                                                      //
+  // S: Stepping                                                                   //
+  // ----------------------------------------------------------------------------- //
+  //                EF  F  EM   M   S                                              //
+  UARCH_START
+  CHECK_UARCH(arch, 0,  5,  0,  0, NA, "P5",              UARCH_P5,              800)
+  CHECK_UARCH(arch, 0,  5,  0,  1, NA, "P5",              UARCH_P5,              800)
+  CHECK_UARCH(arch, 0,  5,  0,  2, NA, "P5",              UARCH_P5,              UNK)
+  CHECK_UARCH(arch, 0,  5,  0,  3, NA, "P5",              UARCH_P5,              600)
+  CHECK_UARCH(arch, 0,  5,  0,  4, NA, "P5 MMX",          UARCH_P5,              UNK)
+  CHECK_UARCH(arch, 0,  5,  0,  7, NA, "P5 MMX",          UARCH_P5,              UNK)
+  CHECK_UARCH(arch, 0,  5,  0,  8, NA, "P5 MMX",          UARCH_P5,              250)
+  CHECK_UARCH(arch, 0,  5,  0,  9,  0, "Lakemont",        UARCH_LAKEMONT,         32)
+  CHECK_UARCH(arch, 0,  5,  0,  9, NA, "P5 MMX",          UARCH_P5,              UNK)
+  CHECK_UARCH(arch, 0,  5,  0, 10,  0, "Lakemont",        UARCH_LAKEMONT,         32)
+  CHECK_UARCH(arch, 0,  6,  0,  0, NA, "P6 Pentium II",   UARCH_P6,              UNK)
+  CHECK_UARCH(arch, 0,  6,  0,  1, NA, "P6 Pentium II",   UARCH_P6,              UNK) // process depends on core
+  CHECK_UARCH(arch, 0,  6,  0,  2, NA, "P6 Pentium II",   UARCH_P6,              UNK)
+  CHECK_UARCH(arch, 0,  6,  0,  3, NA, "P6 Pentium II",   UARCH_P6,              350)
+  CHECK_UARCH(arch, 0,  6,  0,  4, NA, "P6 Pentium II",   UARCH_P6,              UNK)
+  CHECK_UARCH(arch, 0,  6,  0,  5, NA, "P6 Pentium II",   UARCH_P6,              250)
+  CHECK_UARCH(arch, 0,  6,  0,  6, NA, "P6 Pentium II",   UARCH_P6,              UNK)
+  CHECK_UARCH(arch, 0,  6,  0,  7, NA, "P6 Pentium III",  UARCH_P6,              250)
+  CHECK_UARCH(arch, 0,  6,  0,  8, NA, "P6 Pentium III",  UARCH_P6,              180)
+  CHECK_UARCH(arch, 0,  6,  0,  9, NA, "P6 Pentium M",    UARCH_P6,              130)
+  CHECK_UARCH(arch, 0,  6,  0, 10, NA, "P6 Pentium III",  UARCH_P6,              180)
+  CHECK_UARCH(arch, 0,  6,  0, 11, NA, "P6 Pentium III",  UARCH_P6,              130)
+  CHECK_UARCH(arch, 0,  6,  0, 13, NA, "Dothan",          UARCH_DOTHAN,          UNK)  // process depends on core
+  CHECK_UARCH(arch, 0,  6,  0, 14, NA, "Yonah",           UARCH_YONAH,            65)
+  CHECK_UARCH(arch, 0,  6,  0, 15, NA, "Merom",           UARCH_MEROM,            65)
+  CHECK_UARCH(arch, 0,  6,  1,  5, NA, "Dothan",          UARCH_DOTHAN,           90)
+  CHECK_UARCH(arch, 0,  6,  1,  6, NA, "Merom",           UARCH_MEROM,            65)
+  CHECK_UARCH(arch, 0,  6,  1,  7, NA, "Penryn",          UARCH_PENYR,            45)
+  CHECK_UARCH(arch, 0,  6,  1, 10, NA, "Nehalem",         UARCH_NEHALEM,          45)
+  CHECK_UARCH(arch, 0,  6,  1, 12, NA, "Bonnell",         UARCH_BONNELL,          45)
+  CHECK_UARCH(arch, 0,  6,  1, 13, NA, "Penryn",          UARCH_PENYR,            45)
+  CHECK_UARCH(arch, 0,  6,  1, 14, NA, "Nehalem",         UARCH_NEHALEM,          45)
+  CHECK_UARCH(arch, 0,  6,  1, 15, NA, "Nehalem",         UARCH_NEHALEM,          45)
+  CHECK_UARCH(arch, 0,  6,  2,  5, NA, "Westmere",        UARCH_WESTMERE,         32)
+  CHECK_UARCH(arch, 0,  6,  2 , 6, NA, "Bonnell",         UARCH_BONNELL,          45)
+  CHECK_UARCH(arch, 0,  6,  2,  7, NA, "Saltwell",        UARCH_SALTWELL,         32)
+  CHECK_UARCH(arch, 0,  6,  2, 10, NA, "Sandy Bridge",    UARCH_SANDY_BRIDGE,     32)
+  CHECK_UARCH(arch, 0,  6,  2, 12, NA, "Westmere",        UARCH_WESTMERE,         32)
+  CHECK_UARCH(arch, 0,  6,  2, 13, NA, "Sandy Bridge",    UARCH_SANDY_BRIDGE,     32)
+  CHECK_UARCH(arch, 0,  6,  2, 14, NA, "Nehalem",         UARCH_NEHALEM,          45)
+  CHECK_UARCH(arch, 0,  6,  2, 15, NA, "Westmere",        UARCH_WESTMERE,         32)
+  CHECK_UARCH(arch, 0,  6,  3,  5, NA, "Saltwell",        UARCH_SALTWELL,         14)
+  CHECK_UARCH(arch, 0,  6,  3,  6, NA, "Saltwell",        UARCH_SALTWELL,         32)
+  CHECK_UARCH(arch, 0,  6,  3,  7, NA, "Silvermont",      UARCH_SILVERMONT,       22)
+  CHECK_UARCH(arch, 0,  6,  3, 10, NA, "Ivy Bridge",      UARCH_IVY_BRIDGE,       22)
+  CHECK_UARCH(arch, 0,  6,  3, 12, NA, "Haswell",         UARCH_HASWELL,          22)
+  CHECK_UARCH(arch, 0,  6,  3, 13, NA, "Broadwell",       UARCH_BROADWELL,        14)
+  CHECK_UARCH(arch, 0,  6,  3, 14, NA, "Ivy Bridge",      UARCH_IVY_BRIDGE,       22)
+  CHECK_UARCH(arch, 0,  6,  3, 15, NA, "Haswell",         UARCH_HASWELL,          22)
+  CHECK_UARCH(arch, 0,  6,  4,  5, NA, "Haswell",         UARCH_HASWELL,          22)
+  CHECK_UARCH(arch, 0,  6,  4,  6, NA, "Haswell",         UARCH_HASWELL,          22)
+  CHECK_UARCH(arch, 0,  6,  4,  7, NA, "Broadwell",       UARCH_BROADWELL,        14)
+  CHECK_UARCH(arch, 0,  6,  4, 10, NA, "Silvermont",      UARCH_SILVERMONT,       22) // no docs, but /proc/cpuinfo seen in wild
+  CHECK_UARCH(arch, 0,  6,  4, 12, NA, "Airmont",         UARCH_AIRMONT,          14)
+  CHECK_UARCH(arch, 0,  6,  4, 13, NA, "Silvermont",      UARCH_SILVERMONT,       22)
+  CHECK_UARCH(arch, 0,  6,  4, 14,  8, "Kaby Lake",       UARCH_KABY_LAKE,        14)
+  CHECK_UARCH(arch, 0,  6,  4, 14, NA, "Skylake",         UARCH_SKYLAKE,          14)
+  CHECK_UARCH(arch, 0,  6,  4, 15, NA, "Broadwell",       UARCH_BROADWELL,        14)
+  CHECK_UARCH(arch, 0,  6,  5,  5,  6, "Cascade Lake",    UARCH_CASCADE_LAKE,     14) // no docs, but example from Greg Stewart
+  CHECK_UARCH(arch, 0,  6,  5,  5,  7, "Cascade Lake",    UARCH_CASCADE_LAKE,     14)
+  CHECK_UARCH(arch, 0,  6,  5,  5, 10, "Cooper Lake",     UARCH_COOPER_LAKE,      14)
+  CHECK_UARCH(arch, 0,  6,  5,  5, NA, "Skylake",         UARCH_SKYLAKE,          14)
+  CHECK_UARCH(arch, 0,  6,  5,  6, NA, "Broadwell",       UARCH_BROADWELL,        14)
+  CHECK_UARCH(arch, 0,  6,  5,  7, NA, "Knights Landing", UARCH_KNIGHTS_LANDING,  14)
+  CHECK_UARCH(arch, 0,  6,  5, 10, NA, "Silvermont",      UARCH_SILVERMONT,       22) // no spec update; only MSR_CPUID_table* so far
+  CHECK_UARCH(arch, 0,  6,  5, 12, NA, "Goldmont",        UARCH_GOLDMONT,         14)
+  CHECK_UARCH(arch, 0,  6,  5, 13, NA, "Silvermont",      UARCH_SILVERMONT,       22) // no spec update; only MSR_CPUID_table* so far
+  CHECK_UARCH(arch, 0,  6,  5, 14,  8, "Kaby Lake",       UARCH_KABY_LAKE,        14)
+  CHECK_UARCH(arch, 0,  6,  5, 14, NA, "Skylake",         UARCH_SKYLAKE,          14)
+  CHECK_UARCH(arch, 0,  6,  5, 15, NA, "Goldmont",        UARCH_GOLDMONT,         14)
+  CHECK_UARCH(arch, 0,  6,  6,  6, NA, "Palm Cove",       UARCH_PALM_COVE,        10) // no spec update; only MSR_CPUID_table* so far
+  CHECK_UARCH(arch, 0,  6,  6, 10, NA, "Sunny Cove",      UARCH_SUNNY_COVE,       10) // no spec update; only MSR_CPUID_table* so far
+  CHECK_UARCH(arch, 0,  6,  6, 12, NA, "Sunny Cove",      UARCH_SUNNY_COVE,       10) // no spec update; only MSR_CPUID_table* so far
+  CHECK_UARCH(arch, 0,  6,  7,  5, NA, "Airmont",         UARCH_AIRMONT,          14) // no spec update; whispers & rumors
+  CHECK_UARCH(arch, 0,  6,  7, 10, NA, "Goldmont Plus",   UARCH_GOLDMONT_PLUS,    14)
+  CHECK_UARCH(arch, 0,  6,  7, 13, NA, "Sunny Cove",      UARCH_SUNNY_COVE,       10) // no spec update; only MSR_CPUID_table* so far
+  CHECK_UARCH(arch, 0,  6,  7, 14, NA, "Ice Lake",        UARCH_ICE_LAKE,         10)
+  CHECK_UARCH(arch, 0,  6,  8,  5, NA, "Knights Mill",    UARCH_KNIGHTS_MILL,     14) // no spec update; only MSR_CPUID_table* so far
+  CHECK_UARCH(arch, 0,  6,  8,  6, NA, "Tremont",         UARCH_TREMONT,          10) // LX*
+  CHECK_UARCH(arch, 0,  6,  8, 10, NA, "Tremont",         UARCH_TREMONT,          10) // no spec update; only geekbench.com example
+  CHECK_UARCH(arch, 0,  6,  8, 12, NA, "Tiger Lake",      UARCH_TIGER_LAKE,       10) // instlatx64
+  CHECK_UARCH(arch, 0,  6,  8, 13, NA, "Tiger Lake",      UARCH_TIGER_LAKE,       10) // instlatx64
+  // CHECK_UARCH(arch, 0,  6,  8, 14,  9, ...) It is not possible to determine uarch only from CPUID dump (can be Kaby Lake or Amber Lake)
+  CHECK_UARCH(arch, 0,  6,  8, 14, 10, "Kaby Lake",       UARCH_KABY_LAKE,        14) // wikichip
+  CHECK_UARCH(arch, 0,  6,  8, 14, 11, "Whiskey Lake",    UARCH_WHISKEY_LAKE,     14) // wikichip
+  CHECK_UARCH(arch, 0,  6,  8, 14, 12, "Comet Lake",      UARCH_COMET_LAKE,       14) // wikichip
+  CHECK_UARCH(arch, 0,  6,  9,  6, NA, "Tremont",         UARCH_TREMONT,          10) // LX*
+  CHECK_UARCH(arch, 0,  6,  9,  7, NA, "Alder Lake",      UARCH_ALDER_LAKE,       10) // wikichip
+  CHECK_UARCH(arch, 0,  6,  9, 10, NA, "Tremont",         UARCH_TREMONT,          10) // instlatx64
+  CHECK_UARCH(arch, 0,  6,  9, 12, NA, "Tremont",         UARCH_TREMONT,          10) // LX*
+  CHECK_UARCH(arch, 0,  6,  9, 13, NA, "Sunny Cove",      UARCH_SUNNY_COVE,       10) // LX*
+  CHECK_UARCH(arch, 0,  6,  9, 14,  9, "Kaby Lake",       UARCH_KABY_LAKE,        14)
+  CHECK_UARCH(arch, 0,  6,  9, 14, 10, "Coffee Lake",     UARCH_COFFE_LAKE,       14)
+  CHECK_UARCH(arch, 0,  6,  9, 14, 11, "Coffee Lake",     UARCH_COFFE_LAKE,       14)
+  CHECK_UARCH(arch, 0,  6,  9, 14, 12, "Coffee Lake",     UARCH_COFFE_LAKE,       14)
+  CHECK_UARCH(arch, 0,  6,  9, 14, 13, "Coffee Lake",     UARCH_COFFE_LAKE,       14)
+  CHECK_UARCH(arch, 0,  6, 10,  5, NA, "Comet Lake",      UARCH_COMET_LAKE,       14) // wikichip
+  CHECK_UARCH(arch, 0,  6, 10,  6, NA, "Comet Lake",      UARCH_COMET_LAKE,       14) // instlatx64.atw.hu (i7-10710U)
+  CHECK_UARCH(arch, 0,  6, 10,  7, NA, "Rocket Lake",     UARCH_ROCKET_LAKE,      14) // instlatx64.atw.hu (i7-11700K)
+  CHECK_UARCH(arch, 0, 11,  0,  0, NA, "Knights Ferry",   UARCH_KNIGHTS_FERRY,    45) // found only on en.wikichip.org
+  CHECK_UARCH(arch, 0, 11,  0,  1, NA, "Knights Corner",  UARCH_KNIGHTS_CORNER,   22)
+  CHECK_UARCH(arch, 0, 15,  0,  0, NA, "Willamette",      UARCH_WILLAMETTE,      180)
+  CHECK_UARCH(arch, 0, 15,  0,  1, NA, "Willamette",      UARCH_WILLAMETTE,      180)
+  CHECK_UARCH(arch, 0, 15,  0,  2, NA, "Northwood",       UARCH_NORTHWOOD,       130)
+  CHECK_UARCH(arch, 0, 15,  0,  3, NA, "Prescott",        UARCH_PRESCOTT,         90)
+  CHECK_UARCH(arch, 0, 15,  0,  4, NA, "Prescott",        UARCH_PRESCOTT,         90)
+  CHECK_UARCH(arch, 0, 15,  0,  6, NA, "Cedar Mill",      UARCH_CEDAR_MILL,       65)
+  CHECK_UARCH(arch, 1, 15,  0,  0, NA, "Itanium2",        UARCH_ITANIUM2,        180)
+  CHECK_UARCH(arch, 1, 15,  0,  1, NA, "Itanium2",        UARCH_ITANIUM2,        130)
+  CHECK_UARCH(arch, 1, 15,  0,  2, NA, "Itanium2",        UARCH_ITANIUM2,        130)
+  UARCH_END
+
+  return arch;
+}
+
+// iNApired in Todd Allen's decode_uarch_amd
+struct uarch* get_uarch_from_cpuid_amd(uint32_t ef, uint32_t f, uint32_t em, uint32_t m, int s) {
+  struct uarch* arch = emalloc(sizeof(struct uarch));
+
+  // EF: Extended Family                                                           //
+  // F:  Family                                                                    //
+  // EM: Extended Model                                                            //
+  // M: Model                                                                      //
+  // S: Stepping                                                                   //
+  // ----------------------------------------------------------------------------- //
+  //                 EF  F  EM   M   S                                             //
+  UARCH_START
+  CHECK_UARCH(arch,  0,  4,  0,  3, NA, "Am486",       UARCH_AM486,      UNK)
+  CHECK_UARCH(arch,  0,  4,  0,  7, NA, "Am486",       UARCH_AM486,      UNK)
+  CHECK_UARCH(arch,  0,  4,  0,  8, NA, "Am486",       UARCH_AM486,      UNK)
+  CHECK_UARCH(arch,  0,  4,  0,  9, NA, "Am486",       UARCH_AM486,      UNK)
+  CHECK_UARCH(arch,  0,  4, NA, NA, NA, "Am5x86",      UARCH_AM5X86,     UNK)
+  CHECK_UARCH(arch,  0,  5,  0,  6, NA, "K6",          UARCH_K6,         300)
+  CHECK_UARCH(arch,  0,  5,  0,  7, NA, "K6",          UARCH_K6,         250) // *p from sandpile.org
+  CHECK_UARCH(arch,  0,  5,  0, 10, NA, "K7",          UARCH_K7,         130) // Geode NX
+  CHECK_UARCH(arch,  0,  5,  0, 13, NA, "K6",          UARCH_K6,          80) // *p from sandpile.org
+  CHECK_UARCH(arch,  0,  5, NA, NA, NA, "K6",          UARCH_K6,         UNK)
+  CHECK_UARCH(arch,  0,  6,  0,  1, NA, "K7",          UARCH_K7,         250)
+  CHECK_UARCH(arch,  0,  6,  0,  2, NA, "K7",          UARCH_K7,         180)
+  CHECK_UARCH(arch,  0,  6, NA, NA, NA, "K7",          UARCH_K7,         UNK)
+  CHECK_UARCH(arch,  0, 15,  0,  4,  8, "K8",          UARCH_K8,         130)
+  CHECK_UARCH(arch,  0, 15,  0,  4, NA, "K8",          UARCH_K8,         130)
+  CHECK_UARCH(arch,  0, 15,  0,  5, NA, "K8",          UARCH_K8,         130)
+  CHECK_UARCH(arch,  0, 15,  0,  7, NA, "K8",          UARCH_K8,         130)
+  CHECK_UARCH(arch,  0, 15,  0,  8, NA, "K8",          UARCH_K8,         130)
+  CHECK_UARCH(arch,  0, 15,  0, 11, NA, "K8",          UARCH_K8,         130)
+  CHECK_UARCH(arch,  0, 15,  0, 12, NA, "K8",          UARCH_K8,         130)
+  CHECK_UARCH(arch,  0, 15,  0, 14, NA, "K8",          UARCH_K8,         130)
+  CHECK_UARCH(arch,  0, 15,  0, 15, NA, "K8",          UARCH_K8,         130)
+  CHECK_UARCH(arch,  0, 15,  1,  4, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  1,  5, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  1,  7, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  1,  8, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  1, 11, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  1, 12, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  1, 15, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  2,  1, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  2,  3, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  2,  4, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  2,  5, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  2,  7, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  2, 11, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  2, 12, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  2, 15, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  4,  1, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  4,  3, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  4,  8, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  4, 11, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  4, 12, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  4, 15, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  5, 13, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  5, 15, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  0, 15,  6,  8, NA, "K8",          UARCH_K8,          65)
+  CHECK_UARCH(arch,  0, 15,  6, 11, NA, "K8",          UARCH_K8,          65)
+  CHECK_UARCH(arch,  0, 15,  6, 12, NA, "K8",          UARCH_K8,          65)
+  CHECK_UARCH(arch,  0, 15,  6, 15, NA, "K8",          UARCH_K8,          65)
+  CHECK_UARCH(arch,  0, 15,  7, 12, NA, "K8",          UARCH_K8,          65)
+  CHECK_UARCH(arch,  0, 15,  7, 15, NA, "K8",          UARCH_K8,          65)
+  CHECK_UARCH(arch,  0, 15, 12,  1, NA, "K8",          UARCH_K8,          90)
+  CHECK_UARCH(arch,  1, 15,  0,  0, NA, "K10",         UARCH_K10,         65) // sandpile.org
+  CHECK_UARCH(arch,  1, 15,  0,  2, NA, "K10",         UARCH_K10,         65)
+  CHECK_UARCH(arch,  1, 15,  0,  4, NA, "K10",         UARCH_K10,         45)
+  CHECK_UARCH(arch,  1, 15,  0,  5, NA, "K10",         UARCH_K10,         45)
+  CHECK_UARCH(arch,  1, 15,  0,  6, NA, "K10",         UARCH_K10,         45)
+  CHECK_UARCH(arch,  1, 15,  0,  8, NA, "K10",         UARCH_K10,         45)
+  CHECK_UARCH(arch,  1, 15,  0,  9, NA, "K10",         UARCH_K10,         45)
+  CHECK_UARCH(arch,  1, 15,  0, 10, NA, "K10",         UARCH_K10,         45)
+  CHECK_UARCH(arch,  2, 15, NA, NA, NA, "Puma 2008",   UARCH_PUMA_2008,   65)
+  CHECK_UARCH(arch,  3, 15, NA, NA, NA, "K10",         UARCH_K10,         32)
+  CHECK_UARCH(arch,  5, 15, NA, NA, NA, "Bobcat",      UARCH_BOBCAT,      40)
+  CHECK_UARCH(arch,  6, 15,  0,  0, NA, "Bulldozer",   UARCH_BULLDOZER,   32) // instlatx64 engr sample
+  CHECK_UARCH(arch,  6, 15,  0,  1, NA, "Bulldozer",   UARCH_BULLDOZER,   32)
+  CHECK_UARCH(arch,  6, 15,  0,  2, NA, "Piledriver",  UARCH_PILEDRIVER,  32)
+  CHECK_UARCH(arch,  6, 15,  1,  0, NA, "Piledriver",  UARCH_PILEDRIVER,  32)
+  CHECK_UARCH(arch,  6, 15,  1,  3, NA, "Piledriver",  UARCH_PILEDRIVER,  32)
+  CHECK_UARCH(arch,  6, 15,  3,  0, NA, "Steamroller", UARCH_STEAMROLLER, 28)
+  CHECK_UARCH(arch,  6, 15,  3,  8, NA, "Steamroller", UARCH_STEAMROLLER, 28)
+  CHECK_UARCH(arch,  6, 15,  4,  0, NA, "Steamroller", UARCH_STEAMROLLER, 28) // Software Optimization Guide (15h) says it has the same iNAt latencies as (6,15),(3,x).
+  CHECK_UARCH(arch,  6, 15,  6,  0, NA, "Excavator",   UARCH_EXCAVATOR,   28) // undocumented, but instlatx64 samples
+  CHECK_UARCH(arch,  6, 15,  6,  5, NA, "Excavator",   UARCH_EXCAVATOR,   28) // undocumented, but sample from Alexandros Couloumbis
+  CHECK_UARCH(arch,  6, 15,  7,  0, NA, "Excavator",   UARCH_EXCAVATOR,   28)
+  CHECK_UARCH(arch,  7, 15,  0,  0, NA, "Jaguar",      UARCH_JAGUAR,      28)
+  CHECK_UARCH(arch,  7, 15,  2,  6, NA, "Jaguar",      UARCH_JAGUAR,      28) // AMD Cato (Xbox One?)
+  CHECK_UARCH(arch,  7, 15,  3,  0, NA, "Puma 2014",   UARCH_PUMA_2014,   28)
+  CHECK_UARCH(arch,  8, 15,  0,  0, NA, "Zen",         UARCH_ZEN,         14) // instlatx64 engr sample
+  CHECK_UARCH(arch,  8, 15,  0,  1, NA, "Zen",         UARCH_ZEN,         14)
+  CHECK_UARCH(arch,  8, 15,  0,  8, NA, "Zen+",        UARCH_ZEN_PLUS,    12)
+  CHECK_UARCH(arch,  8, 15,  1,  1, NA, "Zen",         UARCH_ZEN,         14) // found only on en.wikichip.org & instlatx64 examples
+  CHECK_UARCH(arch,  8, 15,  1,  8, NA, "Zen+",        UARCH_ZEN_PLUS,    12) // found only on en.wikichip.org
+  CHECK_UARCH(arch,  8, 15,  2,  0, NA, "Zen",         UARCH_ZEN,         14) // Dali, found on instlatx64 and en.wikichip.org
+  CHECK_UARCH(arch,  8, 15,  3,  1, NA, "Zen 2",       UARCH_ZEN2,         7) // found only on en.wikichip.org
+  CHECK_UARCH(arch,  8, 15,  4,  7, NA, "Zen 2",       UARCH_ZEN2,         7) // instlatx64 example (AMD 4700S)
+  CHECK_UARCH(arch,  8, 15,  5,  0, NA, "Zen",         UARCH_ZEN,         14) // instlatx64 example (Subor Z+)
+  CHECK_UARCH(arch,  8, 15,  6,  0, NA, "Zen 2",       UARCH_ZEN2,         7) // undocumented, geekbench.com example
+  CHECK_UARCH(arch,  8, 15,  6,  8, NA, "Zen 2",       UARCH_ZEN2,         7) // found on instlatx64
+  CHECK_UARCH(arch,  8, 15,  7,  1, NA, "Zen 2",       UARCH_ZEN2,         7) // samples from Steven Noonan and instlatx64
+  CHECK_UARCH(arch, 10, 15,  0,  1, NA, "Zen 3",       UARCH_ZEN3,         7) // instlatx64
+  CHECK_UARCH(arch, 10, 15,  2,  1, NA, "Zen 3",       UARCH_ZEN3,         7) // instlatx64
+  CHECK_UARCH(arch, 10, 15,  5,  0, NA, "Zen 3",       UARCH_ZEN3,         7) // instlatx64
+  UARCH_END
+
+  return arch;
+}
+
+struct uarch* get_uarch_from_cpuid(struct cpuInfo* cpu, uint32_t dump, uint32_t ef, uint32_t f, uint32_t em, uint32_t m, int s) {
+  if(cpu->cpu_vendor == CPU_VENDOR_INTEL) {
+    if(dump == 0x000806E9) {
+      // It is not possible to determine uarch only from CPUID dump (can be Kaby Lake or Amber Lake)
+      struct uarch* arch = emalloc(sizeof(struct uarch));
+
+      if(strstr(cpu->cpu_name, "Y") != NULL) {
+        fill_uarch(arch, "Amber Lake", UARCH_AMBER_LAKE, 14);
+      }
+      else {
+        fill_uarch(arch, "Kaby Lake", UARCH_KABY_LAKE, 14);
+      }
+
+      return arch;
+    }
+    return get_uarch_from_cpuid_intel(ef, f, em, m, s);
+  }
+  else
+    return get_uarch_from_cpuid_amd(ef, f, em, m, s);
+}
+
+bool vpus_are_AVX512(struct cpuInfo* cpu) {
+  return cpu->arch->uarch != UARCH_ICE_LAKE && cpu->arch->uarch != UARCH_TIGER_LAKE;
+}
+
+bool is_knights_landing(struct cpuInfo* cpu) {
+  return cpu->arch->uarch == UARCH_KNIGHTS_LANDING;
+}
+
+int get_number_of_vpus(struct cpuInfo* cpu) {
+  switch(cpu->arch->uarch) {
+      // Intel
+      case UARCH_HASWELL:
+      case UARCH_BROADWELL:
+
+      case UARCH_SKYLAKE:
+      case UARCH_CASCADE_LAKE:
+      case UARCH_KABY_LAKE:
+      case UARCH_COMET_LAKE:
+      case UARCH_ROCKET_LAKE:
+      case UARCH_AMBER_LAKE:
+      case UARCH_WHISKEY_LAKE:
+      case UARCH_COFFE_LAKE:
+      case UARCH_PALM_COVE:
+
+      case UARCH_KNIGHTS_LANDING:
+      case UARCH_KNIGHTS_MILL:
+
+      case UARCH_ICE_LAKE:
+      case UARCH_TIGER_LAKE:
+
+      // AMD
+      case UARCH_ZEN2:
+      case UARCH_ZEN3:
+        return 2;
+      default:
+        return 1;
+  }
+}
+
+bool choose_new_intel_logo_uarch(struct cpuInfo* cpu) {
+  switch(cpu->arch->uarch) {
+    case UARCH_ALDER_LAKE:
+    case UARCH_ROCKET_LAKE:
+    case UARCH_TIGER_LAKE:
+      return true;
+    default:
+      return false;
+  }
+}
+
+char* get_str_uarch(struct cpuInfo* cpu) {
+  return cpu->arch->uarch_str;
+}
+
+char* get_str_process(struct cpuInfo* cpu) {
+  char* str = emalloc(sizeof(char) * (strlen(STRING_UNKNOWN)+1));
+  int32_t process = cpu->arch->process;
+
+  if(process == UNK) {
+    snprintf(str, strlen(STRING_UNKNOWN)+1, STRING_UNKNOWN);
+  }
+  else if(process > 100) {
+    sprintf(str, "%.2fum", (double)process/100);
+  }
+  else if(process > 0){
+    sprintf(str, "%dnm", process);
+  }
+  else {
+    snprintf(str, strlen(STRING_UNKNOWN)+1, STRING_UNKNOWN);
+    printBug("Found invalid process: '%d'", process);
+  }
+
+  return str;
+}
+
+void free_uarch_struct(struct uarch* arch) {
+  free(arch->uarch_str);
+  free(arch);
+}

src/x86/uarch.h

@@ -0,0 +1,19 @@
+#ifndef __UARCH__
+#define __UARCH__
+
+#include <stdint.h>
+
+#include "cpuid.h"
+
+struct uarch;
+
+struct uarch* get_uarch_from_cpuid(struct cpuInfo* cpu, uint32_t dump, uint32_t ef, uint32_t f, uint32_t em, uint32_t m, int s);
+bool vpus_are_AVX512(struct cpuInfo* cpu);
+bool is_knights_landing(struct cpuInfo* cpu);
+int get_number_of_vpus(struct cpuInfo* cpu);
+bool choose_new_intel_logo_uarch(struct cpuInfo* cpu);
+char* get_str_uarch(struct cpuInfo* cpu);
+char* get_str_process(struct cpuInfo* cpu);
+void free_uarch_struct(struct uarch* arch);
+
+#endif

src/x86/uarch_decode.sh

@@ -0,0 +1,23 @@
+#!/bin/bash -u
+
+CPUID=0x00A50F00
+
+efamily=$(((${CPUID}>>20)&0xFF))
+family=$(((${CPUID}>>8)&0xF))
+emodel=$(((${CPUID}>>16)&0xF))
+model=$(((${CPUID}>>4)&0xF))
+stepping=$((${CPUID}&0xF))
+
+printf 'CPUID: 0x%.8X\n' $CPUID
+printf -- '- EF = 0x%X (%d)\n' $efamily $efamily
+printf -- '- F  = 0x%X (%d)\n' $family $family
+printf -- '- EM = 0x%X (%d)\n' $emodel $emodel
+printf -- '- M  = 0x%X (%d)\n' $model $model
+printf -- '- S  = 0x%X (%d)\n' $stepping $stepping
+
+#EF=$efamily
+#F=$family
+#EM=$emodel
+#M=$model
+#S=$stepping
+#grep -E "\s*CHECK_UARCH\(arch,\s*${EF},\s*${F},\s*(${EM}|NA),\s*(${M}|NA),\s*(${S}|NA)" uarch.c