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base: OmniNX:0.33
Branches Tags
OmniNX:main OmniNX:custom-soc-table-fix-in-40-years OmniNX:hocclk-on-bpmp OmniNX:samy_mode
OmniNX:2.3.0 OmniNX:2.2.0 OmniNX:2.1.0 OmniNX:2.0.2 OmniNX:2.0.1 OmniNX:2.0.0 OmniNX:1.2.1 OmniNX:1.2.0 OmniNX:1.1.0 OmniNX:1.0.2 OmniNX:1.0.1 OmniNX:1.0.0 OmniNX:0.41 OmniNX:0.40 OmniNX:0.39 OmniNX:0.38 OmniNX:0.37 OmniNX:0.36 OmniNX:0.35 OmniNX:0.34 OmniNX:0.33 OmniNX:0.32 OmniNX:0.31 OmniNX:0.30 OmniNX:0.29 OmniNX:0.27 OmniNX:0.26
..
compare: OmniNX:0.37
Branches Tags
OmniNX:main OmniNX:custom-soc-table-fix-in-40-years OmniNX:hocclk-on-bpmp OmniNX:samy_mode
OmniNX:2.3.0 OmniNX:2.2.0 OmniNX:2.1.0 OmniNX:2.0.2 OmniNX:2.0.1 OmniNX:2.0.0 OmniNX:1.2.1 OmniNX:1.2.0 OmniNX:1.1.0 OmniNX:1.0.2 OmniNX:1.0.1 OmniNX:1.0.0 OmniNX:0.41 OmniNX:0.40 OmniNX:0.39 OmniNX:0.38 OmniNX:0.37 OmniNX:0.36 OmniNX:0.35 OmniNX:0.34 OmniNX:0.33 OmniNX:0.32 OmniNX:0.31 OmniNX:0.30 OmniNX:0.29 OmniNX:0.27 OmniNX:0.26

95 Commits
0.33 ... 0.37

Author SHA1 Message Date
Lightos1
aa72176196 Remove budget dvfs 2026-02-12 17:15:26 +01:00
Lightos1
7af0721847 DVFS: Safety check fix 2026-02-12 17:02:52 +01:00
Lightos1
2a6320e646 Bracket fix 2026-02-12 16:49:12 +01:00
Lightos1
fc212bb419 Bump version 2026-02-12 16:46:49 +01:00
Lightos1
14e0053335 DVFS: Add offset 2026-02-12 16:44:04 +01:00
Lightos1
8f28daceef DVFS: Add safety check 2026-02-12 16:12:36 +01:00
souldbminersmwc
f1044673d0 sysclk: modify dvfs logic 2026-02-11 19:28:43 -05:00
souldbminersmwc
61a0ebffee sysclk: fully fix dvfs 2026-02-11 19:22:25 -05:00
souldbminersmwc
8de8f4013e sysclk: fix dvfs config option 2026-02-11 19:11:02 -05:00
souldbminersmwc
dd447553d4 sysclk: make dvfs work 2026-02-11 19:09:55 -05:00
Lightos1
11c456e00c Fix random } 2026-02-11 17:42:10 +01:00
Lightos1
5efb4bdd6b Add hijack dvfs from sys-clk-eos 2026-02-11 16:57:26 +01:00
Lightos1
e331f1249b Why did this not commit? 2026-02-11 11:08:29 +01:00
Lightos1
786467d7ea add r2w fine tuning 2026-02-11 11:05:45 +01:00
Lightos1
496e77301b bump version 2026-02-11 01:06:52 +01:00
Lightos1
d657f1d156 Fix typo 2 2026-02-10 15:33:47 +01:00
Lightos1
7ab5c2f540 Fix typo 2026-02-10 15:33:03 +01:00
Lightos1
71900721cf Make AUTO_RAM default (for now) 2026-02-10 15:26:12 +01:00
Lightos1
0bc9547701 Add advanced header 2026-02-10 15:12:17 +01:00
Lightos1
96ac254022 Add w2r fine tune 2026-02-10 15:04:28 +01:00
Souldbminer
92f378a80f fix svfs again 2026-02-09 18:59:09 -05:00
Lightos1
589af01ad8 Budget dvfs fix 2026-02-10 00:39:22 +01:00
Lightos1
e7f14b88e5 Replace floor with ceil 2026-02-09 16:29:05 +01:00
souldbminersmwc
35a269e4a7 Update README.md 2026-02-08 15:51:46 -05:00
souldbminersmwc
ff95ca527f Merge branch 'develop' of https://github.com/Horizon-OC/Horizon-OC into develop 2026-02-08 15:33:53 -05:00
souldbminersmwc
550e4e5204 Delete HOC_AUTO_RAM_TEST.zip 2026-02-08 15:33:39 -05:00
Lightos1
a088c4795a Update readme 2026-02-08 18:52:23 +01:00
Lightos1
e8a264fa11 New timings, fix budget gpu dvfs 2026-02-08 18:46:10 +01:00
souldbminersmwc
de681c20a0 ldr: code cleanup 2026-02-08 12:00:27 -05:00
souldbminersmwc
22aef264ab Update pcv_mariko.cpp 2026-02-08 11:57:54 -05:00
souldbminersmwc
309717c468 ldr: fix auto_ram vmin 2026-02-08 11:57:43 -05:00
souldbminersmwc
9b91d7487c ldr: rename namespace 2026-02-08 11:56:04 -05:00
souldbminersmwc
c0b458243c ldr: add auto ram vmin 2026-02-08 11:54:21 -05:00
souldbminersmwc
7d9c60cdfe Merge branch 'develop' of https://github.com/Horizon-OC/Horizon-OC into develop 2026-02-07 19:20:33 -05:00
souldbminersmwc
12c9effec2 Update README.md 2026-02-07 19:20:31 -05:00
Souldbminer
6eeab63075 Rearrange CPU clock entries in README 
Reordered CPU clock entries for clarity.
 2026-02-07 18:53:41 -05:00
Souldbminer
2d81c5e127 Merge pull request #34 from OEMunlag/develop 
Remove dist.zip hash on actions
 2026-02-07 18:51:12 -05:00
souldbminersmwc
b1739cea74 sysclk: rework clock capping 2026-02-07 18:38:37 -05:00
souldbminersmwc
aa607ab1a7 sysclk: safety display changes 2026-02-07 18:28:49 -05:00
souldbminersmwc
d1242a17d4 sysclk: 2133MHz is a JEDEC clock 2026-02-07 18:23:49 -05:00
2fort sink
80701c2891 Merge branch 'Horizon-OC:develop' into develop 2026-02-07 20:18:15 -03:00
souldbminersmwc
cfd0d84ac8 update dist 2026-02-07 18:10:21 -05:00
souldbminersmwc
c33aabdc84 chore: code cleanup 2026-02-07 18:10:12 -05:00
2fort sink
c70fd82e60 Modify build.yml to set commit SHA and dist 
Updated the GitHub Actions workflow to include a distribution file with the commit SHA.
 2026-02-07 20:07:56 -03:00
2fort sink
574c248d68 Merge branch 'Horizon-OC:develop' into develop 2026-02-07 19:55:21 -03:00
souldbminersmwc
ebcf07dab8 update files 2026-02-07 17:51:38 -05:00
souldbminersmwc
d170ca92ad ldr: rework reserved entries 2026-02-07 17:51:18 -05:00
souldbminersmwc
cab8a14b99 Merge branch 'develop' of https://github.com/Horizon-OC/Horizon-OC into develop 2026-02-06 19:43:48 -05:00
souldbminersmwc
b623dabce5 sysclk: fix 1963mhz bug 2026-02-06 19:42:58 -05:00
Dominator
e5eb49f2e5 Merge pull request #33 from Blaise-25/develop 2026-02-06 01:47:22 +02:00
Blaise-25
9f0a609735 Update README.md 2026-02-05 15:20:12 -08:00
Souldbminer
19a2e562bc Update README.md 2026-02-05 16:12:30 -05:00
souldbminersmwc
73c3311251 Merge branch 'develop' of https://github.com/Horizon-OC/Horizon-OC into develop 2026-02-04 19:33:30 -05:00
souldbminersmwc
eb7fca1c1a erista ram overclock support + reserved entried 
if you use hoc-clk 0.33 and want to update follow these steps

go to config/horizon-oc/config.ini
remove these two entries:

crc32=xxxxxxxxxxx
is_first_load=0
 2026-02-04 19:33:10 -05:00
Dominator
ad1f070a6b Update README.md 2026-02-05 01:17:10 +02:00
2fort sink
0ae65c8740 Merge branch 'Horizon-OC:develop' into develop 2026-02-04 18:07:27 -03:00
2fort sink
39fbe25afc Update build.yml 2026-02-04 18:07:16 -03:00
souldbminersmwc
3bad144280 sysclk: add cat script 2026-02-03 19:01:49 -05:00
souldbminersmwc
123d4b6080 Merge branch 'develop' of https://github.com/Horizon-OC/Horizon-OC into develop 2026-02-03 18:57:02 -05:00
souldbminersmwc
2f6ed69b92 sysclk: refine misc gui 2026-02-03 18:56:48 -05:00
Souldbminer
337f7e6ac0 Merge pull request #32 from OEMunlag/develop 
proper github actions build
 2026-02-03 15:57:29 -05:00
2fort sink
a5efa7ae72 Add files via upload 2026-02-03 16:55:48 -03:00
2fort sink
a8ee389681 Revert to last working 
Updated the Docker image for the build container and removed unnecessary steps for creating compiler shims. Added packaging of the dist folder as a ZIP file with the commit SHA.
 2026-02-03 16:40:38 -03:00
2fort sink
54554bacea Change Docker image and install switch-dev 
Updated the Docker image for the build container and added a step to install switch-dev.
 2026-02-03 16:28:09 -03:00
2fort sink
3da2fc4b6d Merge branch 'Horizon-OC:develop' into develop 2026-02-03 15:05:11 -03:00
2fort sink
83287b1f5c Update build.yml 2026-02-02 21:53:24 -03:00
2fort sink
4f6756c609 Update build.yml 2026-02-02 21:29:05 -03:00
souldbminersmwc
ef2434c457 try to fix status monitor issues 2026-02-02 19:13:08 -05:00
2fort sink
b0237a2042 Update build.yml 2026-02-02 21:07:54 -03:00
2fort sink
c6275eb977 Update build.yml 2026-02-02 20:51:49 -03:00
2fort sink
72961aa2f1 Update build.yml 2026-02-02 20:46:58 -03:00
2fort sink
9c60697344 Merge branch 'Horizon-OC:develop' into develop 2026-02-02 20:45:15 -03:00
2fort sink
f786d97de1 Update build.yml 2026-02-02 20:44:06 -03:00
2fort sink
20389043ac Enhance build.yml with ccache shims for compilers 
very hacky I know but we also fix exosphere hopefully with this
 2026-02-02 20:37:56 -03:00
souldbminersmwc
00b9d8550e ldr: fix erista cpu validator 
this DOES NOT fix erista cpu uv, but is probably part of the issue
 2026-02-02 18:18:22 -05:00
2fort sink
0c0a4b3d6b Merge branch 'Horizon-OC:develop' into develop 2026-02-01 19:14:07 -03:00
2fort sink
61fd9d74d3 Update build.yml 2026-02-01 19:14:00 -03:00
2fort sink
f36383d0e7 Update build.yml 2026-02-01 18:58:52 -03:00
2fort sink
cff4267a68 Fix ROOT variable assignment in build workflow 2026-02-01 18:32:01 -03:00
2fort sink
65e7d83972 Update build.yml 2026-02-01 18:26:30 -03:00
2fort sink
e2533e2bb0 Patch exosphere and build, fix comment and zip making redundancy 2026-02-01 18:19:23 -03:00
2fort sink
6c94f5754c Update build.yml 2026-02-01 17:58:52 -03:00
2fort sink
aaf77997e1 Update build.yml 2026-02-01 17:52:44 -03:00
2fort sink
c933e02aed Merge branch 'Horizon-OC:develop' into develop 2026-02-01 17:46:47 -03:00
2fort sink
770c25dbcb build hoc-clk and shallow clone ams 
Updated the build process to use shallow clones and added a new build step for the hoc-clk sysmodule and overlay.
 2026-02-01 17:44:20 -03:00
2fort sink
dbb4d698a0 Increase make parallel jobs and update file paths 2026-02-01 16:12:26 -03:00
2fort sink
6ae084433f Update build.yml 2026-02-01 15:58:29 -03:00
2fort sink
32f19c4f0e Update build.yml 2026-02-01 15:48:47 -03:00
2fort sink
05cf2ab4dd Clone Atmosphere with specific branch from file 2026-02-01 14:28:37 -03:00
2fort sink
13a4ea4ca0 create ams_ver.txt 
Should be self-explanatory, we use this for the actions build system
 2026-02-01 14:27:02 -03:00
2fort sink
e2ef52e095 Update build.yml 2026-02-01 14:25:15 -03:00
2fort sink
bbd3b1a0fc Refactor build.yml for environment setup and ccache 
Updated the build workflow to set environment variables using GitHub Actions environment files and improved the ccache installation step.
 2026-02-01 14:22:31 -03:00
2fort sink
8dcfb55646 retry 
cache and actions cache
 2026-02-01 14:15:59 -03:00
2fort sink
ae0f4c7963 Delete .github/workflows/build.yml 2026-02-01 13:54:21 -03:00
2fort sink
222db76200 refactor this test testing woo waa waewewe waowowoewewahaaswadisadasud 
Updated comments and modified build steps in the GitHub Actions workflow.
 2026-02-01 13:52:55 -03:00
50 changed files with 1650 additions and 866 deletions
Expand all files Collapse all files

163
.github/workflows/build.yml vendored Normal file
View File

@@ -0,0 +1,163 @@
name: Build Horizon OC Zeus
on:
push:
branches: [ develop, main, master ]
pull_request:
workflow_dispatch:
jobs:
build:
runs-on: ubuntu-latest
# Minimal devkitA64 container
container:
image: devkitpro/devkita64:20251231
steps:
- name: Checkout repository and submodules # needed for hoc-clk
uses: actions/checkout@v6.0.2
with:
submodules: recursive
# -------------------------------------------------
# Fix PATH for devkitA64 and devkitARM
# -------------------------------------------------
- name: Set devkitPro PATH
run: |
echo "DEVKITPRO=/opt/devkitpro" >> $GITHUB_ENV
echo "DEVKITA64=/opt/devkitpro/devkitA64" >> $GITHUB_ENV
echo "DEVKITARM=/opt/devkitpro/devkitARM" >> $GITHUB_ENV
echo "PATH=/opt/devkitpro/devkitA64/bin:/opt/devkitpro/devkitARM/bin:$PATH" >> $GITHUB_ENV
shell: bash
- name: Check devkitPro gcc and g++ versions
run: |
aarch64-none-elf-gcc --version
aarch64-none-elf-g++ --version
shell: bash # is this even needed? but for consistency let's keep using it
- name: Install ccache
run: |
apt-get update
apt-get install -y ccache
shell: bash
# -------------------------------------------------
# Get short commit SHA
# -------------------------------------------------
- name: Set commit SHA & dist
id: vars
run: |
echo "SHORT_SHA=$(echo $GITHUB_SHA | cut -c1-7)" >> $GITHUB_ENV
echo $SHORT_SHA > dist/.commit
echo $GITHUB_SHA >> dist/.commit
- name: Clone Atmosphere
run: git clone --depth=1 --single-branch https://github.com/Atmosphere-NX/Atmosphere.git atmosphere -b $(cat ams_ver.txt)
- name: Prepare build folder
run: |
mkdir -p build
cp -r atmosphere/* build/
- name: Override ldr_process_creation.cpp
run: |
cp -rf Source/Atmosphere/stratosphere/loader/source/* build/stratosphere/loader/source/
- name: Cache ccache
uses: actions/cache@v5.0.3
with:
path: /root/.cache/ccache
key: ccache-${{ runner.os }}-devkitpro-ams-${{ hashFiles('ams_ver.txt') }} # last key was utter garbage, stick to ams versions,
restore-keys: |
ccache-${{ runner.os }}-devkitpro-
- name: Configure ccache
run: |
export CCACHE_DIR=/root/.cache/ccache
echo "CCACHE_DIR=/root/.cache/ccache" >> $GITHUB_ENV
ccache --set-config=max_size=10G
ccache --set-config=compiler_check=content
ccache --zero-stats
- name: Build hoc-clk sysmodule and overlay
shell: bash
run: |
export CC="ccache aarch64-none-elf-gcc"
export CXX="ccache aarch64-none-elf-g++"
ROOT_DIR="$GITHUB_WORKSPACE/Source/sys-clk"
DIST_DIR="$ROOT_DIR/dist"
mkdir -p "$DIST_DIR"
echo "*** sysmodule ***"
TITLE_ID="$(grep -oP '"title_id":\s*"0x\K(\w+)' \
"$ROOT_DIR/sysmodule/perms.json")"
echo "TITLE_ID: $TITLE_ID"
pushd "$ROOT_DIR/sysmodule"
make -j$(($(nproc) * 2)) CXX="ccache aarch64-none-elf-g++" CC="ccache aarch64-none-elf-gcc"
popd
mkdir -p "$DIST_DIR/atmosphere/contents/$TITLE_ID/flags"
cp -vf \
"$ROOT_DIR/sysmodule/out/horizon-oc.nsp" \
"$DIST_DIR/atmosphere/contents/$TITLE_ID/exefs.nsp"
: >"$DIST_DIR/atmosphere/contents/$TITLE_ID/flags/boot2.flag"
cp -vf \
"$ROOT_DIR/sysmodule/toolbox.json" \
"$DIST_DIR/atmosphere/contents/$TITLE_ID/toolbox.json"
echo "*** overlay ***"
pushd "$ROOT_DIR/overlay"
make -j$(($(nproc) * 2)) CXX="ccache aarch64-none-elf-g++" CC="ccache aarch64-none-elf-gcc"
popd
mkdir -p "$DIST_DIR/switch/.overlays"
cp -vf \
"$ROOT_DIR/overlay/out/horizon-oc-overlay.ovl" \
"$DIST_DIR/switch/.overlays/horizon-oc-overlay.ovl"
echo "*** assets ***"
mkdir -p "$DIST_DIR/config/horizon-oc"
cp -vf \
"$ROOT_DIR/config.ini.template" \
"$DIST_DIR/config/horizon-oc/config.ini.template"
cp -vf \
"$ROOT_DIR/README.md" \
"$DIST_DIR/README.md"
- name: Build kip
working-directory: build/stratosphere/loader
run: |
export CC="ccache aarch64-none-elf-gcc"
export CXX="ccache aarch64-none-elf-g++"
make -j$(($(nproc) * 4)) CXX="ccache aarch64-none-elf-g++" CC="ccache aarch64-none-elf-gcc"
hactool -t kip1 out/nintendo_nx_arm64_armv8a/release/loader.kip --uncompress=hoc.kip
cp hoc.kip ../../../dist/atmosphere/kips/hoc.kip
- name: ccache stats
run: ccache --show-stats
# -------------------------------------------------
# Upload ZIP artifact
# -------------------------------------------------
- name: Upload build artifact
uses: actions/upload-artifact@v6
with:
name: horizon-oc-zeus-dist
path: dist/
compression-level: 3

78
README.md
View File

@@ -7,7 +7,7 @@
![License: GPL-2.0](https://img.shields.io/badge/GPL--2.0-red?style=for-the-badge)
![Nintendo Switch](https://img.shields.io/badge/Nintendo_Switch-E60012?style=for-the-badge\&logo=nintendo-switch\&logoColor=white)
[![Discord](https://img.shields.io/badge/Discord-5865F2?style=for-the-badge\&logo=discord\&logoColor=white)](https://discord.com/invite/S3eX47dHsB)
[![Discord](https://img.shields.io/badge/Discord-5865F2?style=for-the-badge\&logo=discord\&logoColor=white)](https://dsc.gg/horizonoc)
![VSCode](https://img.shields.io/badge/VSCode-0078D4?style=for-the-badge\&logo=visual%20studio%20code\&logoColor=white)
![Made with Notepad++](assets/np++.png?raw=true)
![C++](https://img.shields.io/badge/C%2B%2B-00599C?style=for-the-badge\&logo=c%2B%2B\&logoColor=white)
@@ -41,9 +41,7 @@ It enables advanced CPU, GPU, and RAM tuning with user-friendly configuration to
* Built-in configurator
* Compatible with most homebrew
> *Higher (potentially dangerous) frequencies are unlockable via configuration.*
> *Erista and Mariko units can usually push a bit further fully safely with a bit of undervolting, however this may not work on all units.*
> *The exact maximum overclock possible varies per console, although most consoles should be able to do this safely.*
> It is reccomended to read the [guide](https://rentry.co/howtoget60fps) before proceeding, as this can help you get a *significant* performance boost over the default settings, often times with less power draw and heat output
---
@@ -69,7 +67,7 @@ It enables advanced CPU, GPU, and RAM tuning with user-friendly configuration to
1. Open the Horizon OC Overlay
2. Open the settings menu
3. Adjust your overclocking settings as desired.
3. Adjust your overclocking settings as desired. A helpful guide can be found [here.](https://rentry.co/mariko#oc-settings-for-horizon-oc)
4. Click **Save KIP Settings** to apply your configuration.
---
@@ -78,6 +76,73 @@ It enables advanced CPU, GPU, and RAM tuning with user-friendly configuration to
Refer to COMPILATION.md
---
## Clock table
### MEM clocks
* 3200 → max on mariko, JEDEC.
* 2933 → JEDEC.
* 2666 → JEDEC.
* 2400 → max on erista, JEDEC.
* 2133 → mariko safe max (4266 Modules), JEDEC.
* 1996 → JEDEC.
* 1866 → mariko safe max (3733 Modules), JEDEC.
* 1600 → official docked, boost mode, erista safe max, JEDEC.
* 1331 → official handheld, JEDEC.
* 1065
* 800
* 665
### CPU clocks
* 2601 → mariko absolute max, very dangerous
* 2499
* 2397 → mariko safe max with UV (low speedo)
* 2295
* 2193
* 2091
* 1963 → mariko no UV max clock
* 1887
* 1785 → erista no UV max clock, boost mode
* 1683
* 1581
* 1428
* 1326
* 1224 → sdev oc
* 1122
* 1020 → official docked & handheld
* 918
* 816
* 714
* 612 → sleep mode
### GPU clocks
* 1536 → absolute max clock on mariko. very dangerous
* 1459
* 1382
* 1305
* 1267 → NVIDIA T214 rating
* 1228 → mariko HiOPT safe clock
* 1152 → mariko SLT max clock
* 1075 → mariko no UV max clock. absolute max clock on erista. very dangerous
* 998 → NVIDIA T210 rating
* 960 (erista only) → erista slt/hiopt safe max clock
* 921 → erista no UV max clock
* 844
* 768 → official docked
* 691
* 614
* 537
* 460 → max handheld
* 384 → official handheld
* 307 → official handheld
* 230
* 153
* 76 → boost mode
**Notes:**
1. GPU overclock is capped at 460MHz in handheld and capped at 768MHz if charging, unless you're using the official charger.
2. Clocks higher than 768MHz need the official charger is plugged in.
---
## Credits
@@ -86,6 +151,7 @@ Refer to COMPILATION.md
* **Souldbminer** hoc-clk and loader development
* **Lightos** loader patches development
* **SciresM** - Atmosphere CFW
* **CTCaer** - L4T, Hekate, perfect ram timings
* **KazushiMe** Switch OC Suite
* **hanai3bi (meha)** Switch OC Suite, EOS, sys-clk-eos
* **NaGaa95** L4T-OC-kernel
@@ -95,4 +161,4 @@ Refer to COMPILATION.md
* **MasaGratoR and ZachyCatGames** - General help
* **MasaGratoR** - Status Monitor & Display Refresh Rate Driver
* **Dom, Samybigio, Arcdelta, Miki, Happy, Flopsider, Winnerboi77, Blaise, Alvise, TDRR, agjeococh and Xenshen** - Testing
* **Samybigio2011** - Italian translations
* **Samybigio2011** - Italian translations

4
Source/Atmosphere/stratosphere/loader/source/ldr_process_creation.cpp
View File

@@ -694,11 +694,11 @@ namespace ams::ldr {
/* Apply PCV and PTM patches */
if (g_is_pcv) {
oc::pcv::Patch(map_address, nso_size);
hoc::pcv::Patch(map_address, nso_size);
}
if (g_is_ptm) {
oc::ptm::Patch(map_address, nso_size);
hoc::ptm::Patch(map_address, nso_size);
}
}

38
Source/Atmosphere/stratosphere/loader/source/oc/customize.cpp
View File

@@ -28,17 +28,17 @@
#define GPU_MIN_MIN_VOLT 480000
#define CPU_MAX_MAX_VOLT 1235000
namespace ams::ldr::oc {
namespace ams::ldr::hoc {
volatile CustomizeTable C = {
/* Disables RAM powerdown */
.hpMode = DISABLED,
.commonEmcMemVolt = 1175000, // LPDDR4X JEDEC Specification
.eristaEmcMaxClock = 1600000, // Maximum HB-MGCH ram rating
.commonEmcMemVolt = 1175000, /* LPDDR4X JEDEC Specification */
.eristaEmcMaxClock = 1600000, /* Maximum HB-MGCH ram rating */
.marikoEmcMaxClock = 1866000, // 1866MHz @ 1866tWRL is guaranteed to work on all Mariko units
.marikoEmcVddqVolt = 600000,
.marikoEmcMaxClock = 1866000, /* 1866MHz @ 1866tWRL is guaranteed to work on all Mariko units */
.marikoEmcVddqVolt = 600000, /* Micron: 600mV, other manafacturers: 640mV */
.emcDvbShift = 0,
// Primary
@@ -52,9 +52,7 @@ volatile CustomizeTable C = {
.t7_tWTR = 0,
.t8_tREFI = 0,
/* Set to 4 read and 2 write for 1866b tWRL. */
/* For 2133 tWRL: 8 read and 4 write. */
/* You can mix and match different latencies if needed */
/*
* Read:
* 2133RL = 40
@@ -67,8 +65,9 @@ volatile CustomizeTable C = {
* 1600WL = 14
* 1331WL = 12
*/
.mem_burst_read_latency = 36,
.mem_burst_write_latency = 16,
.mem_burst_read_latency = RL_1866,
.mem_burst_write_latency = WL_1866,
.eristaCpuUV = 0,
.eristaCpuVmin = 800,
@@ -78,9 +77,11 @@ volatile CustomizeTable C = {
.marikoCpuUVLow = 0, // No undervolt
.marikoCpuUVHigh = 0, // No undervolt
.tableConf = DEFAULT_TABLE,
.marikoCpuLowVmin = 620,
.marikoCpuHighVmin = 750,
/* 1120mV is NVIDIA rating */
.marikoCpuMaxVolt = 1120,
/* Supported values: 1963000, 2091000, 2193000, 2295000, 2397000, 2499000, 2601000, 2703000. */
@@ -99,19 +100,22 @@ volatile CustomizeTable C = {
.eristaGpuVmin = 810,
.marikoGpuUV = 0,
/* For automatic vmin detection, set this to AUTO. */
/* vmin past 795mV won't work due to HOS limitation */
/* Vmin is automatically set to 800mV when SoC temperature is below 20C */
.marikoGpuVmin = AUTO,
.marikoGpuVmax = 800,
.commonGpuVoltOffset = 0,
/* Speedo is automatically set by hoc-clk on first boot */
.gpuSpeedo = 1450,
/* This table is used with a gpu uv mode of 2. */
/* Setting DEACTIVATED_GPU_FREQ on any freq will disable it and all freqs greater than it. (the latter is a bug :/) */
/* AUTO: Voltage is optimally chosen; with commonGpuVoltOffset applied. */
/* AUTO only works up to 1305 GPU on Mariko and 921 GPU on Erista */
/* AUTO only works up to 1305 GPU on Mariko and 998 GPU on Erista (it is reccomended to manually set your 998MHz voltage though) */
/* You can overwrite auto with any voltage (in mv) of your choice - offset will not be applied. */
.eristaGpuVoltArray = {
@@ -159,8 +163,8 @@ volatile CustomizeTable C = {
AUTO /* 921 */,
AUTO /* 998 */,
AUTO /* 1075 */,
DEACTIVATED_GPU_FREQ /* 1152 */,
DEACTIVATED_GPU_FREQ /* 1228 */,
AUTO /* 1152 (SLT / HiOPT Only!) */,
AUTO /* 1228 (HiOPT Only!) */,
DEACTIVATED_GPU_FREQ /* 1267 (Disabled by default) */,
DEACTIVATED_GPU_FREQ /* 1305 (Disabled by default) */,
DEACTIVATED_GPU_FREQ /* 1344 (Disabled by default) */,
@@ -171,6 +175,10 @@ volatile CustomizeTable C = {
DEACTIVATED_GPU_FREQ /* 1536 (Disabled by default) */,
},
/* Advanced. */
.fineTune_t6_tRTW = 0,
.fineTune_t7_tWTR = 0,
/* You shouldn't have to anything past here. */
.eristaCpuDvfsTable = {
{ 204000, { 721094, }, { } },

46
Source/Atmosphere/stratosphere/loader/source/oc/customize.hpp
View File

@@ -20,20 +20,15 @@
#pragma once
#define CUST_REV 11
#define CUST_REV 1
#include "oc_common.hpp"
#include "pcv/pcv_common.hpp"
namespace ams::ldr::oc {
namespace ams::ldr::hoc {
#include "mtc_timing_table.hpp"
enum MtcConfig: u32 {
AUTO_ADJ = 0,
AUTO_ADJ_BL = 1,
};
enum TableConfig: u32 {
DEFAULT_TABLE = 1,
TBREAK_1581 = 2,
@@ -41,6 +36,33 @@ enum TableConfig: u32 {
EXTREME_TABLE = 4,
};
/*
* Read:
* 2133RL = 40
* 1866RL = 36
* 1600RL = 32
* 1331RL = 28
* Write:
* 2133WL = 18
* 1866WL = 16
* 1600WL = 14
* 1331WL = 12
*/
enum ReadLatency: u32 {
RL_2133 = 40,
RL_1866 = 36,
RL_1600 = 32,
RL_1331 = 28,
};
enum WriteLatency: u32 {
WL_2133 = 18,
WL_1866 = 16,
WL_1600 = 14,
WL_1331 = 12,
};
using CustomizeCpuDvfsTable = pcv::cvb_entry_t[pcv::DvfsTableEntryLimit];
using CustomizeGpuDvfsTable = pcv::cvb_entry_t[pcv::DvfsTableEntryLimit];
static_assert(sizeof(CustomizeCpuDvfsTable) == sizeof(CustomizeGpuDvfsTable));
@@ -53,16 +75,14 @@ typedef struct CustomizeTable {
u8 cust[4] = {'C', 'U', 'S', 'T'};
u32 custRev = CUST_REV;
u32 mtcConf;
u32 placeholder;
u32 hpMode;
u32 commonEmcMemVolt;
u32 eristaEmcMaxClock;
u32 marikoEmcMaxClock;
u32 marikoEmcVddqVolt;
u32 emcDvbShift;
// advanced config
u32 t1_tRCD;
u32 t2_tRP;
@@ -101,12 +121,16 @@ typedef struct CustomizeTable {
u32 commonGpuVoltOffset;
/* TODO: Automatically detect speedo. */
u32 gpuSpeedo;
u32 eristaGpuVoltArray[27];
u32 marikoGpuVoltArray[24];
u32 fineTune_t6_tRTW;
u32 fineTune_t7_tWTR;
u32 reserved[60];
CustomizeCpuDvfsTable eristaCpuDvfsTable;
CustomizeCpuDvfsTable eristaCpuDvfsTableSLT;

51
Source/Atmosphere/stratosphere/loader/source/oc/mariko/calculate_timings.cpp
View File

@@ -18,49 +18,16 @@
#include "../mtc_timing_value.hpp"
#include "timing_tables.hpp"
namespace ams::ldr::oc::pcv::mariko {
namespace ams::ldr::hoc::pcv::mariko {
u32 GetRext() {
void GetRext() {
if (auto r = FindRext()) {
return r->correct;
rext = r->rext;
return;
}
return 0x1A;
}
void CalculateTWTPDEN() {
tWTPDEN = tW2P + 1 + CEIL(tDQSS_max / tCK_avg) + CEIL(tDQS2DQ_max / tCK_avg) + 6;
if (C.marikoEmcMaxClock >= 2'233'000 && C.marikoEmcMaxClock < 2'533'000) tWTPDEN++;
if (C.marikoEmcMaxClock >= 2'433'000 && C.marikoEmcMaxClock < 2'800'000) tWTPDEN--;
}
void CalculateTR2W() {
tR2W = CEIL(RL_DBI + (tDQSCK_max / tCK_avg) + (BL / 2) - WL + tWPRE + FLOOR(tRPST) + 9.0) - (C.t6_tRTW * 3);
if (auto patch = FindTR2WPatch()) {
tR2W += patch->adjust;
}
}
void CalculatePdex2rw() {
double freq_mhz = C.marikoEmcMaxClock / 1000.0;
double pdex_local = (0.011 * freq_mhz) - 1.443;
pdex2rw = static_cast<u32>(ROUND(pdex_local));
if (pdex2rw < 22) pdex2rw = 22;
if (pdex2rw > 33) pdex2rw = 33;
if (auto patch = FindPdex2rwPatch()) {
pdex2rw += patch->adjust;
}
}
void CalculateCke2pden() {
cke2pden = (static_cast<double>((C.marikoEmcMaxClock / 1000.0) * 0.00875) - 0.65);
if (auto patch = FindCke2pdenPatch()) {
cke2pden += patch->adjust;
}
/* Fallback. */
rext = 0x1A;
}
void CalculateMrw2() {
@@ -93,11 +60,7 @@ namespace ams::ldr::oc::pcv::mariko {
}
void CalculateTimings() {
rext = GetRext();
CalculateTWTPDEN();
CalculateTR2W();
CalculatePdex2rw();
CalculateCke2pden();
GetRext();
CalculateMrw2();
}

2
Source/Atmosphere/stratosphere/loader/source/oc/mariko/calculate_timings.hpp
View File

@@ -16,7 +16,7 @@
#pragma once
namespace ams::ldr::oc::pcv::mariko {
namespace ams::ldr::hoc::pcv::mariko {
void CalculateTimings();

77
Source/Atmosphere/stratosphere/loader/source/oc/mariko/timing_tables.cpp
View File

@@ -17,7 +17,7 @@
#include "../mtc_timing_value.hpp"
#include "timing_tables.hpp"
namespace ams::ldr::oc::pcv::mariko {
namespace ams::ldr::hoc::pcv::mariko {
const ReplacePatch g_rext_table[] = {
{2'133'000, 0x1A}, {2'166'000, 0x19}, {2'200'000, 0x19},
@@ -36,78 +36,11 @@ namespace ams::ldr::oc::pcv::mariko {
const u32 g_rext_table_size = sizeof(g_rext_table) / sizeof(g_rext_table[0]);
const ReplacePatch *FindRext() {
for (u32 i = 0; i < g_rext_table_size; i++)
if (g_rext_table[i].freq == C.marikoEmcMaxClock)
for (u32 i = 0; i < g_rext_table_size; i++) {
if (g_rext_table[i].freq >= C.marikoEmcMaxClock) {
return &g_rext_table[i];
return nullptr;
}
const AdjustPatch g_tr2w_patches[] = {
{2'500'000, 1},
{2'533'000, 1},
{2'566'000, 1},
{2'866'000, -1},
{3'100'000, 1},
{3'133'000, 1},
};
const u32 g_tr2w_table_size = sizeof(g_tr2w_patches) / sizeof(g_tr2w_patches[0]);
const AdjustPatch *FindTR2WPatch() {
for (u32 i = 0; i < g_tr2w_table_size; i++)
if (g_tr2w_patches[i].freq == C.marikoEmcMaxClock)
return &g_tr2w_patches[i];
return nullptr;
}
const AdjustPatch g_pdex2rw_patches[] = {
{2'166'000, 1},
{2'300'000, 1},
{2'333'000, 1},
{2'433'000, 1},
{2'533'000, 0},
{2'633'000, -1},
{2'666'000, -1},
{2'733'000, -1},
{2'766'000, -1},
{2'800'000, -1},
{2'833'000, -1},
{2'933'000, -1},
{3'066'000, 1},
};
const u32 g_pdex2rw_table_size = sizeof(g_pdex2rw_patches) / sizeof(g_pdex2rw_patches[0]);
const AdjustPatch *FindPdex2rwPatch() {
for (u32 i = 0; i < g_pdex2rw_table_size; i++)
if (g_pdex2rw_patches[i].freq == C.marikoEmcMaxClock)
return &g_pdex2rw_patches[i];
return nullptr;
}
const AdjustPatch g_cke2pden_patches[] = {
{2'133'000, 1},
{2'166'000, 1},
{2'266'000, 1},
{2'300'000, 1},
{2'366'000, 1},
{2'400'000, 1},
{2'500'000, 1},
{2'633'000, 1},
{2'733'000, 1},
{2'833'000, 1},
{2'866'000, 1},
{2'966'000, 1},
{3'066'000, 1},
{3'100'000, 1},
};
const u32 g_cke2pden_table_size = sizeof(g_cke2pden_patches) / sizeof(g_cke2pden_patches[0]);
const AdjustPatch *FindCke2pdenPatch() {
for (u32 i = 0; i < g_cke2pden_table_size; i++)
if (g_cke2pden_patches[i].freq == C.marikoEmcMaxClock)
return &g_cke2pden_patches[i];
}
}
return nullptr;
}

21
Source/Atmosphere/stratosphere/loader/source/oc/mariko/timing_tables.hpp
View File

@@ -17,32 +17,15 @@
#pragma once
#include "../mtc_timing_value.hpp"
namespace ams::ldr::oc::pcv::mariko {
namespace ams::ldr::hoc::pcv::mariko {
struct ReplacePatch {
u32 freq;
u32 correct;
u32 rext;
};
extern const ReplacePatch g_rext_table[];
extern const u32 g_rext_table_size;
const ReplacePatch *FindRext();
struct AdjustPatch {
u32 freq;
s32 adjust;
};
extern const AdjustPatch g_tr2w_patches[];
extern const u32 g_tr2w_table_size;
const AdjustPatch *FindTR2WPatch();
extern const AdjustPatch g_pdex2rw_patches[];
extern const u32 g_pdex2rw_table_size;
const AdjustPatch *FindPdex2rwPatch();
extern const AdjustPatch g_cke2pden_patches[];
extern const u32 g_cke2pden_table_size;
const AdjustPatch *FindCke2pdenPatch();
}

110
Source/Atmosphere/stratosphere/loader/source/oc/mtc_timing_value.hpp
View File

@@ -20,20 +20,20 @@
#include "oc_common.hpp"
namespace ams::ldr::oc {
#define MAX(A, B) std::max(A, B)
#define MIN(A, B) std::min(A, B)
#define CEIL(A) std::ceil(A)
#define FLOOR(A) std::floor(A)
#define ROUND(A) std::lround(A)
namespace ams::ldr::hoc {
#define MAX(A, B) std::max(A, B)
#define MIN(A, B) std::min(A, B)
#define CEIL(A) std::ceil(A)
#define FLOOR(A) std::floor(A)
#define ROUND(A) std::lround(A)
#define PACK_U32(high, low) ((static_cast<u32>(high) << 16) | (static_cast<u32>(low) & 0xFFFF))
#define PACK_U32_NIBBLE_HIGH_BYTE_LOW(high, low) ((static_cast<u32>(high & 0xF) << 28) | (static_cast<u32>(low) & 0xFF))
/* Primary timings. */
const std::array<u32, 8> tRCD_values = { 18, 17, 16, 15, 14, 13, 12, 11 };
const std::array<u32, 8> tRP_values = { 18, 17, 16, 15, 14, 13, 12, 11 };
const std::array<u32, 10> tRAS_values = { 42, 36, 34, 32, 30, 28, 26, 24, 22, 20 };
const std::array<u32, 8> tRCD_values = { 18, 17, 16, 15, 14, 13, 12, 11 };
const std::array<u32, 8> tRP_values = { 18, 17, 16, 15, 14, 13, 12, 11 };
const std::array<u32, 10> tRAS_values = { 42, 36, 34, 32, 30, 28, 26, 24, 22, 20 };
const std::array<double, 7> tRRD_values = { /*10.0,*/ 7.5, 6.0, 5.0, 4.0, 3.0, 2.0, 1.0 }; /* 10.0 is used for <2133mhz; do we care? 8gb uses 7.5 tRRD on >=1331. */
const std::array<u32, 11> tRFC_values = { 140, 130, 120, 110, 100, 90, 80, 70, 60, 50, 40 };
const std::array<u32, 10> tWTR_values = { 10, 9, 8, 7, 6, 5, 4, 3, 2, 1 };
@@ -77,7 +77,49 @@ namespace ams::ldr::oc {
/* TOOD: Fix erista */
namespace pcv::erista {
const double tCK_avg = 1000'000.0 / C.eristaEmcMaxClock;
const u32 tRCD = tRCD_values[C.t1_tRCD];
const u32 tRPpb = tRP_values[C.t2_tRP];
const u32 tRAS = tRAS_values[C.t3_tRAS];
const double tRRD = tRRD_values[C.t4_tRRD];
const u32 tRFCpb = tRFC_values[C.t5_tRFC];
const u32 tWTR = 10 - tWTR_values[C.t7_tWTR];
const u32 tRC = tRAS + tRPpb;
const u32 tRFCab = tRFCpb * 2;
const double tXSR = (double) (tRFCab + 7.5);
const u32 tFAW = static_cast<u32>(tRRD * 4.0);
const double tRPab = tRPpb + 3;
const u32 tR2P = 12;
const u32 tW2P = (CEIL(WL * 1.7303) * 2) - 5;
const u32 tW2R = CEIL(MAX(WL + (0.010322547033278747 * (C.eristaEmcMaxClock / 1000.0)), (WL * -0.2067922202979121) + FLOOR(((RL_DBI * -0.1331159971685554) + WL) * 3.654131957826108)) - (tWTR / tCK_avg));
const u32 wdv = WL;
const u32 wsv = WL - 2;
const u32 wev = 0xA + (WL - 14);
const double freq_mhz = C.eristaEmcMaxClock / 1000.0;
const u32 quse_width = CEIL(((3.7165006256863955 - freq_mhz) + (-0.002446584377651142 * freq_mhz)) - FLOOR(freq_mhz / -0.9952024303111688));
const u32 quse = CEIL(MIN(RL_DBI + (2.991255208275918 - (quse_width + (-0.00511180626826906 * freq_mhz))), freq_mhz * 0.021333773138874437));
const u32 ibdly = 0x10000000 + FLOOR(MAX(RL_DBI - 1.9999956603408224, quse - 5.9999987787411175) + (-0.0011929079761504341 * freq_mhz));
const u32 obdlyHigh = 3 / FLOOR(MIN(static_cast<double>(2), tCK_avg * (WL - 7)));
const u32 obdlyLow = WL - MIN(static_cast<double>(WL), 12 - (CEIL(-0.0003991 * freq_mhz) * 2));
const u32 obdly = PACK_U32_NIBBLE_HIGH_BYTE_LOW(obdlyHigh, obdlyLow);
const u32 tCKE = CEIL(1.0795 * CEIL(0.0074472 * (C.eristaEmcMaxClock / 1000.0)));
const double tMMRI = tRCD + (tCK_avg * 3);
const double pdex2mrr = tMMRI + 10;
const u32 tWTPDEN = tW2P + 1 + CEIL(tDQSS_max / tCK_avg) + CEIL(tDQS2DQ_max / tCK_avg) + 6;
const u32 tR2W = CEIL(RL_DBI + (tDQSCK_max / tCK_avg) + (BL / 2) - WL + tWPRE + FLOOR(tRPST) + 9.0) - (C.t6_tRTW * 3);
const double pdex_local = (0.011 * freq_mhz) - 1.443;
const u32 pdex2rw = static_cast<u32>(ROUND(pdex_local)) < 22 ? 22 : (static_cast<u32>(ROUND(pdex_local)) > 33 ? 33 : static_cast<u32>(ROUND(pdex_local)));
const double cke2pden = (static_cast<double>((C.eristaEmcMaxClock / 1000.0) * 0.00875) - 0.65);
}
namespace pcv::mariko {
@@ -90,6 +132,8 @@ namespace ams::ldr::oc {
const double tRRD = tRRD_values[C.t4_tRRD];
const u32 tRFCpb = tRFC_values[C.t5_tRFC];
const u32 tWTR = 10 - tWTR_values[C.t7_tWTR];
const s32 finetRTW = C.fineTune_t6_tRTW;
const s32 finetWTR = C.fineTune_t7_tWTR;
const u32 tRC = tRAS + tRPpb;
const u32 tRFCab = tRFCpb * 2;
@@ -97,43 +141,41 @@ namespace ams::ldr::oc {
const u32 tFAW = static_cast<u32>(tRRD * 4.0);
const double tRPab = tRPpb + 3;
const u32 tR2P = 12 + ((RL_DBI - 32) / 2);
inline u32 tR2W;
const u32 tRTM = RL + 9 + (tDQSCK_max / tCK_avg) + FLOOR(tRPST) + CEIL(10 / tCK_avg); // Fix?
const u32 tRATM = tRTM + CEIL(10 / tCK_avg) - 12; // Fix?
const u32 tR2P = CEIL((RL_DBI * 0.426) - 2.0);
const u32 tR2W = FLOOR(FLOOR((5.0 / tCK_avg) + ((FLOOR(48.0 / WL) - 0.478) * 3.0)) / 1.501) + RL_DBI - (C.t6_tRTW * 3) + finetRTW;
const u32 tRTM = FLOOR((10.0 + RL_DBI) + (3.502 / tCK_avg)) + FLOOR(7.489 / tCK_avg);
const u32 tRATM = CEIL((tRTM - 10.0) + (RL_DBI * 0.426));
inline u32 rext;
const u32 rdv = FLOOR(17.02046755653219 + (RL_DBI + (ramFreqMhz * 0.00510056573299173)));
const u32 qpop = rdv - 14;
const u32 quse_width = CEIL(((3.7165006256863955 - ramFreqMhz) + (-0.002446584377651142 * ramFreqMhz)) - FLOOR(ramFreqMhz / -0.9952024303111688));
const u32 quse = CEIL(MIN(RL_DBI + (2.991255208275918 - (quse_width + (-0.00511180626826906 * ramFreqMhz))), ramFreqMhz * 0.021333773138874437));
const u32 einput_duration = CEIL(quse_width + (ramFreqMhz * 0.01) + 4);
const u32 einput = 5 + qpop - einput_duration;
const u32 ibdly = 0x10000000 + FLOOR(MAX(RL_DBI - 1.9999956603408224, quse - 5.9999987787411175) + (-0.0011929079761504341 * ramFreqMhz));
const u32 qrst_duration = FLOOR((ramFreqMhz * 0.001477125119082522) + 4.272302254983803);
const u32 qrstLow = MAX(static_cast<s32>(einput - qrst_duration - 2), static_cast<s32>(0));
const u32 qrst = PACK_U32(qrst_duration, qrstLow);
const u32 qsafe = (einput_duration + 3) + MAX(MIN(qrstLow * rdv, qrst_duration + qrst_duration), einput);
const u32 tW2P = (CEIL(WL * 1.7303) * 2) - 5;
inline u32 tWTPDEN;
const u32 tW2R = CEIL(MAX(WL + (0.010322547033278747 * ramFreqMhz), (WL * -0.2067922202979121) + FLOOR(((RL_DBI * -0.1331159971685554) + WL) * 3.654131957826108)) - (tWTR / tCK_avg));
const u32 tWTM = WL + (BL / 2) + 1 + CEIL(7.5 / tCK_avg);
const u32 tWATM = tWTM + CEIL(tWR / tCK_avg);
const u32 rdv = RL_DBI + FLOOR((5.105 / tCK_avg) + 17.017);
const u32 qpop = rdv - 14;
const u32 quse_width = CEIL(((4.897 / tCK_avg) - FLOOR(2.538 / tCK_avg)) + 3.782);
const u32 quse = FLOOR(RL_DBI + ((5.082 / tCK_avg) + FLOOR(2.560 / tCK_avg))) - CEIL(4.820 / tCK_avg);
const u32 einput_duration = FLOOR(9.936 / tCK_avg) + 5.0 + quse_width;
const u32 einput = quse - CEIL(9.928 / tCK_avg);
const u32 qrst_duration = FLOOR(8.399 - tCK_avg);
const u32 qrstLow = MAX(static_cast<s32>(einput - qrst_duration - 2), static_cast<s32>(0));
const u32 qrst = PACK_U32(qrst_duration, qrstLow);
const u32 ibdly = PACK_U32_NIBBLE_HIGH_BYTE_LOW(1, quse - qrst_duration - 2.0);
const u32 qsafe = (einput_duration + 3) + MAX(MIN(qrstLow * rdv, qrst_duration + qrst_duration), einput);
const u32 tW2P = (CEIL(WL * 1.7303) * 2) - 5;
const u32 tWTPDEN = CEIL(((1.803 / tCK_avg) + MAX(RL_DBI + (2.694 / tCK_avg), static_cast<double>(tW2P))) + (BL / 2));
const u32 tW2R = FLOOR(MAX((5.020 / tCK_avg) + 1.130, WL - MAX(-CEIL(0.258 * (WL - RL_DBI)), 1.964)) * 1.964) + WL - CEIL(tWTR / tCK_avg) + finetWTR;
const u32 tWTM = CEIL(WL + ((7.570 / tCK_avg) + 8.753));
const u32 tWATM = (tWTM + (FLOOR(WL / 0.816) * 2.0)) - 4.0;
const u32 wdv = WL;
const u32 wsv = WL - 2;
const u32 wev = 0xA + (WL - 14);
const u32 obdlyHigh = 3 / FLOOR(MIN(static_cast<double>(2), tCK_avg * (WL - 7)));
const u32 obdlyLow = WL - MIN(static_cast<double>(WL), 12 - (CEIL(-0.0003991 * ramFreqMhz) * 2));
const u32 obdlyLow = MAX(WL - FLOOR((126.0 / CEIL(tCK_avg + 8.601))), 0.0);
const u32 obdly = PACK_U32_NIBBLE_HIGH_BYTE_LOW(obdlyHigh, obdlyLow);
inline u32 pdex2rw;
inline u32 cke2pden;
const u32 pdex2rw = CEIL((CEIL(12.335 - tCK_avg) + (7.430 / tCK_avg) - CEIL(tCK_avg * 11.361)));
const u32 tCKE = CEIL(1.0795 * CEIL(0.0074472 * ramFreqMhz));
const u32 tCLKSTOP = FLOOR(MIN(8.488 / tCK_avg, 23.0)) + 8.0;
const double tMMRI = tRCD + (tCK_avg * 3);
const double pdex2mrr = tMMRI + 10; /* Do this properly? */

2
Source/Atmosphere/stratosphere/loader/source/oc/oc_common.hpp
View File

@@ -52,7 +52,7 @@ namespace ams::ldr {
R_DEFINE_ERROR_RESULT(SafetyCheckFailure, 1015);
}
namespace ams::ldr::oc {
namespace ams::ldr::hoc {
template<typename Pointer>
struct PatcherEntry {
using patternFn = bool(*)(Pointer* ptr);

28
Source/Atmosphere/stratosphere/loader/source/oc/oc_test.cpp
View File

@@ -65,7 +65,7 @@ void saveExec(const char* file_loc, const void* buf, size_t size) {
}
Result Test_PcvDvfsTable() {
using namespace ams::ldr::oc::pcv;
using namespace ams::ldr::hoc::pcv;
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&mariko::CpuCvbTableDefault)) == 18);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&erista::CpuCvbTableDefault)) == 16);
@@ -76,19 +76,19 @@ Result Test_PcvDvfsTable() {
cvb_entry_t last_mariko_cpu_cvb_entry_default = { 1963500, { 1675751, -38635, 27 }, { 1120000 } };
assert(memcmp(GetDvfsTableLastEntry((cvb_entry_t *)(&mariko::CpuCvbTableDefault)), (void *)&last_mariko_cpu_cvb_entry_default, sizeof(last_mariko_cpu_cvb_entry_default)) == 0);
assert(GetDvfsTableLastEntry((cvb_entry_t *)(&erista::GpuCvbTableDefault))->freq == 921600);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::oc::C.marikoCpuDvfsTableSLT)) == 25);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::hoc::C.marikoCpuDvfsTableSLT)) == 25);
// Customized table default
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::oc::C.eristaCpuDvfsTable)) == 19);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::oc::C.marikoCpuDvfsTable)) == 21);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::oc::C.marikoCpuDvfsTableSLT)) == 22);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::hoc::C.eristaCpuDvfsTable)) == 19);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::hoc::C.marikoCpuDvfsTable)) == 21);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::hoc::C.marikoCpuDvfsTableSLT)) == 22);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::oc::C.eristaGpuDvfsTable)) == 12);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::oc::C.marikoGpuDvfsTable)) == 17);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::oc::C.marikoGpuDvfsTableSLT)) == 17);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::oc::C.marikoGpuDvfsTableHiOPT)) == 17);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::hoc::C.eristaGpuDvfsTable)) == 12);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::hoc::C.marikoGpuDvfsTable)) == 17);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::hoc::C.marikoGpuDvfsTableSLT)) == 17);
assert(GetDvfsTableEntryCount((cvb_entry_t *)(&ams::ldr::hoc::C.marikoGpuDvfsTableHiOPT)) == 17);
constexpr size_t limit = ams::ldr::oc::pcv::DvfsTableEntryLimit;
constexpr size_t limit = ams::ldr::hoc::pcv::DvfsTableEntryLimit;
cvb_entry_t customized_table[limit] = {};
for (size_t i = 0; i < limit; i++) {
assert(GetDvfsTableEntryCount(customized_table) == i);
@@ -156,14 +156,14 @@ int main(int argc, char** argv) {
size_t exec_path_patched_len = exec_path_len + std::max(strlen(mariko_ext), strlen(erista_ext)) + 1;
if (exe_opt == EXE_PCV) {
ams::ldr::oc::pcv::SafetyCheck();
ams::ldr::hoc::pcv::SafetyCheck();
{
void* erista_buf = malloc(file_size);
std::memcpy(erista_buf, file_buffer, file_size);
printf("Patching %s for Erista...\n", pcv_opt);
ams::ldr::oc::pcv::erista::Patch(reinterpret_cast<uintptr_t>(erista_buf), file_size);
ams::ldr::hoc::pcv::erista::Patch(reinterpret_cast<uintptr_t>(erista_buf), file_size);
if (save_patched) {
char* exec_path_erista = reinterpret_cast<char *>(malloc(exec_path_patched_len));
strncpy(exec_path_erista, exec_path, exec_path_patched_len);
@@ -179,7 +179,7 @@ int main(int argc, char** argv) {
std::memcpy(mariko_buf, file_buffer, file_size);
printf("Patching %s for Mariko...\n", pcv_opt);
ams::ldr::oc::pcv::mariko::Patch(reinterpret_cast<uintptr_t>(mariko_buf), file_size);
ams::ldr::hoc::pcv::mariko::Patch(reinterpret_cast<uintptr_t>(mariko_buf), file_size);
if (save_patched) {
char* exec_path_mariko = reinterpret_cast<char *>(malloc(exec_path_patched_len));
strncpy(exec_path_mariko, exec_path, exec_path_patched_len);
@@ -196,7 +196,7 @@ int main(int argc, char** argv) {
std::memcpy(mariko_buf, file_buffer, file_size);
printf("Patching %s (Mariko Only)...\n", ptm_opt);
ams::ldr::oc::ptm::Patch(reinterpret_cast<uintptr_t>(mariko_buf), file_size);
ams::ldr::hoc::ptm::Patch(reinterpret_cast<uintptr_t>(mariko_buf), file_size);
if (save_patched) {
char* exec_path_mariko = reinterpret_cast<char *>(malloc(exec_path_patched_len));
strncpy(exec_path_mariko, exec_path, exec_path_patched_len);

2
Source/Atmosphere/stratosphere/loader/source/oc/pcv/pcv.cpp
View File

@@ -20,7 +20,7 @@
#include "pcv.hpp"
namespace ams::ldr::oc::pcv {
namespace ams::ldr::hoc::pcv {
Result MemFreqPllmLimit(u32* ptr) {
clk_pll_param* entry = reinterpret_cast<clk_pll_param *>(ptr);

2
Source/Atmosphere/stratosphere/loader/source/oc/pcv/pcv.hpp
View File

@@ -23,7 +23,7 @@
#include "../oc_common.hpp"
#include "pcv_common.hpp"
namespace ams::ldr::oc::pcv {
namespace ams::ldr::hoc::pcv {
namespace mariko {
constexpr cvb_entry_t CpuCvbTableDefault[] = {

2
Source/Atmosphere/stratosphere/loader/source/oc/pcv/pcv_common.hpp
View File

@@ -18,7 +18,7 @@
#pragma once
namespace ams::ldr::oc::pcv {
namespace ams::ldr::hoc::pcv {
typedef struct cvb_coefficients {
s32 c0 = 0;

358
Source/Atmosphere/stratosphere/loader/source/oc/pcv/pcv_erista.cpp
View File

@@ -21,7 +21,7 @@
#include "pcv.hpp"
#include "../mtc_timing_value.hpp"
namespace ams::ldr::oc::pcv::erista {
namespace ams::ldr::hoc::pcv::erista {
Result CpuVoltDvfs(u32 *ptr) {
if (MatchesPattern(ptr, cpuVoltDvfsPattern, cpuVoltDvfsOffsets)) {
@@ -66,10 +66,10 @@ namespace ams::ldr::oc::pcv::erista {
Result CpuVoltDfll(u32* ptr) {
cvb_cpu_dfll_data *entry = reinterpret_cast<cvb_cpu_dfll_data *>(ptr);
R_UNLESS(entry->tune0_low == 0x0000FFCF, ldr::ResultInvalidCpuVoltDfllEntry());
R_UNLESS(entry->tune0_high == 0x00000000, ldr::ResultInvalidCpuVoltDfllEntry());
R_UNLESS(entry->tune1_low == 0x012207FF, ldr::ResultInvalidCpuVoltDfllEntry());
R_UNLESS(entry->tune1_high == 0x03FFF7FF, ldr::ResultInvalidCpuVoltDfllEntry());
R_UNLESS(entry->tune0_low == 0xFFEAD0FF, ldr::ResultInvalidCpuVoltDfllEntry());
R_UNLESS(entry->tune0_high == 0x0, ldr::ResultInvalidCpuVoltDfllEntry());
R_UNLESS(entry->tune1_low == 0x0, ldr::ResultInvalidCpuVoltDfllEntry());
R_UNLESS(entry->tune1_high == 0x0, ldr::ResultInvalidCpuVoltDfllEntry());
if( !C.eristaCpuUV) {
R_SKIP();
@@ -493,206 +493,154 @@ namespace ams::ldr::oc::pcv::erista {
/* These timings are slightly off from eos, I am not sure why but I am going to figure it out at some point. */
void MemMtcTableAutoAdjust(EristaMtcTable *table) {
(void) table;
// using namespace pcv::erista;
//
/* #define WRITE_PARAM_ALL_REG(TABLE, PARAM, VALUE) // note: add backslashes to make the macro definition work
TABLE->burst_regs.PARAM = VALUE; \
TABLE->shadow_regs_ca_train.PARAM = VALUE; \
TABLE->shadow_regs_quse_train.PARAM = VALUE; \
#define WRITE_PARAM_ALL_REG(TABLE, PARAM, VALUE) \
TABLE->burst_regs.PARAM = VALUE; \
TABLE->shadow_regs_ca_train.PARAM = VALUE; \
TABLE->shadow_regs_rdwr_train.PARAM = VALUE;
*/
// #define GET_CYCLE(PARAM) ((u32)((double)(PARAM) / (1000000.0 / 1600000.0)))
//
// /* This condition is insane but it's done in eos. */
// /* Need to clean up at some point. */
// u32 rext;
// u32 wext;
// if (C.eristaEmcMaxClock < 3200001) {
// if (C.eristaEmcMaxClock < 2133001) {
// rext = 26;
// wext = 22;
// } else {
// rext = 28;
// wext = 22;
//
// if (2400000 < C.eristaEmcMaxClock) {
// wext = 25;
// }
// }
// } else {
// rext = 30;
// wext = 25;
// }
//
// u32 refresh_raw = 0xFFFF;
// u32 trefbw = 0;
//
// if (C.t8_tREFI != 6) {
// refresh_raw = static_cast<u32>(std::floor(static_cast<double>(tREFpb_values[C.t8_tREFI]) / tCK_avg)) - 0x40;
// refresh_raw = MIN(refresh_raw, static_cast<u32>(0xFFFF));
// }
//
// trefbw = refresh_raw + 0x40;
// trefbw = MIN(trefbw, static_cast<u32>(0x3FFF));
//
// /* Primary timings. */
// WRITE_PARAM_ALL_REG(table, emc_rd_rcd, GET_CYCLE(tRCD));
// WRITE_PARAM_ALL_REG(table, emc_wr_rcd, GET_CYCLE(tRCD));
// WRITE_PARAM_ALL_REG(table, emc_ras, GET_CYCLE(tRAS));
// WRITE_PARAM_ALL_REG(table, emc_rp, GET_CYCLE(tRPpb));
//
// /* Secondary timings. */
// WRITE_PARAM_ALL_REG(table, emc_rrd, GET_CYCLE(tRRD));
// WRITE_PARAM_ALL_REG(table, emc_rfc, GET_CYCLE(tRFCab));
// WRITE_PARAM_ALL_REG(table, emc_rfcpb, GET_CYCLE(tRFCpb));
// WRITE_PARAM_ALL_REG(table, emc_r2w, tR2W);
// WRITE_PARAM_ALL_REG(table, emc_w2r, tW2R);
// WRITE_PARAM_ALL_REG(table, emc_r2p, (u32) 0xC);
// WRITE_PARAM_ALL_REG(table, emc_w2p, (u32) 0x2D);
//
// WRITE_PARAM_ALL_REG(table, emc_rext, rext);
// WRITE_PARAM_ALL_REG(table, emc_wext, wext);
//
// WRITE_PARAM_ALL_REG(table, emc_trpab, GET_CYCLE(tRPab));
// WRITE_PARAM_ALL_REG(table, emc_tfaw, GET_CYCLE(tFAW));
// WRITE_PARAM_ALL_REG(table, emc_rc, GET_CYCLE(tRC));
//
// WRITE_PARAM_ALL_REG(table, emc_tckesr, GET_CYCLE(tSR));
// WRITE_PARAM_ALL_REG(table, emc_tcke, GET_CYCLE(tXP) + 1);
// WRITE_PARAM_ALL_REG(table, emc_tpd, GET_CYCLE(tXP));
// WRITE_PARAM_ALL_REG(table, emc_tclkstop, GET_CYCLE(tXP) + 8);
//
// WRITE_PARAM_ALL_REG(table, emc_txsr, MIN(GET_CYCLE(tXSR), (u32) 1022));
// WRITE_PARAM_ALL_REG(table, emc_txsrdll, MIN(GET_CYCLE(tXSR), (u32) 1022));
//
// const u32 dyn_self_ref_control = (((u32)(7605.0 / tCK_avg)) + 260U) | (table->burst_regs.emc_dyn_self_ref_control & 0xffff0000U);
// WRITE_PARAM_ALL_REG(table, emc_dyn_self_ref_control, dyn_self_ref_control);
//
// WRITE_PARAM_ALL_REG(table, emc_rw2pden, tRW2PDEN);
// WRITE_PARAM_ALL_REG(table, emc_pdex2wr, GET_CYCLE(10.0));
// WRITE_PARAM_ALL_REG(table, emc_pdex2rd, GET_CYCLE(10.0));
//
// WRITE_PARAM_ALL_REG(table, emc_pchg2pden, GET_CYCLE(1.75));
// WRITE_PARAM_ALL_REG(table, emc_ar2pden, GET_CYCLE(1.75));
// WRITE_PARAM_ALL_REG(table, emc_pdex2cke, GET_CYCLE(1.75));
// WRITE_PARAM_ALL_REG(table, emc_act2pden, GET_CYCLE(14.0));
// WRITE_PARAM_ALL_REG(table, emc_cke2pden, GET_CYCLE(5.0));
// WRITE_PARAM_ALL_REG(table, emc_pdex2mrr, GET_CYCLE(pdex2mrr));
//
// WRITE_PARAM_ALL_REG(table, emc_refresh, refresh_raw);
// WRITE_PARAM_ALL_REG(table, emc_pre_refresh_req_cnt, (u32) (refresh_raw / 4));
// WRITE_PARAM_ALL_REG(table, emc_trefbw, trefbw);
//
// const u32 mc_tRCD = (int)((double)(GET_CYCLE(tRCD) >> 2) - 2.0);
// const u32 mc_tRPpb = (int)(((double)(GET_CYCLE(tRPpb) >> 2) - 1.0) + 2.0);
// const u32 mc_tRC = (uint)((double)(GET_CYCLE(tRC) >> 2) - 1.0);
// const u32 mc_tR2W = (uint)(((double)((uint)tR2W >> 2) - 1.0) + 2.0);
// const u32 mc_tW2R = (uint)(((double)(tW2R >> 2) - 1.0) + 2.0);
// const u32 mc_tRAS = MIN(GET_CYCLE(tRAS), (u32) 0x7F);
// const u32 mc_tRRD = MIN(GET_CYCLE(tRRD), (u32) 31);
//
// table->burst_mc_regs.mc_emem_arb_cfg = (int)(((double) C.eristaEmcMaxClock / 33300.0) * 0.25);
// table->burst_mc_regs.mc_emem_arb_timing_ras = (int) ((double) (mc_tRAS >> 2) - 2.0);
// table->burst_mc_regs.mc_emem_arb_timing_rcd = (int) ((double) (GET_CYCLE(tRCD) >> 2) - 2.0);
// table->burst_mc_regs.mc_emem_arb_timing_rp = (int) (((double) (GET_CYCLE(tRPpb) >> 2) - 1.0) + 2.0);
// table->burst_mc_regs.mc_emem_arb_timing_rc = (int) ((double) (GET_CYCLE(tRC) >> 2) - 1.0);
// table->burst_mc_regs.mc_emem_arb_timing_faw = (int) ((double)(GET_CYCLE(tFAW) >> 2) - 1.0);
// table->burst_mc_regs.mc_emem_arb_timing_rrd = (int)((double)(mc_tRRD >> 2) - 1.0);
// table->burst_mc_regs.mc_emem_arb_timing_rap2pre = 3;
// table->burst_mc_regs.mc_emem_arb_timing_wap2pre = 11;
// table->burst_mc_regs.mc_emem_arb_timing_r2w = (uint)(((double)((uint)tR2W >> 2) - 1.0) + 2.0);
// table->burst_mc_regs.mc_emem_arb_timing_w2r = (uint)(((double)(tW2R >> 2) - 1.0) + 2.0);
//
// u32 mc_r2r = table->burst_mc_regs.mc_emem_arb_timing_r2r;
// if (mc_r2r > 1) {
// mc_r2r = (uint)(((double)(long)((double)rext * 0.25) - 1.0) + 2.0);
// table->burst_mc_regs.mc_emem_arb_timing_r2r = mc_r2r;
// }
//
// u32 mc_w2w = table->burst_mc_regs.mc_emem_arb_timing_w2w;
// if (mc_w2w > 1) {
// mc_w2w = (uint)(((double)(long)((double)wext / 4.0) - 1.0) + 2.0);
// table->burst_mc_regs.mc_emem_arb_timing_w2w = mc_w2w;
// }
//
// table->burst_mc_regs.mc_emem_arb_da_turns = ((mc_tW2R >> 1) << 0x18) | ((mc_tR2W >> 1) << 0x10) | ((mc_r2r >> 1) << 8) | ((mc_w2w >> 1));
// table->burst_mc_regs.mc_emem_arb_da_covers = (((uint)(mc_tRCD + 3 + mc_tRPpb) >> 1 & 0xff) << 8) | (((uint)(mc_tRCD + 11 + mc_tRPpb) >> 1 & 0xff) << 0x10) | ((mc_tRC >> 1) & 0xff);
// table->burst_mc_regs.mc_emem_arb_misc0 = (table->burst_mc_regs.mc_emem_arb_misc0 & 0xffe08000U) | ((mc_tRC + 1) & 0xff);
// table->la_scale_regs.mc_mll_mpcorer_ptsa_rate = MIN((u32)((C.eristaEmcMaxClock / 1600000) * 0xd0U), (u32)0x115);
// table->la_scale_regs.mc_ftop_ptsa_rate = MIN((u32)((C.eristaEmcMaxClock / 1600000) * 0x18U), (u32)0x1f);
// table->la_scale_regs.mc_ptsa_grant_decrement = MIN((u32)((C.eristaEmcMaxClock / 1600000) * 0x1203U), (u32)0x17ff);
//
// u32 mc_latency_allowance = 0;
// if (C.eristaEmcMaxClock / 1000 != 0) {
// mc_latency_allowance = 204800 / (C.eristaEmcMaxClock / 1000);
// }
//
// const u32 mc_latency_allowance2 = mc_latency_allowance & 0xFF;
// const u32 mc_latency_allowance3 = (mc_latency_allowance & 0xFF) << 0x10;
// table->la_scale_regs.mc_latency_allowance_xusb_0 = (table->la_scale_regs.mc_latency_allowance_xusb_0 & 0xff00ffffU) | mc_latency_allowance3;
// table->la_scale_regs.mc_latency_allowance_sdmmc_0 = (table->la_scale_regs.mc_latency_allowance_sdmmc_0 & 0xff00ffffU) | mc_latency_allowance3;
// table->la_scale_regs.mc_latency_allowance_xusb_1 = (table->la_scale_regs.mc_latency_allowance_xusb_1 & 0xff00ffffU) | mc_latency_allowance3;
// table->la_scale_regs.mc_latency_allowance_tsec_0 = (table->la_scale_regs.mc_latency_allowance_tsec_0 & 0xff00ffffU) | mc_latency_allowance3;
// table->la_scale_regs.mc_latency_allowance_sdmmca_0 = (table->la_scale_regs.mc_latency_allowance_sdmmca_0 & 0xff00ffffU) | mc_latency_allowance3;
// table->la_scale_regs.mc_latency_allowance_sdmmcaa_0 = (table->la_scale_regs.mc_latency_allowance_sdmmcaa_0 & 0xff00ffffU) | mc_latency_allowance3;
// table->la_scale_regs.mc_latency_allowance_sdmmcab_0 = (table->la_scale_regs.mc_latency_allowance_sdmmcab_0 & 0xff00ffffU) | mc_latency_allowance3;
// table->la_scale_regs.mc_latency_allowance_ppcs_1 = (table->la_scale_regs.mc_latency_allowance_ppcs_1 & 0xff00ffffU) | mc_latency_allowance3;
// table->la_scale_regs.mc_latency_allowance_mpcore_0 = (table->la_scale_regs.mc_latency_allowance_mpcore_0 & 0xff00ffffU) | mc_latency_allowance3;
// table->la_scale_regs.mc_latency_allowance_avpc_0 = (table->la_scale_regs.mc_latency_allowance_avpc_0 & 0xff00ffffU) | mc_latency_allowance3;
//
// u32 mc_latency_allowance_hc_0 = 0;
// if (C.eristaEmcMaxClock / 1000 != 0) {
// mc_latency_allowance_hc_0 = 35200 / (C.eristaEmcMaxClock / 1000);
// }
//
// table->la_scale_regs.mc_latency_allowance_nvdec_0 = (table->la_scale_regs.mc_latency_allowance_nvdec_0 & 0xff00ffffU) | mc_latency_allowance3;
// table->la_scale_regs.mc_latency_allowance_hc_0 = (table->la_scale_regs.mc_latency_allowance_hc_0 & 0xffffff00U) | mc_latency_allowance_hc_0;
//
// table->la_scale_regs.mc_latency_allowance_isp2_1 = (table->la_scale_regs.mc_latency_allowance_isp2_1 & 0xff00ff00U) | mc_latency_allowance3 | mc_latency_allowance2;
// table->la_scale_regs.mc_latency_allowance_hc_1 = (table->la_scale_regs.mc_latency_allowance_hc_1 & 0xffffff00U) | mc_latency_allowance2;
//
// u32 mc_latency_allowance_gpu_0 = 0;
// if (C.eristaEmcMaxClock / 1000 != 0) {
// mc_latency_allowance_gpu_0 = 40000 / (C.eristaEmcMaxClock / 1000);
// }
//
// table->la_scale_regs.mc_latency_allowance_gpu_0 = ((mc_latency_allowance_gpu_0 | table->la_scale_regs.mc_latency_allowance_gpu_0) & 0xff00ff00U) | mc_latency_allowance3;
//
// u32 mc_latency_allowance_gpu2_0 = 0;
// if (C.eristaEmcMaxClock / 1000 != 0) {
// mc_latency_allowance_gpu2_0 = 40000 / (C.eristaEmcMaxClock / 1000);
// }
//
// table->la_scale_regs.mc_latency_allowance_gpu2_0 = ((mc_latency_allowance_gpu2_0 | table->la_scale_regs.mc_latency_allowance_gpu2_0) & 0xff00ff00U) | mc_latency_allowance3;
//
// u32 mc_latency_allowance_nvenc_0 = 0;
// if (C.eristaEmcMaxClock / 1000 != 0) {
// mc_latency_allowance_nvenc_0 = 38400 / (C.eristaEmcMaxClock / 1000);
// }
//
// table->la_scale_regs.mc_latency_allowance_nvenc_0 = ((mc_latency_allowance_nvenc_0 | table->la_scale_regs.mc_latency_allowance_nvenc_0) & 0xff00ff00U) | mc_latency_allowance3;
//
// u32 mc_latency_allowance_vic_0 = 0;
// if (C.eristaEmcMaxClock / 1000 != 0) {
// mc_latency_allowance_vic_0 = 0xb540 / (C.eristaEmcMaxClock / 1000);
// }
//
// table->la_scale_regs.mc_latency_allowance_vic_0 = ((mc_latency_allowance_vic_0 | table->la_scale_regs.mc_latency_allowance_vic_0) & 0xff00ff00U) | mc_latency_allowance3;
// table->la_scale_regs.mc_latency_allowance_vi2_0 = (table->la_scale_regs.mc_latency_allowance_vi2_0 & 0xffffff00U) | mc_latency_allowance2;
//
// table->burst_mc_regs.mc_emem_arb_timing_rfcpb = GET_CYCLE(tRFCpb) >> 2;
//
// if (C.hpMode) {
// WRITE_PARAM_ALL_REG(table, emc_cfg, 0x13200000);
// }
//
// table->dram_timings.t_rp = tRFCpb;
// table->dram_timings.t_rfc = tRFCab;
// table->emc_cfg_2 = 0x11083d;
// #undef GET_CYCLE
}
#define GET_CYCLE_CEIL(PARAM) u32(CEIL(double(PARAM) / tCK_avg))
/* Ram power down */
/* B31: DRAM_CLKSTOP_PD */
/* B30: DRAM_CLKSTOP_SR */
/* B29: DRAM_ACPD */
if (C.hpMode) {
WRITE_PARAM_ALL_REG(table, emc_cfg, 0x13200000);
} else {
WRITE_PARAM_ALL_REG(table, emc_cfg, 0xF3200000);
}
u32 refresh_raw = 0xFFFF;
if (C.t8_tREFI != 6) {
refresh_raw = CEIL(tREFpb_values[C.t8_tREFI] / tCK_avg) - 0x40;
refresh_raw = MIN(refresh_raw, static_cast<u32>(0xFFFF));
}
u32 trefbw = refresh_raw + 0x40;
trefbw = MIN(trefbw, static_cast<u32>(0x3FFF));
WRITE_PARAM_ALL_REG(table, emc_rd_rcd, GET_CYCLE_CEIL(tRCD));
WRITE_PARAM_ALL_REG(table, emc_wr_rcd, GET_CYCLE_CEIL(tRCD));
WRITE_PARAM_ALL_REG(table, emc_rc, MIN(GET_CYCLE_CEIL(tRC), static_cast<u32>(0xB8)));
WRITE_PARAM_ALL_REG(table, emc_ras, MIN(GET_CYCLE_CEIL(tRAS), static_cast<u32>(0x7F)));
WRITE_PARAM_ALL_REG(table, emc_rrd, GET_CYCLE_CEIL(tRRD));
WRITE_PARAM_ALL_REG(table, emc_rfcpb, GET_CYCLE_CEIL(tRFCpb));
WRITE_PARAM_ALL_REG(table, emc_rfc, GET_CYCLE_CEIL(tRFCab));
WRITE_PARAM_ALL_REG(table, emc_rp, GET_CYCLE_CEIL(tRPpb));
WRITE_PARAM_ALL_REG(table, emc_txsr, MIN(GET_CYCLE_CEIL(tXSR), static_cast<u32>(0x3fe)));
WRITE_PARAM_ALL_REG(table, emc_txsrdll, MIN(GET_CYCLE_CEIL(tXSR), static_cast<u32>(0x3fe)));
WRITE_PARAM_ALL_REG(table, emc_tfaw, GET_CYCLE_CEIL(tFAW));
WRITE_PARAM_ALL_REG(table, emc_trpab, MIN(GET_CYCLE_CEIL(tRPab), static_cast<u32>(0x3F)));
WRITE_PARAM_ALL_REG(table, emc_tckesr, GET_CYCLE_CEIL(tSR));
WRITE_PARAM_ALL_REG(table, emc_tcke, tCKE);
WRITE_PARAM_ALL_REG(table, emc_tpd, GET_CYCLE_CEIL(tXP));
WRITE_PARAM_ALL_REG(table, emc_tclkstop, GET_CYCLE_CEIL(tXP) + 8);
WRITE_PARAM_ALL_REG(table, emc_r2p, tR2P);
WRITE_PARAM_ALL_REG(table, emc_r2w, tR2W);
WRITE_PARAM_ALL_REG(table, emc_w2p, tW2P);
WRITE_PARAM_ALL_REG(table, emc_w2r, tW2R);
WRITE_PARAM_ALL_REG(table, emc_rext, C.eristaEmcMaxClock < 2133001 ? 26 : 28); // rext shouldn't be causing issues?
WRITE_PARAM_ALL_REG(table, emc_wext, (C.eristaEmcMaxClock >= 2533000) ? 0x19 : 0x16);
WRITE_PARAM_ALL_REG(table, emc_refresh, refresh_raw);
WRITE_PARAM_ALL_REG(table, emc_pre_refresh_req_cnt, refresh_raw / 4);
WRITE_PARAM_ALL_REG(table, emc_trefbw, trefbw);
const u32 dyn_self_ref_control = (static_cast<u32>(7605.0 / tCK_avg) + 260) | (table->burst_regs.emc_dyn_self_ref_control & 0xffff0000);
WRITE_PARAM_ALL_REG(table, emc_dyn_self_ref_control, dyn_self_ref_control);
WRITE_PARAM_ALL_REG(table, emc_pdex2wr, pdex2rw);
WRITE_PARAM_ALL_REG(table, emc_pdex2rd, pdex2rw);
WRITE_PARAM_ALL_REG(table, emc_pchg2pden, GET_CYCLE_CEIL(1.75));
WRITE_PARAM_ALL_REG(table, emc_ar2pden, GET_CYCLE_CEIL(1.75));
WRITE_PARAM_ALL_REG(table, emc_pdex2cke, GET_CYCLE_CEIL(1.05));
WRITE_PARAM_ALL_REG(table, emc_act2pden, GET_CYCLE_CEIL(14.0));
WRITE_PARAM_ALL_REG(table, emc_cke2pden, /* cke2pden */ GET_CYCLE_CEIL(8.5));
(void) cke2pden;
WRITE_PARAM_ALL_REG(table, emc_pdex2mrr, GET_CYCLE_CEIL(pdex2mrr));
WRITE_PARAM_ALL_REG(table, emc_rw2pden, tWTPDEN);
/* This needs some clean up. */
constexpr double MC_ARB_DIV = 4.0;
constexpr u32 MC_ARB_SFA = 2;
table->burst_mc_regs.mc_emem_arb_cfg = C.eristaEmcMaxClock / (33.3 * 1000) / MC_ARB_DIV;
table->burst_mc_regs.mc_emem_arb_timing_rcd = CEIL(GET_CYCLE_CEIL(tRCD) / MC_ARB_DIV) - 2;
table->burst_mc_regs.mc_emem_arb_timing_rp = CEIL(GET_CYCLE_CEIL(tRPpb) / MC_ARB_DIV) - 1;
table->burst_mc_regs.mc_emem_arb_timing_rc = CEIL(GET_CYCLE_CEIL(tRC) / MC_ARB_DIV) - 1;
table->burst_mc_regs.mc_emem_arb_timing_ras = CEIL(GET_CYCLE_CEIL(tRAS) / MC_ARB_DIV) - 2;
table->burst_mc_regs.mc_emem_arb_timing_faw = CEIL(GET_CYCLE_CEIL(tFAW) / MC_ARB_DIV) - 1;
table->burst_mc_regs.mc_emem_arb_timing_rrd = CEIL(GET_CYCLE_CEIL(tRRD) / MC_ARB_DIV) - 1;
table->burst_mc_regs.mc_emem_arb_timing_rfcpb = CEIL(GET_CYCLE_CEIL(tRFCpb) / MC_ARB_DIV) - 1;
table->burst_mc_regs.mc_emem_arb_timing_rap2pre = CEIL(tR2P / MC_ARB_DIV);
table->burst_mc_regs.mc_emem_arb_timing_wap2pre = CEIL(tW2P / MC_ARB_DIV) + MC_ARB_SFA;
if (table->burst_mc_regs.mc_emem_arb_timing_r2r > 1) {
table->burst_mc_regs.mc_emem_arb_timing_r2r = CEIL(table->burst_regs.emc_rext / 4) - 1 + MC_ARB_SFA;
}
table->burst_mc_regs.mc_emem_arb_timing_r2w = CEIL(tR2W / MC_ARB_DIV) - 1 + MC_ARB_SFA;
table->burst_mc_regs.mc_emem_arb_timing_w2r = CEIL(tW2R / MC_ARB_DIV) - 1 + MC_ARB_SFA;
u32 da_turns = 0;
da_turns |= u8(table->burst_mc_regs.mc_emem_arb_timing_r2w / 2) << 16;
da_turns |= u8(table->burst_mc_regs.mc_emem_arb_timing_w2r / 2) << 24;
table->burst_mc_regs.mc_emem_arb_da_turns = da_turns;
u32 da_covers = 0;
u8 r_cover = (table->burst_mc_regs.mc_emem_arb_timing_rap2pre + table->burst_mc_regs.mc_emem_arb_timing_rp + table->burst_mc_regs.mc_emem_arb_timing_rcd) / 2;
u8 w_cover = (table->burst_mc_regs.mc_emem_arb_timing_wap2pre + table->burst_mc_regs.mc_emem_arb_timing_rp + table->burst_mc_regs.mc_emem_arb_timing_rcd) / 2;
da_covers |= (table->burst_mc_regs.mc_emem_arb_timing_rc / 2);
da_covers |= (r_cover << 8);
da_covers |= (w_cover << 16);
table->burst_mc_regs.mc_emem_arb_da_covers = da_covers;
table->burst_mc_regs.mc_emem_arb_misc0 = (table->burst_mc_regs.mc_emem_arb_misc0 & 0xFFE08000) | (table->burst_mc_regs.mc_emem_arb_timing_rc + 1);
table->la_scale_regs.mc_mll_mpcorer_ptsa_rate = 0x115;
if (C.eristaEmcMaxClock >= 2133000) {
table->la_scale_regs.mc_ftop_ptsa_rate = 0x1F;
} else {
table->la_scale_regs.mc_ftop_ptsa_rate = 0x1B;
}
table->la_scale_regs.mc_ptsa_grant_decrement = 0x17ff;
constexpr u32 MaskHigh = 0xFF00FFFF;
constexpr u32 Mask2 = 0xFFFFFF00;
constexpr u32 Mask3 = 0xFF00FF00;
const u32 allowance1 = static_cast<u32>(0x32000 / (C.eristaEmcMaxClock / 0x3E8)) & 0xFF;
const u32 allowance2 = static_cast<u32>(0x9C40 / (C.eristaEmcMaxClock / 0x3E8)) & 0xFF;
const u32 allowance3 = static_cast<u32>(0xB540 / (C.eristaEmcMaxClock / 0x3E8)) & 0xFF;
const u32 allowance4 = static_cast<u32>(0x9600 / (C.eristaEmcMaxClock / 0x3E8)) & 0xFF;
const u32 allowance5 = static_cast<u32>(0x8980 / (C.eristaEmcMaxClock / 0x3E8)) & 0xFF;
table->la_scale_regs.mc_latency_allowance_xusb_0 = (table->la_scale_regs.mc_latency_allowance_xusb_0 & MaskHigh) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_xusb_1 = (table->la_scale_regs.mc_latency_allowance_xusb_1 & MaskHigh) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_tsec_0 = (table->la_scale_regs.mc_latency_allowance_tsec_0 & MaskHigh) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_sdmmcaa_0 = (table->la_scale_regs.mc_latency_allowance_sdmmcaa_0 & MaskHigh) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_sdmmcab_0 = (table->la_scale_regs.mc_latency_allowance_sdmmcab_0 & MaskHigh) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_sdmmc_0 = (table->la_scale_regs.mc_latency_allowance_sdmmc_0 & MaskHigh) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_sdmmca_0 = (table->la_scale_regs.mc_latency_allowance_sdmmca_0 & MaskHigh) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_ppcs_1 = (table->la_scale_regs.mc_latency_allowance_ppcs_1 & MaskHigh) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_nvdec_0 = (table->la_scale_regs.mc_latency_allowance_nvdec_0 & MaskHigh) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_mpcore_0 = (table->la_scale_regs.mc_latency_allowance_mpcore_0 & MaskHigh) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_avpc_0 = (table->la_scale_regs.mc_latency_allowance_avpc_0 & MaskHigh) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_vic_0 = allowance3 | (table->la_scale_regs.mc_latency_allowance_vic_0 & Mask3) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_isp2_1 = (table->la_scale_regs.mc_latency_allowance_isp2_1 & Mask3) | (allowance1 << 16) | allowance1;
table->la_scale_regs.mc_latency_allowance_nvenc_0 = allowance4 | (table->la_scale_regs.mc_latency_allowance_nvenc_0 & Mask3) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_hc_0 = (table->la_scale_regs.mc_latency_allowance_hc_0 & Mask2) | allowance5;
table->la_scale_regs.mc_latency_allowance_gpu_0 = allowance2 | (table->la_scale_regs.mc_latency_allowance_gpu_0 & Mask3) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_gpu2_0 = allowance2 | (table->la_scale_regs.mc_latency_allowance_gpu2_0 & Mask3) | (allowance1 << 16);
table->la_scale_regs.mc_latency_allowance_hc_1 = (table->la_scale_regs.mc_latency_allowance_hc_1 & Mask2) | allowance1;
table->la_scale_regs.mc_latency_allowance_vi2_0 = (table->la_scale_regs.mc_latency_allowance_vi2_0 & Mask2) | allowance1;
table->dram_timings.t_rp = tRFCpb;
table->dram_timings.t_rfc = tRFCab;
table->dram_timings.rl = RL_DBI;
// WRITE_PARAM_ALL_REG(table, emc_obdly, obdly);
// WRITE_PARAM_ALL_REG(table, emc_ibdly, ibdly);
table->emc_cfg_2 = 0x11083D;
}
Result MemFreqMtcTable(u32 *ptr) {
u32 khz_list[] = {1600000, 1331200, 1065600, 800000, 665600, 408000, 204000, 102000, 68000, 40800};
@@ -735,7 +683,7 @@ namespace ams::ldr::oc::pcv::erista {
{"CPU Freq Table", CpuFreqCvbTable<false>, 1, nullptr, static_cast<u32>(GetDvfsTableLastEntry(CpuCvbTableDefault)->freq)},
{"CPU Volt DVFS", &CpuVoltDvfs, 1, nullptr, 825},
{"CPU Volt Thermals", &CpuVoltThermals, 1, nullptr, 825},
{"CPU Volt Dfll", &CpuVoltDfll, 1, nullptr, 0xFFD0EAFF},
{"CPU Volt Dfll", &CpuVoltDfll, 1, nullptr, 0xFFEAD0FF},
{"GPU Volt DVFS", &GpuVoltDVFS, 1, nullptr, 810},
{"GPU Volt Thermals", &GpuVoltThermals, 1, nullptr, 810},
{"GPU Freq Table", GpuFreqCvbTable<false>, 1, nullptr, static_cast<u32>(GetDvfsTableLastEntry(GpuCvbTableDefault)->freq)},

26
Source/Atmosphere/stratosphere/loader/source/oc/pcv/pcv_mariko.cpp
View File

@@ -22,7 +22,7 @@
#include "../mtc_timing_value.hpp"
#include "../mariko/calculate_timings.hpp"
namespace ams::ldr::oc::pcv::mariko {
namespace ams::ldr::hoc::pcv::mariko {
u32 GetGpuVminVoltage() {
for (auto e : vminTable) {
@@ -84,18 +84,18 @@ namespace ams::ldr::oc::pcv::mariko {
}
/* C.marikoGpuVmin is zero, auto voltage is applied. */
/* Get vmin depending on speedo and ram clock. */
u32 autoVmin = GetAutoVoltage();
PATCH_OFFSET(ptr, autoVmin);
R_SUCCEED();
}
Result GpuVoltThermals(u32 *ptr) {
u32 vmin = std::memcmp(ptr - 3, gpuVoltThermalPattern, sizeof(gpuVoltThermalPattern));
if (vmin) {
if (std::memcmp(ptr - 3, gpuVoltThermalPattern, sizeof(gpuVoltThermalPattern))) {
R_THROW(ldr::ResultInvalidGpuDvfs());
}
u32 vmin = C.marikoGpuVmin;
/* Automatic voltage. */
if (!C.marikoGpuVmin) {
vmin = GetAutoVoltage();
@@ -105,11 +105,10 @@ namespace ams::ldr::oc::pcv::mariko {
PATCH_OFFSET(ptr + 9, vmin);
} else {
/* Manual voltage. */
PATCH_OFFSET(ptr, C.marikoGpuVmin);
PATCH_OFFSET(ptr + 3, C.marikoGpuVmin);
PATCH_OFFSET(ptr + 6, C.marikoGpuVmin);
PATCH_OFFSET(ptr + 9, C.marikoGpuVmin);
vmin = C.marikoGpuVmin;
PATCH_OFFSET(ptr, vmin);
PATCH_OFFSET(ptr + 3, vmin);
PATCH_OFFSET(ptr + 6, vmin);
PATCH_OFFSET(ptr + 9, vmin);
}
PATCH_OFFSET(ptr + 12, vmin);
@@ -432,9 +431,9 @@ namespace ams::ldr::oc::pcv::mariko {
WRITE_PARAM_ALL_REG(table, emc_tfaw, GET_CYCLE_CEIL(tFAW));
WRITE_PARAM_ALL_REG(table, emc_trpab, MIN(GET_CYCLE_CEIL(tRPab), static_cast<u32>(0x3F)));
WRITE_PARAM_ALL_REG(table, emc_tckesr, GET_CYCLE_CEIL(tSR));
WRITE_PARAM_ALL_REG(table, emc_tcke, tCKE);
WRITE_PARAM_ALL_REG(table, emc_tcke, GET_CYCLE_CEIL(7.425) + 2);
WRITE_PARAM_ALL_REG(table, emc_tpd, GET_CYCLE_CEIL(tXP));
WRITE_PARAM_ALL_REG(table, emc_tclkstop, GET_CYCLE_CEIL(tXP) + 8); // TODO analyse
WRITE_PARAM_ALL_REG(table, emc_tclkstop, tCLKSTOP);
WRITE_PARAM_ALL_REG(table, emc_r2p, tR2P);
WRITE_PARAM_ALL_REG(table, emc_r2w, tR2W);
WRITE_PARAM_ALL_REG(table, emc_trtm, tRTM);
@@ -452,12 +451,11 @@ namespace ams::ldr::oc::pcv::mariko {
WRITE_PARAM_ALL_REG(table, emc_dyn_self_ref_control, dyn_self_ref_control);
WRITE_PARAM_ALL_REG(table, emc_pdex2wr, pdex2rw);
WRITE_PARAM_ALL_REG(table, emc_pdex2rd, pdex2rw);
WRITE_PARAM_ALL_REG(table, emc_pchg2pden, GET_CYCLE_CEIL(1.75));
WRITE_PARAM_ALL_REG(table, emc_pchg2pden, GET_CYCLE_CEIL(1.763));
WRITE_PARAM_ALL_REG(table, emc_ar2pden, GET_CYCLE_CEIL(1.75));
WRITE_PARAM_ALL_REG(table, emc_pdex2cke, GET_CYCLE_CEIL(1.05));
WRITE_PARAM_ALL_REG(table, emc_act2pden, GET_CYCLE_CEIL(14.0));
WRITE_PARAM_ALL_REG(table, emc_cke2pden, /* cke2pden */ GET_CYCLE_CEIL(8.5));
(void) cke2pden;
WRITE_PARAM_ALL_REG(table, emc_cke2pden, GET_CYCLE_CEIL(8.499));
WRITE_PARAM_ALL_REG(table, emc_pdex2mrr, GET_CYCLE_CEIL(pdex2mrr));
WRITE_PARAM_ALL_REG(table, emc_rw2pden, tWTPDEN);
WRITE_PARAM_ALL_REG(table, emc_einput, einput);

2
Source/Atmosphere/stratosphere/loader/source/oc/ptm/ptm.cpp
View File

@@ -18,7 +18,7 @@
#include "ptm.hpp"
namespace ams::ldr::oc::ptm {
namespace ams::ldr::hoc::ptm {
Result CpuPtmBoost(perf_conf_entry* entry) {

2
Source/Atmosphere/stratosphere/loader/source/oc/ptm/ptm.hpp
View File

@@ -20,7 +20,7 @@
#include "../oc_common.hpp"
namespace ams::ldr::oc::ptm {
namespace ams::ldr::hoc::ptm {
typedef struct {
u32 conf_id;

46
Source/Horizon-OC-Monitor/source/Utils.hpp
View File

@@ -83,7 +83,7 @@ Result nvdecCheck = 1;
Result nvencCheck = 1;
Result nvjpgCheck = 1;
Result nifmCheck = 1;
Result sysclkCheck = 1;
Result sysclkCheck = 0;
Result pwmDutyCycleCheck = 1;
//Wi-Fi
@@ -572,21 +572,19 @@ void Misc(void*) {
}
// Get sys-clk data
if (R_SUCCEEDED(sysclkCheck)) {
SysClkContext sysclkCTX;
if (R_SUCCEEDED(sysclkIpcGetCurrentContext(&sysclkCTX))) {
realCPU_Hz = sysclkCTX.realFreqs[SysClkModule_CPU];
realGPU_Hz = sysclkCTX.realFreqs[SysClkModule_GPU];
realRAM_Hz = sysclkCTX.realFreqs[SysClkModule_MEM];
partLoad[SysClkPartLoad_EMC] = sysclkCTX.partLoad[SysClkPartLoad_EMC];
partLoad[SysClkPartLoad_EMCCpu] = sysclkCTX.partLoad[SysClkPartLoad_EMCCpu];
realCPU_mV = sysclkCTX.voltages[HocClkVoltage_CPU];
realGPU_mV = sysclkCTX.voltages[HocClkVoltage_GPU];
realVDD2_mV = sysclkCTX.voltages[HocClkVoltage_EMCVDD2];
realVDDQ_mV = sysclkCTX.voltages[HocClkVoltage_EMCVDDQ_MarikoOnly];
realSOC_mV = sysclkCTX.voltages[HocClkVoltage_SOC];
}
SysClkContext sysclkCTX;
if (R_SUCCEEDED(sysclkIpcGetCurrentContext(&sysclkCTX))) {
realCPU_Hz = sysclkCTX.realFreqs[SysClkModule_CPU];
realGPU_Hz = sysclkCTX.realFreqs[SysClkModule_GPU];
realRAM_Hz = sysclkCTX.realFreqs[SysClkModule_MEM];
partLoad[SysClkPartLoad_EMC] = sysclkCTX.partLoad[SysClkPartLoad_EMC];
partLoad[SysClkPartLoad_EMCCpu] = sysclkCTX.partLoad[SysClkPartLoad_EMCCpu];
realCPU_mV = sysclkCTX.voltages[HocClkVoltage_CPU];
realGPU_mV = sysclkCTX.voltages[HocClkVoltage_GPU];
realVDD2_mV = sysclkCTX.voltages[HocClkVoltage_EMCVDD2];
realVDDQ_mV = sysclkCTX.voltages[HocClkVoltage_EMCVDDQ_MarikoOnly];
realSOC_mV = sysclkCTX.voltages[HocClkVoltage_SOC];
}
// Temperatures
@@ -699,21 +697,7 @@ void Misc3(void*) {
do {
mutexLock(&mutex_Misc);
// Get sys-clk data
if (R_SUCCEEDED(sysclkCheck)) {
SysClkContext sysclkCTX;
if (R_SUCCEEDED(sysclkIpcGetCurrentContext(&sysclkCTX))) {
partLoad[SysClkPartLoad_EMC] = sysclkCTX.partLoad[SysClkPartLoad_EMC];
partLoad[SysClkPartLoad_EMCCpu] = sysclkCTX.partLoad[SysClkPartLoad_EMCCpu];
realCPU_mV = sysclkCTX.voltages[HocClkVoltage_CPU];
realGPU_mV = sysclkCTX.voltages[HocClkVoltage_GPU];
realSOC_mV = sysclkCTX.voltages[HocClkVoltage_SOC];
realVDD2_mV = sysclkCTX.voltages[HocClkVoltage_EMCVDD2];
realVDDQ_mV = sysclkCTX.voltages[HocClkVoltage_EMCVDDQ_MarikoOnly];
}
}
// Temperatures
if (R_SUCCEEDED(i2cCheck)) {
Tmp451GetSocTemp(&SOC_temperatureF);

79
Source/Horizon-OC-Monitor/source/main.cpp
View File

@@ -446,14 +446,6 @@ public:
if (SaltySD) {
LoadSharedMemoryAndRefreshRate();
}
if (sysclkIpcRunning() && R_SUCCEEDED(sysclkIpcInitialize())) {
uint32_t sysClkApiVer = 0;
sysclkIpcGetAPIVersion(&sysClkApiVer);
if (sysClkApiVer < 4) {
sysclkIpcExit();
}
else sysclkCheck = 0;
}
if (R_SUCCEEDED(splInitialize())) {
u64 sku = 0;
splGetConfig(SplConfigItem_HardwareType, &sku);
@@ -466,16 +458,14 @@ public:
}
}
splExit();
sysclkIpcInitialize();
});
Hinted = envIsSyscallHinted(0x6F);
}
virtual void exitServices() override {
CloseThreads();
if (R_SUCCEEDED(sysclkCheck)) {
sysclkIpcExit();
}
sysclkIpcExit();
shmemClose(&_sharedmemory);
//Exit services
clkrstExit();
@@ -530,14 +520,6 @@ public:
if (SaltySD) {
LoadSharedMemory();
}
if (sysclkIpcRunning() && R_SUCCEEDED(sysclkIpcInitialize())) {
uint32_t sysClkApiVer = 0;
sysclkIpcGetAPIVersion(&sysClkApiVer);
if (sysClkApiVer < 4) {
sysclkIpcExit();
}
else sysclkCheck = 0;
}
if (R_SUCCEEDED(splInitialize())) {
u64 sku = 0;
splGetConfig(SplConfigItem_HardwareType, &sku);
@@ -550,6 +532,7 @@ public:
}
}
splExit();
sysclkIpcInitialize();
});
Hinted = envIsSyscallHinted(0x6F);
}
@@ -557,9 +540,7 @@ public:
virtual void exitServices() override {
CloseThreads();
shmemClose(&_sharedmemory);
if (R_SUCCEEDED(sysclkCheck)) {
sysclkIpcExit();
}
sysclkIpcExit();
//Exit services
clkrstExit();
pcvExit();
@@ -617,14 +598,6 @@ public:
if (SaltySD) {
LoadSharedMemory();
}
if (sysclkIpcRunning() && R_SUCCEEDED(sysclkIpcInitialize())) {
uint32_t sysClkApiVer = 0;
sysclkIpcGetAPIVersion(&sysClkApiVer);
if (sysClkApiVer < 4) {
sysclkIpcExit();
}
else sysclkCheck = 0;
}
if (R_SUCCEEDED(splInitialize())) {
u64 sku = 0;
splGetConfig(SplConfigItem_HardwareType, &sku);
@@ -637,6 +610,7 @@ public:
}
}
splExit();
sysclkIpcInitialize();
});
Hinted = envIsSyscallHinted(0x6F);
@@ -645,9 +619,7 @@ public:
virtual void exitServices() override {
CloseThreads();
shmemClose(&_sharedmemory);
if (R_SUCCEEDED(sysclkCheck)) {
sysclkIpcExit();
}
sysclkIpcExit();
// Exit services
clkrstExit();
pcvExit();
@@ -707,14 +679,6 @@ public:
if (SaltySD) {
LoadSharedMemoryAndRefreshRate();
}
if (sysclkIpcRunning() && R_SUCCEEDED(sysclkIpcInitialize())) {
uint32_t sysClkApiVer = 0;
sysclkIpcGetAPIVersion(&sysClkApiVer);
if (sysClkApiVer < 4) {
sysclkIpcExit();
}
else sysclkCheck = 0;
}
if (R_SUCCEEDED(splInitialize())) {
u64 sku = 0;
splGetConfig(SplConfigItem_HardwareType, &sku);
@@ -727,6 +691,7 @@ public:
}
}
splExit();
sysclkIpcInitialize();
});
Hinted = envIsSyscallHinted(0x6F);
}
@@ -734,9 +699,7 @@ public:
virtual void exitServices() override {
CloseThreads();
shmemClose(&_sharedmemory);
if (R_SUCCEEDED(sysclkCheck)) {
sysclkIpcExit();
}
sysclkIpcExit();
clkrstExit();
pcvExit();
tsExit();
@@ -790,14 +753,6 @@ public:
if (SaltySD) {
LoadSharedMemoryAndRefreshRate();
}
if (sysclkIpcRunning() && R_SUCCEEDED(sysclkIpcInitialize())) {
uint32_t sysClkApiVer = 0;
sysclkIpcGetAPIVersion(&sysClkApiVer);
if (sysClkApiVer < 4) {
sysclkIpcExit();
}
else sysclkCheck = 0;
}
if (R_SUCCEEDED(splInitialize())) {
u64 sku = 0;
splGetConfig(SplConfigItem_HardwareType, &sku);
@@ -810,6 +765,7 @@ public:
}
}
splExit();
sysclkIpcInitialize();
});
Hinted = envIsSyscallHinted(0x6F);
}
@@ -817,9 +773,7 @@ public:
virtual void exitServices() override {
CloseThreads();
shmemClose(&_sharedmemory);
if (R_SUCCEEDED(sysclkCheck)) {
sysclkIpcExit();
}
sysclkIpcExit();
clkrstExit();
pcvExit();
tsExit();
@@ -873,14 +827,6 @@ public:
if (SaltySD) {
LoadSharedMemoryAndRefreshRate();
}
if (sysclkIpcRunning() && R_SUCCEEDED(sysclkIpcInitialize())) {
uint32_t sysClkApiVer = 0;
sysclkIpcGetAPIVersion(&sysClkApiVer);
if (sysClkApiVer < 4) {
sysclkIpcExit();
}
else sysclkCheck = 0;
}
if (R_SUCCEEDED(splInitialize())) {
u64 sku = 0;
splGetConfig(SplConfigItem_HardwareType, &sku);
@@ -893,6 +839,7 @@ public:
}
}
splExit();
sysclkIpcInitialize();
});
Hinted = envIsSyscallHinted(0x6F);
}
@@ -900,9 +847,7 @@ public:
virtual void exitServices() override {
CloseThreads();
shmemClose(&_sharedmemory);
if (R_SUCCEEDED(sysclkCheck)) {
sysclkIpcExit();
}
sysclkIpcExit();
clkrstExit();
pcvExit();
tsExit();

10
Source/Horizon-OC-Monitor/source/modes/Full.hpp
View File

@@ -233,12 +233,10 @@ public:
else if (realRAM_Hz && settings.showDeltas && (settings.showRealFreqs || settings.showTargetFreqs)) {
renderer->drawString(DeltaRAM_c, false, COMMON_MARGIN + deltaOffset, height_offset, 15, (settings.textColor));
}
if (R_SUCCEEDED(sysclkCheck)) {
static std::vector<std::string> PartLoadColoredChars = {"CPU", "GPU"};
//static auto loadLabelWidth = renderer->getTextDimensions("Load: ", false, 15).first;
renderer->drawString("Load", false, COMMON_MARGIN, height_offset+15, 15, (settings.catColor2));
renderer->drawStringWithColoredSections(RAM_load_c, false, PartLoadColoredChars, COMMON_MARGIN + valueOffset, height_offset+15, 15, (settings.textColor), settings.catColor2);
}
static std::vector<std::string> PartLoadColoredChars = {"CPU", "GPU"};
//static auto loadLabelWidth = renderer->getTextDimensions("Load: ", false, 15).first;
renderer->drawString("Load", false, COMMON_MARGIN, height_offset+15, 15, (settings.catColor2));
renderer->drawStringWithColoredSections(RAM_load_c, false, PartLoadColoredChars, COMMON_MARGIN + valueOffset, height_offset+15, 15, (settings.textColor), settings.catColor2);
}
if (R_SUCCEEDED(Hinted)) {
//static auto textWidth = renderer->getTextDimensions("Total \nApplication \nApplet \nSystem \nSystem Unsafe ", false, 15).first;

66
Source/Horizon-OC-Monitor/source/modes/Mini.hpp
View File

@@ -354,7 +354,7 @@ public:
else
width = renderer->getTextDimensions("100%@4444.4444 mV", false, fontsize).first;
}
} else if (key == "GPU" || (key == "RAM" && settings.showRAMLoad && R_SUCCEEDED(sysclkCheck))) {
} else if (key == "GPU" || (key == "RAM" && settings.showRAMLoad)) {
//dimensions = renderer->drawString("100.0%@4444.4", false, 0, 0, fontsize, renderer->a(0x0000));
if (!settings.showRAMLoadCPUGPU) {
@@ -370,7 +370,7 @@ public:
width = renderer->getTextDimensions("100%[100%,100%]@4444.4444 mV", false, fontsize).first;
}
}
} else if (key == "RAM" && (!settings.showRAMLoad || R_FAILED(sysclkCheck))) {
} else if (key == "RAM" && (!settings.showRAMLoad)) {
//dimensions = renderer->drawString("44444444MB@4444.4", false, 0, 0, fontsize, renderer->a(0x0000));
if (!settings.realVolts) {
width = renderer->getTextDimensions("100%@4444.4", false, fontsize).first;
@@ -993,51 +993,33 @@ public:
} else {
unsigned PartLoadInt;
if (R_SUCCEEDED(sysclkCheck)) {
PartLoadInt = partLoad[SysClkPartLoad_EMC] / 10;
if (settings.showRAMLoadCPUGPU) {
unsigned ramCpuLoadInt = partLoad[SysClkPartLoad_EMCCpu] / 10;
int RAM_GPU_Load = partLoad[SysClkPartLoad_EMC] - partLoad[SysClkPartLoad_EMCCpu];
unsigned ramGpuLoadInt = RAM_GPU_Load / 10;
if (settings.realFrequencies && realRAM_Hz) {
snprintf(MINI_RAM_var_compressed_c, sizeof(MINI_RAM_var_compressed_c),
"%u%%[%u%%,%u%%]@%hu.%hhu",
PartLoadInt, ramCpuLoadInt, ramGpuLoadInt,
realRAM_Hz / 1000000, (realRAM_Hz / 100000) % 10);
} else {
snprintf(MINI_RAM_var_compressed_c, sizeof(MINI_RAM_var_compressed_c),
"%u%%[%u%%,%u%%]@%hu.%hhu",
PartLoadInt, ramCpuLoadInt, ramGpuLoadInt,
RAM_Hz / 1000000, (RAM_Hz / 100000) % 10);
}
} else {
if (settings.realFrequencies && realRAM_Hz) {
snprintf(MINI_RAM_var_compressed_c, sizeof(MINI_RAM_var_compressed_c),
"%u%%@%hu.%hhu", PartLoadInt,
realRAM_Hz / 1000000, (realRAM_Hz / 100000) % 10);
} else {
snprintf(MINI_RAM_var_compressed_c, sizeof(MINI_RAM_var_compressed_c),
"%u%%@%hu.%hhu", PartLoadInt,
RAM_Hz / 1000000, (RAM_Hz / 100000) % 10);
}
}
} else {
const uint64_t RAM_Total_all = RAM_Total_application_u + RAM_Total_applet_u +
RAM_Total_system_u + RAM_Total_systemunsafe_u;
const uint64_t RAM_Used_all = RAM_Used_application_u + RAM_Used_applet_u +
RAM_Used_system_u + RAM_Used_systemunsafe_u;
PartLoadInt = (RAM_Total_all > 0) ? (unsigned)((RAM_Used_all * 100) / RAM_Total_all) : 0;
PartLoadInt = partLoad[SysClkPartLoad_EMC] / 10;
if (settings.showRAMLoadCPUGPU) {
unsigned ramCpuLoadInt = partLoad[SysClkPartLoad_EMCCpu] / 10;
int RAM_GPU_Load = partLoad[SysClkPartLoad_EMC] - partLoad[SysClkPartLoad_EMCCpu];
unsigned ramGpuLoadInt = RAM_GPU_Load / 10;
if (settings.realFrequencies && realRAM_Hz) {
snprintf(MINI_RAM_var_compressed_c, sizeof(MINI_RAM_var_compressed_c),
"%u%%@%hu.%hhu", PartLoadInt,
realRAM_Hz / 1000000, (realRAM_Hz / 100000) % 10);
"%u%%[%u%%,%u%%]@%hu.%hhu",
PartLoadInt, ramCpuLoadInt, ramGpuLoadInt,
realRAM_Hz / 1000000, (realRAM_Hz / 100000) % 10);
} else {
snprintf(MINI_RAM_var_compressed_c, sizeof(MINI_RAM_var_compressed_c),
"%u%%@%hu.%hhu", PartLoadInt,
RAM_Hz / 1000000, (RAM_Hz / 100000) % 10);
"%u%%[%u%%,%u%%]@%hu.%hhu",
PartLoadInt, ramCpuLoadInt, ramGpuLoadInt,
RAM_Hz / 1000000, (RAM_Hz / 100000) % 10);
}
} else {
if (settings.realFrequencies && realRAM_Hz) {
snprintf(MINI_RAM_var_compressed_c, sizeof(MINI_RAM_var_compressed_c),
"%u%%@%hu.%hhu", PartLoadInt,
realRAM_Hz / 1000000, (realRAM_Hz / 100000) % 10);
} else {
snprintf(MINI_RAM_var_compressed_c, sizeof(MINI_RAM_var_compressed_c),
"%u%%@%hu.%hhu", PartLoadInt,
RAM_Hz / 1000000, (RAM_Hz / 100000) % 10);
}
}
}

67
Source/Horizon-OC-Monitor/source/sysclk_ipc.c
View File

@@ -1,5 +1,21 @@
/*
* --------------------------------------------------------------------------
* Copyright (c) Souldbminer, Lightos_ and Horizon OC Contributors
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
/* --------------------------------------------------------------------------
* "THE BEER-WARE LICENSE" (Revision 42):
* <p-sam@d3vs.net>, <natinusala@gmail.com>, <m4x@m4xw.net>
* wrote this file. As long as you retain this notice you can do whatever you
@@ -8,11 +24,12 @@
* --------------------------------------------------------------------------
*/
#define NX_SERVICE_ASSUME_NON_DOMAIN
#include <sysclk/client/ipc.h>
#include <switch.h>
#include <string.h>
#include <stdatomic.h>
#include <sysclk/client/ipc.h>
static Service g_sysclkSrv;
static atomic_size_t g_refCnt;
@@ -20,7 +37,7 @@ static atomic_size_t g_refCnt;
bool sysclkIpcRunning()
{
Handle handle;
const bool running = R_FAILED(smRegisterService(&handle, smEncodeName(SYSCLK_IPC_SERVICE_NAME), false, 1));
bool running = R_FAILED(smRegisterService(&handle, smEncodeName(SYSCLK_IPC_SERVICE_NAME), false, 1));
if (!running)
{
@@ -94,7 +111,10 @@ Result sysclkIpcSetOverride(SysClkModule module, u32 hz)
Result sysclkIpcGetProfiles(u64 tid, SysClkTitleProfileList* out_profiles)
{
return serviceDispatchInOut(&g_sysclkSrv, SysClkIpcCmd_GetProfiles, tid, *out_profiles);
return serviceDispatchIn(&g_sysclkSrv, SysClkIpcCmd_GetProfiles, tid,
.buffer_attrs = { SfBufferAttr_HipcMapAlias | SfBufferAttr_Out },
.buffers = {{out_profiles, sizeof(SysClkTitleProfileList)}},
);
}
Result sysclkIpcSetProfiles(u64 tid, SysClkTitleProfileList* profiles)
@@ -107,12 +127,18 @@ Result sysclkIpcSetProfiles(u64 tid, SysClkTitleProfileList* profiles)
Result sysclkIpcGetConfigValues(SysClkConfigValueList* out_configValues)
{
return serviceDispatchOut(&g_sysclkSrv, SysClkIpcCmd_GetConfigValues, *out_configValues);
return serviceDispatch(&g_sysclkSrv, SysClkIpcCmd_GetConfigValues,
.buffer_attrs = { SfBufferAttr_HipcMapAlias | SfBufferAttr_Out },
.buffers = {{out_configValues, sizeof(SysClkConfigValueList)}},
);
}
Result sysclkIpcSetConfigValues(SysClkConfigValueList* configValues)
{
return serviceDispatchIn(&g_sysclkSrv, SysClkIpcCmd_SetConfigValues, *configValues);
return serviceDispatch(&g_sysclkSrv, SysClkIpcCmd_SetConfigValues,
.buffer_attrs = { SfBufferAttr_HipcMapAlias | SfBufferAttr_In },
.buffers = {{configValues, sizeof(SysClkConfigValueList)}},
);
}
Result sysclkIpcGetFreqList(SysClkModule module, u32* list, u32 maxCount, u32* outCount)
@@ -125,4 +151,33 @@ Result sysclkIpcGetFreqList(SysClkModule module, u32* list, u32 maxCount, u32* o
.buffer_attrs = { SfBufferAttr_HipcAutoSelect | SfBufferAttr_Out },
.buffers = {{list, maxCount * sizeof(u32)}},
);
}
Result sysclkIpcSetReverseNXRTMode(ReverseNXMode mode)
{
return serviceDispatchIn(&g_sysclkSrv, SysClkIpcCmd_SetReverseNXRTMode, mode);
}
Result hocClkIpcSetKipData()
{
u32 temp = 0;
return serviceDispatchIn(&g_sysclkSrv, HocClkIpcCmd_SetKipData, temp);
}
Result hocClkIpcGetKipData()
{
u32 temp = 0;
return serviceDispatchIn(&g_sysclkSrv, HocClkIpcCmd_GetKipData, temp);
}
Result hocClkIpcUpdateEmcRegs()
{
u32 temp = 0;
return serviceDispatchIn(&g_sysclkSrv, HocClkIpcCmd_UpdateEmcRegs, temp);
}
Result hocClkIpcCalculateGpuVmin()
{
u32 temp = 0;
return serviceDispatchIn(&g_sysclkSrv, HocClkIpcCmd_CalculateGpuVmin, temp);
}

53
Source/sys-clk/bitmap.py Normal file
View File

@@ -0,0 +1,53 @@
from PIL import Image
import argparse
import os
def image_to_rgba8888_array(image_path, output_path):
# Open and convert to RGBA
img = Image.open(image_path).convert('RGBA')
width, height = img.size
# Get pixel data
pixels = img.tobytes()
# Write as C header file
with open(output_path, 'w') as f:
f.write('// This is a automatically generated file, do not edit manually.\n')
f.write(f'// {os.path.basename(image_path)} - {width}x{height}\n')
f.write(f'const unsigned int IMG_WIDTH = {width};\n')
f.write(f'const unsigned int IMG_HEIGHT = {height};\n')
f.write('const unsigned char IMG_DATA[] = {\n ')
for i, byte in enumerate(pixels):
f.write(f'0x{byte:02X}')
if i < len(pixels) - 1:
f.write(', ')
if (i + 1) % 12 == 0:
f.write('\n ')
f.write('\n};\n')
print(f'Converted: {width}x{height} -> {len(pixels)} bytes')
print(f'Output: {output_path}')
def main():
parser = argparse.ArgumentParser(
description='PNG to RGB8888 script'
)
parser.add_argument('input', help='Input image file (e.g. cat.png)')
parser.add_argument(
'-o', '--output',
help='Output header file (default: <input>.h)'
)
args = parser.parse_args()
output_path = args.output
if not output_path:
base, _ = os.path.splitext(args.input)
output_path = base + '.h'
image_to_rgba8888_array(args.input, output_path)
if __name__ == '__main__':
main()

41
Source/sys-clk/common/include/memmem.h Normal file
View File

@@ -0,0 +1,41 @@
/*
MIT License
Copyright (c) 2024 Roy Merkel
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:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
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,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
*/
#ifndef MEMMEM_IMPL_H
#define MEMMEM_IMPL_H
#include <stddef.h>
#ifdef __cplusplus
extern "C" {
#endif
void *memmem_impl(void *haystack, size_t haystacklen,
const void *needle, size_t needlelen);
#ifdef __cplusplus
}
#endif
#endif

8
Source/sys-clk/common/include/sysclk/board.h
View File

@@ -132,6 +132,14 @@ typedef enum {
GPUUVLevel_EnumMax,
} GPUUndervoltLevel;
enum {
DVFSMode_Disabled,
DVFSMode_Hijack,
// DVFSMode_OfficialService,
// DVFSMode_Hack,
DVFSMode_EnumMax,
};
#define SYSCLK_ENUM_VALID(n, v) ((v) < n##_EnumMax)
static inline const char* sysclkFormatModule(SysClkModule module, bool pretty)

36
Source/sys-clk/common/include/sysclk/config.h
View File

@@ -12,9 +12,9 @@
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*
*/
/* --------------------------------------------------------------------------
* "THE BEER-WARE LICENSE" (Revision 42):
* <p-sam@d3vs.net>, <natinusala@gmail.com>, <m4x@m4xw.net>
@@ -57,10 +57,14 @@ typedef enum {
HorizonOCConfigValue_OverwriteRefreshRate,
HorizonOCConfigValue_EnableUnsafeDisplayFreqs,
HorizonOCConfigValue_DVFSMode,
HorizonOCConfigValue_DVFSOffset,
HocClkConfigValue_FixCpuVoltBug,
KipConfigValue_custRev,
KipConfigValue_mtcConf,
// KipConfigValue_mtcConf,
KipConfigValue_hpMode,
KipConfigValue_commonEmcMemVolt,
@@ -158,6 +162,9 @@ typedef enum {
KipConfigValue_g_volt_e_1036800,
KipConfigValue_g_volt_e_1075200,
KipConfigValue_t6_tRTW_fine_tune,
KipConfigValue_t7_tWTR_fine_tune,
KipCrc32,
HocClkConfigValue_IsFirstLoad,
SysClkConfigValue_EnumMax,
@@ -223,11 +230,17 @@ static inline const char* sysclkFormatConfigValue(SysClkConfigValue val, bool pr
case HorizonOCConfigValue_EnableUnsafeDisplayFreqs:
return pretty ? "Enable Unsafe Display Frequencies" : "drr_unsafe";
case HorizonOCConfigValue_DVFSMode:
return pretty ? "DVFS Mode" : "dvfs_mode";
case HorizonOCConfigValue_DVFSOffset:
return pretty ? "DVFS Offset" : "dvfs_offset";
// KIP config values
case KipConfigValue_custRev:
return pretty ? "Custom Revision" : "kip_cust_rev";
case KipConfigValue_mtcConf:
return pretty ? "MTC Config" : "kip_mtc_conf";
// case KipConfigValue_mtcConf:
// return pretty ? "MTC Config" : "kip_mtc_conf";
case KipConfigValue_hpMode:
return pretty ? "HP Mode" : "kip_hp_mode";
@@ -370,6 +383,8 @@ static inline const char* sysclkFormatConfigValue(SysClkConfigValue val, bool pr
case KipConfigValue_g_volt_e_998400: return pretty ? "Erista GPU Volt 998 MHz" : "g_volt_e_998400";
case KipConfigValue_g_volt_e_1036800: return pretty ? "Erista GPU Volt 1036 MHz" : "g_volt_e_1036800";
case KipConfigValue_g_volt_e_1075200: return pretty ? "Erista GPU Volt 1075 MHz" : "g_volt_e_1075200";
case KipConfigValue_t6_tRTW_fine_tune: return pretty ? "t6 - tRTW Fine Tune" : "t6_tRTW_fine_fune";
case KipConfigValue_t7_tWTR_fine_tune: return pretty ? "t7 - tWTR Fine Tune" : "t7_tWTR_fine_tune";
case KipCrc32:
return pretty ? "CRC32" : "crc32";
case HocClkConfigValue_IsFirstLoad:
@@ -406,6 +421,7 @@ static inline uint64_t sysclkDefaultConfigValue(SysClkConfigValue val)
case HocClkConfigValue_EnforceBoardLimit:
case HocClkConfigValue_FixCpuVoltBug:
case HocClkConfigValue_IsFirstLoad:
case HorizonOCConfigValue_DVFSMode:
return 1ULL;
case HocClkConfigValue_ThermalThrottleThreshold:
return 70ULL;
@@ -429,7 +445,7 @@ static inline uint64_t sysclkValidConfigValue(SysClkConfigValue val, uint64_t in
case HocClkConfigValue_LiteTDPLimit:
case SysClkConfigValue_PollingIntervalMs:
return input > 0;
case SysClkConfigValue_TempLogIntervalMs:
case SysClkConfigValue_FreqLogIntervalMs:
case SysClkConfigValue_PowerLogIntervalMs:
@@ -444,9 +460,9 @@ static inline uint64_t sysclkValidConfigValue(SysClkConfigValue val, uint64_t in
case HorizonOCConfigValue_EnableUnsafeDisplayFreqs:
case HocClkConfigValue_IsFirstLoad:
return (input & 0x1) == input;
case KipConfigValue_custRev:
case KipConfigValue_mtcConf:
// case KipConfigValue_mtcConf:
case KipConfigValue_hpMode:
case KipConfigValue_commonEmcMemVolt:
case KipConfigValue_eristaEmcMaxClock:
@@ -534,7 +550,11 @@ static inline uint64_t sysclkValidConfigValue(SysClkConfigValue val, uint64_t in
case KipConfigValue_g_volt_e_1075200:
case KipConfigValue_eristaCpuVmin:
case KipConfigValue_eristaCpuUnlock:
case KipConfigValue_t6_tRTW_fine_tune:
case KipConfigValue_t7_tWTR_fine_tune:
case KipCrc32:
case HorizonOCConfigValue_DVFSMode:
case HorizonOCConfigValue_DVFSOffset:
return true;
case HorizonOCConfigValue_BatteryChargeCurrent:
return ((input >= 1024) && (input <= 3072)) || !input;

83
Source/sys-clk/common/src/memmem.c Normal file
View File

@@ -0,0 +1,83 @@
/*
MIT License
Copyright (c) 2024 Roy Merkel
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:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
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,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
*/
#include "memmem.h"
void *memmem_impl(void *haystack, size_t haystacklen, const void *needle, size_t needlelen)
{
const unsigned char *cmpp;
const unsigned char *p;
const unsigned char *endp;
const unsigned char *q;
const unsigned char *endq;
unsigned char found;
if(haystack == NULL)
{
return NULL;
}
if(needle == NULL)
{
return haystack;
}
if(haystacklen == 0)
{
return NULL;
}
if(needlelen == 0)
{
return haystack;
}
if(needlelen > haystacklen)
{
return NULL;
}
endp = haystack + haystacklen - needlelen;
endq = needle + needlelen;
for(p = haystack; p <= endp; p++)
{
found = 1;
cmpp = p;
for(q = needle; q < endq; q++)
{
if(*cmpp != *q)
{
found = 0;
break;
}
else
{
cmpp++;
}
}
if(found)
{
return (void*)p;
}
}
return NULL;
}

2
Source/sys-clk/overlay/Makefile
View File

@@ -39,7 +39,7 @@ include ${TOPDIR}/lib/libultrahand/ultrahand.mk
# version control constants
#---------------------------------------------------------------------------------
#TARGET_VERSION := $(shell git describe --dirty --always --tags)
APP_VERSION := 0.33
APP_VERSION := 0.37
TARGET_VERSION := $(APP_VERSION)
#---------------------------------------------------------------------------------

11
Source/sys-clk/overlay/src/ui/gui/app_profile_gui.cpp
View File

@@ -29,6 +29,7 @@
#include "../format.h"
#include "fatal_gui.h"
#include "labels.h"
AppProfileGui::AppProfileGui(std::uint64_t applicationId, SysClkTitleProfileList* profileList)
{
this->applicationId = applicationId;
@@ -50,7 +51,13 @@ void AppProfileGui::openFreqChoiceGui(tsl::elm::ListItem* listItem, SysClkProfil
FatalGui::openWithResultCode("sysclkIpcGetFreqList", rc);
return;
}
std::map<uint32_t, std::string> labels = {};
if (module == SysClkModule_CPU) {
labels = IsMariko() ? cpu_freq_label_m : cpu_freq_label_e;
} else if (module == SysClkModule_GPU) {
labels = IsMariko() ? gpu_freq_label_m : gpu_freq_label_e;
}
tsl::changeTo<FreqChoiceGui>(this->profileList->mhzMap[profile][module] * 1000000, hzList, hzCount, module, [this, listItem, profile, module](std::uint32_t hz) {
this->profileList->mhzMap[profile][module] = hz / 1000000;
listItem->setValue(formatListFreqMHz(this->profileList->mhzMap[profile][module]));
@@ -62,7 +69,7 @@ void AppProfileGui::openFreqChoiceGui(tsl::elm::ListItem* listItem, SysClkProfil
}
return true;
}, true
}, true, labels
);
}
@@ -282,7 +289,7 @@ void AppProfileGui::addProfileUI(SysClkProfile profile)
ValueThresholds lcdThresholds(60, 65);
if(!IsHoag() && configList.values[HorizonOCConfigValue_OverwriteRefreshRate]) {
if(profile != SysClkProfile_Docked)
this->addModuleListItemValue(profile, HorizonOCModule_Display, "Display", 40, configList.values[HorizonOCConfigValue_EnableUnsafeDisplayFreqs] ? 72 : 60, 1, " Hz", 1, 0, lcdThresholds);
this->addModuleListItemValue(profile, HorizonOCModule_Display, "Display", 40, configList.values[HorizonOCConfigValue_EnableUnsafeDisplayFreqs] ? IsAula() ? 65 : 72 : 60, 1, " Hz", 1, 0, lcdThresholds);
else
this->addModuleListItemValue(profile, HorizonOCModule_Display, "Display", 50, 120, 5, " Hz", 1, 0);
}

2
Source/sys-clk/overlay/src/ui/gui/cat.h
View File

@@ -14,7 +14,7 @@
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
// this is a generated file, do not edit manually.
// cat.png - 96x128
static const unsigned int CAT_WIDTH = 96;
static const unsigned int CAT_HEIGHT = 128;

23
Source/sys-clk/overlay/src/ui/gui/freq_choice_gui.cpp
View File

@@ -59,7 +59,6 @@ tsl::elm::ListItem* FreqChoiceGui::createFreqListItem(std::uint32_t hz, bool sel
if (selected)
text += " \uE14B";
// NEW: Right-side label
std::string rightText = "";
auto it = labels.find(hz);
if (it != labels.end())
@@ -156,16 +155,26 @@ void FreqChoiceGui::listUI()
if (IsMariko())
{
unsafe_cpu = 1964;
unsafe_gpu = 1076;
danger_cpu = 2398;
unsafe_cpu = this->configList->values[KipConfigValue_marikoCpuUVHigh] ? 2296 : 1964;
if(this->configList->values[KipConfigValue_marikoGpuUV] == 0) {
unsafe_gpu = 1076;
} else if (this->configList->values[KipConfigValue_marikoGpuUV] == 1) {
unsafe_gpu = 1153;
} else {
unsafe_gpu = 1229;
}
danger_cpu = this->configList->values[KipConfigValue_marikoCpuUVHigh] ? 2500 : 2398;
danger_gpu = 1306;
}
else
{
unsafe_cpu = 1786;
unsafe_gpu = 922;
danger_cpu = 2092;
unsafe_cpu = this->configList->values[KipConfigValue_eristaCpuUV] ? 1964 : 1786;
if(this->configList->values[KipConfigValue_eristaGpuUV] == 0) {
unsafe_gpu = 922;
} else {
unsafe_gpu = 961;
}
danger_cpu = this->configList->values[KipConfigValue_eristaCpuUV] ? 2194 : 1964;
danger_gpu = 999;
}

15
Source/sys-clk/overlay/src/ui/gui/global_override_gui.cpp
View File

@@ -19,7 +19,7 @@
#include "fatal_gui.h"
#include "global_override_gui.h"
#include "value_choice_gui.h"
#include "labels.h"
GlobalOverrideGui::GlobalOverrideGui()
{
for (std::uint16_t m = 0; m < SysClkModule_EnumMax; m++) {
@@ -38,6 +38,14 @@ void GlobalOverrideGui::openFreqChoiceGui(SysClkModule module)
FatalGui::openWithResultCode("sysclkIpcGetFreqList", rc);
return;
}
std::map<uint32_t, std::string> labels = {};
if (module == SysClkModule_CPU) {
labels = IsMariko() ? cpu_freq_label_m : cpu_freq_label_e;
} else if (module == SysClkModule_GPU) {
labels = IsMariko() ? gpu_freq_label_m : gpu_freq_label_e;
}
tsl::changeTo<FreqChoiceGui>(
this->context->overrideFreqs[module], hzList, hzCount, module,
[this, module](std::uint32_t hz) {
@@ -52,7 +60,8 @@ void GlobalOverrideGui::openFreqChoiceGui(SysClkModule module)
return true;
},
true);
true, labels
);
}
void GlobalOverrideGui::openValueChoiceGui(
@@ -283,7 +292,7 @@ void GlobalOverrideGui::listUI()
#if IS_MINIMAL == 0
ValueThresholds lcdThresholds(60, 65);
if(!IsHoag() && configList.values[HorizonOCConfigValue_OverwriteRefreshRate])
this->addModuleListItemValue(HorizonOCModule_Display, "Display", 40, configList.values[HorizonOCConfigValue_EnableUnsafeDisplayFreqs] ? 72 : 60, 1, " Hz", 1, 0, lcdThresholds);
this->addModuleListItemValue(HorizonOCModule_Display, "Display", 40, configList.values[HorizonOCConfigValue_EnableUnsafeDisplayFreqs] ? IsAula() ? 65 : 72 : 60, 1, " Hz", 1, 0, lcdThresholds);
#endif
this->addModuleToggleItem(HorizonOCModule_Governor);
}

64
Source/sys-clk/overlay/src/ui/gui/labels.cpp Normal file
View File

@@ -0,0 +1,64 @@
/*
* Copyright (c) Souldbminer, Lightos_ and Horizon OC Contributors
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
#include <map>
#include <cstdint>
#include <string>
std::map<uint32_t, std::string> cpu_freq_label_m = {
{612000000, "Sleep Mode"},
{1020000000, "Stock"},
{1224000000, "Dev OC"},
{1785000000, "Boost Mode"},
{1963000000, "Safe Max"},
{2397000000, "Unsafe Max"},
{2703000000, "Absolute Max"},
};
std::map<uint32_t, std::string> cpu_freq_label_e = {
{612000000, "Sleep Mode"},
{1020000000, "Stock"},
{1224000000, "Dev OC"},
{1785000000, "Boost Mode & Safe Max"},
{2091000000, "Unsafe Max"},
{2295000000, "Absolute Max"},
};
std::map<uint32_t, std::string> gpu_freq_label_e = {
{76800000, "Boost Mode"},
{307200000, "Handheld"},
{345600000, "Handheld"},
{384000000, "Handheld"},
{422400000, "Handheld"},
{460800000, "Handheld Safe Max"},
{768000000, "Docked"},
{921600000, "Safe Max"},
{960000000, "Unsafe Max"},
{1075200000, "Absolute Max"},
};
std::map<uint32_t, std::string> gpu_freq_label_m = {
{76800000, "Boost Mode"},
{307200000, "Handheld"},
{384000000, "Handheld"},
{460800000, "Handheld"},
{614400000, "Handheld Safe Max"},
{768000000, "Docked"},
{1075200000, "Safe Max"},
{1305600000, "Unsafe Max"},
{1536000000, "Absolute Max"},
};

26
Source/sys-clk/overlay/src/ui/gui/labels.h Normal file
View File

@@ -0,0 +1,26 @@
/*
* Copyright (c) Souldbminer, Lightos_ and Horizon OC Contributors
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
#pragma once
#include <map>
#include <cstdint>
#include <string>
extern std::map<uint32_t, std::string> cpu_freq_label_m;
extern std::map<uint32_t, std::string> cpu_freq_label_e;
extern std::map<uint32_t, std::string> gpu_freq_label_m;
extern std::map<uint32_t, std::string> gpu_freq_label_e;

284
Source/sys-clk/overlay/src/ui/gui/misc_gui.cpp
View File

@@ -23,9 +23,11 @@
#include <cstring>
#include <vector>
#include <notification.h>
#include "labels.h"
#if IS_MINIMAL == 1
#pragma message("Compiling with minimal features")
#endif
class RamSubmenuGui;
class RamTimingsSubmenuGui;
class RamLatenciesSubmenuGui;
@@ -33,25 +35,6 @@ class CpuSubmenuGui;
class GpuSubmenuGui;
class GpuCustomTableSubmenuGui;
std::map<uint32_t, std::string> cpu_freq_label_m = {
{612000000, "Sleep Mode"},
{1020000000, "Stock"},
{1224000000, "Dev OC"},
{1785000000, "Boost Mode"},
{1963000000, "Safe Max"},
{2397000000, "Unsafe Max"},
{2805000000, "Absolute Max"},
};
std::map<uint32_t, std::string> cpu_freq_label_e = {
{612000000, "Sleep Mode"},
{1020000000, "Stock"},
{1224000000, "Dev OC"},
{1785000000, "Boost Mode & Safe Max"},
{2091000000, "Unsafe Max"},
{2295000000, "Absolute Max"},
};
MiscGui::MiscGui()
{
this->configList = new SysClkConfigValueList {};
@@ -273,9 +256,6 @@ void MiscGui::listUI()
addConfigToggle(HocClkConfigValue_EnforceBoardLimit, nullptr);
#if IS_MINIMAL == 0
std::map<uint32_t, std::string> labels_pwr_r = {
{8600, "Official Rating"}
};
std::map<uint32_t, std::string> labels_pwr_l = {
{6400, "Official Rating"}
};
@@ -291,14 +271,13 @@ void MiscGui::listUI()
labels_pwr_l
);
} else {
ValueThresholds tdpThresholds(8600, 9500);
ValueThresholds tdpThresholds(9600, 11000);
addConfigButton(
HocClkConfigValue_HandheldTDPLimit,
"TDP Threshold",
ValueRange(5000, 10000, 100, "mW", 1),
ValueRange(8000, 12000, 100, "mW", 1),
"Power",
&tdpThresholds,
labels_pwr_r
&tdpThresholds
);
}
@@ -319,6 +298,45 @@ void MiscGui::listUI()
addFreqButton(HocClkConfigValue_EristaMaxCpuClock, nullptr, SysClkModule_CPU, cpu_freq_label_e);
}
if (IsMariko()) {
std::vector<NamedValue> dvfsValues = {
NamedValue("Disabled", DVFSMode_Disabled),
NamedValue("PCV Hijack", DVFSMode_Hijack),
// NamedValue("Official Service", DVFSMode_OfficialService),
// NamedValue("Hack", DVFSMode_Hack),
};
addConfigButton(
HorizonOCConfigValue_DVFSMode,
"GPU DVFS Mode",
ValueRange(0, 0, 1, "", 0),
"GPU DVFS Mode",
&thresholdsDisabled,
{},
dvfsValues,
false
);
std::vector<NamedValue> dvfsOffset = {
NamedValue("-50", 0xFFFFFFCE),
NamedValue("-45", 0xFFFFFFD3),
NamedValue("-40", 0xFFFFFFD8),
NamedValue("-30", 0xFFFFFFE2),
NamedValue("-25", 0xFFFFFFE7),
NamedValue("-20", 0xFFFFFFEC),
NamedValue("-10", 0xFFFFFFF6),
NamedValue(" -5", 0xFFFFFFFB),
NamedValue(" 0", 0),
NamedValue(" +5", 5),
NamedValue("+10", 10),
NamedValue("+15", 15),
NamedValue("+20", 20),
};
addConfigButton(HorizonOCConfigValue_DVFSOffset, "GPU DVFS Offset", ValueRange(0, 12, 1, "", 0), "GPU DVFS Offset", &thresholdsDisabled, {}, dvfsOffset, false);
}
this->listElement->addItem(new tsl::elm::CategoryHeader("KIP"));
tsl::elm::ListItem* saveBtn = new tsl::elm::ListItem("Save KIP Settings");
@@ -365,8 +383,9 @@ void MiscGui::listUI()
});
this->listElement->addItem(gpuSubmenu);
this->listElement->addItem(new tsl::elm::CategoryHeader("Experimental"));
#if IS_MINIMAL == 0
this->listElement->addItem(new tsl::elm::CategoryHeader("Experimental"));
std::vector<NamedValue> chargerCurrents = {
NamedValue("Disabled", 0),
NamedValue("1024mA", 1024),
@@ -459,8 +478,10 @@ protected:
addConfigToggle(KipConfigValue_hpMode, "HP Mode");
ValueThresholds eristaRamThresholds(2208000, 2304000);
std::vector<NamedValue> marikoMaxEmcClock = {
NamedValue("1600MHz (JEDEC.)", 1600000),
NamedValue("1600MHz", 1600000, "JEDEC."),
NamedValue("1633MHz", 1633000),
NamedValue("1666MHz", 1666000),
NamedValue("1700MHz", 1700000),
@@ -468,16 +489,16 @@ protected:
NamedValue("1766MHz", 1766000),
NamedValue("1800MHz", 1800000),
NamedValue("1833MHz", 1833000),
NamedValue("1866MHz (JEDEC.)", 1866000),
NamedValue("1866MHz", 1866000, "JEDEC."),
NamedValue("1900MHz", 1900000),
NamedValue("1933MHz", 1933000),
NamedValue("1966MHz", 1966000),
NamedValue("1996MHz (JEDEC.)", 1996800),
NamedValue("1996MHz", 1996800, "JEDEC."),
NamedValue("2000MHz", 2000000),
NamedValue("2033MHz", 2033000),
NamedValue("2066MHz", 2066000),
NamedValue("2100MHz", 2100000),
NamedValue("2133MHz (JEDEC.)", 2133000),
NamedValue("2133MHz", 2133000, "JEDEC."),
NamedValue("2166MHz", 2166000),
NamedValue("2200MHz", 2200000),
NamedValue("2233MHz", 2233000),
@@ -485,7 +506,7 @@ protected:
NamedValue("2300MHz", 2300000),
NamedValue("2333MHz", 2333000),
NamedValue("2366MHz", 2366000),
NamedValue("2400MHz (JEDEC.)", 2400000),
NamedValue("2400MHz", 2400000, "JEDEC."),
NamedValue("2433MHz", 2433000),
NamedValue("2466MHz", 2466000),
NamedValue("2500MHz", 2500000),
@@ -493,7 +514,7 @@ protected:
NamedValue("2566MHz", 2566000),
NamedValue("2600MHz", 2600000),
NamedValue("2633MHz", 2633000),
NamedValue("2666MHz", 2666000),
NamedValue("2666MHz", 2666000, "JEDEC."),
NamedValue("2700MHz", 2700000),
NamedValue("2733MHz", 2733000),
NamedValue("2766MHz", 2766000),
@@ -501,7 +522,7 @@ protected:
NamedValue("2833MHz", 2833000),
NamedValue("2866MHz", 2866000),
NamedValue("2900MHz", 2900000),
NamedValue("2933MHz (JEDEC.)", 2933000),
NamedValue("2933MHz", 2933000, "JEDEC."),
NamedValue("2966MHz", 2966000),
NamedValue("3000MHz", 3000000),
NamedValue("3033MHz", 3033000),
@@ -509,10 +530,10 @@ protected:
NamedValue("3100MHz", 3100000),
NamedValue("3133MHz", 3133000),
NamedValue("3166MHz", 3166000),
NamedValue("3200MHz (JEDEC.)", 3200000),
// NamedValue("3233MHz (Needs high Speedo/PLL)", 3233000),
// NamedValue("3266MHz (Needs high Speedo/PLL)", 3266000),
// NamedValue("3300MHz (Needs high Speedo/PLL)", 3300000),
NamedValue("3200MHz", 3200000, "JEDEC."),
NamedValue("3233MHz", 3233000, "High speedo needed!"),
NamedValue("3266MHz", 3266000, "High speedo needed!"),
NamedValue("3300MHz", 3300000, "High speedo needed!"),
// NamedValue("3333MHz (Needs extreme Speedo/PLL)", 3333000),
// NamedValue("3366MHz (Needs extreme Speedo/PLL)", 3366000),
// NamedValue("3400MHz (Needs extreme Speedo/PLL)", 3400000),
@@ -522,7 +543,7 @@ protected:
};
std::vector<NamedValue> eristaMaxEmcClock = {
NamedValue("1600MHz (JEDEC.)", 1600000),
NamedValue("1600MHz", 1600000, "JEDEC."),
NamedValue("1633MHz", 1633000),
NamedValue("1666MHz", 1666000),
NamedValue("1700MHz", 1700000),
@@ -530,32 +551,44 @@ protected:
NamedValue("1766MHz", 1766000),
NamedValue("1800MHz", 1800000),
NamedValue("1833MHz", 1833000),
NamedValue("1866MHz (JEDEC.)", 1866000),
NamedValue("1900MHz", 1900000),
NamedValue("1933MHz", 1933000),
NamedValue("1966MHz", 1966000),
NamedValue("2000MHz", 2000000),
NamedValue("2033MHz", 2033000),
NamedValue("2066MHz", 2066000),
NamedValue("2100MHz", 2100000),
NamedValue("2133MHz (JEDEC.)", 2133000),
NamedValue("2166MHz", 2166000),
NamedValue("2200MHz (high power draw!)", 2200000),
NamedValue("2233MHz (high power draw!)", 2233000),
NamedValue("2266MHz (high power draw!)", 2266000),
NamedValue("2300MHz (high power draw!)", 2300000),
NamedValue("2333MHz (high power draw!)", 2333000),
NamedValue("2366MHz (high power draw!)", 2366000),
NamedValue("2400MHz (high power draw & JEDEC.)", 2400000),
NamedValue("1862MHz", 1862400, "JEDEC."),
NamedValue("1881MHz", 1881600),
NamedValue("1900MHz", 1900800),
NamedValue("1920MHz", 1920000),
NamedValue("1939MHz", 1939200),
NamedValue("1958MHz", 1958400),
NamedValue("1977MHz", 1977600),
NamedValue("1996MHz", 1996800, "JEDEC."),
NamedValue("2016MHz", 2016000),
NamedValue("2035MHz", 2035200),
NamedValue("2054MHz", 2054400),
NamedValue("2073MHz", 2073600),
NamedValue("2092MHz", 2092800),
NamedValue("2112MHz", 2112000),
NamedValue("2131MHz", 2131200, "JEDEC."),
NamedValue("2150MHz", 2150400),
NamedValue("2169MHz", 2169600),
NamedValue("2188MHz", 2188800),
NamedValue("2208MHz", 2208000),
NamedValue("2227MHz", 2227200),
NamedValue("2246MHz", 2246400),
NamedValue("2265MHz", 2265600),
NamedValue("2284MHz", 2284800),
NamedValue("2304MHz", 2304000),
NamedValue("2323MHz", 2323200),
NamedValue("2342MHz", 2342400),
NamedValue("2361MHz", 2361600),
NamedValue("2380MHz", 2380800),
NamedValue("2400MHz", 2400000, "JEDEC."),
};
if(IsErista()) {
addConfigButton(
KipConfigValue_eristaEmcMaxClock,
"EMC Max Clock",
"RAM Max Clock",
ValueRange(0, 1, 1, "", 1),
"EMC Max Clock",
&thresholdsDisabled,
"RAM Max Clock",
&eristaRamThresholds,
{},
eristaMaxEmcClock,
false
@@ -563,9 +596,9 @@ protected:
} else {
addConfigButton(
KipConfigValue_marikoEmcMaxClock,
"EMC Max Clock",
"RAM Max Clock",
ValueRange(0, 1, 1, "", 1),
"EMC Max Clock",
"RAM Max Clock",
&thresholdsDisabled,
{},
marikoMaxEmcClock,
@@ -585,7 +618,7 @@ protected:
ValueThresholds vdd2Thresholds(1212500, 1250000);
addConfigButton(
KipConfigValue_commonEmcMemVolt,
"EMC VDD2 Voltage",
"RAM VDD2 Voltage",
ValueRange(912500, 1350000, 12500, "mV", 1000, 1),
"Voltage",
&vdd2Thresholds,
@@ -597,9 +630,9 @@ protected:
if(IsMariko()) {
addConfigButton(
KipConfigValue_marikoEmcVddqVolt,
"EMC VDDQ Voltage",
"RAM VDDQ Voltage",
ValueRange(550000, 700000, 5000, "mV", 1000),
"EMC VDDQ Voltage",
"RAM VDDQ Voltage",
&thresholdsDisabled,
{},
{},
@@ -609,16 +642,16 @@ protected:
addConfigButton(
KipConfigValue_emcDvbShift,
"DVB Shift",
"SoC DVB Shift",
ValueRange(0, 10, 1, "", 1),
"DVB Shift",
"SoC DVB Shift",
&thresholdsDisabled,
{},
{},
false
);
tsl::elm::ListItem* timingsSubmenu = new tsl::elm::ListItem("Memory Timings");
tsl::elm::ListItem* timingsSubmenu = new tsl::elm::ListItem("RAM Timing Reductions");
timingsSubmenu->setClickListener([](u64 keys) {
if (keys & HidNpadButton_A) {
tsl::changeTo<RamTimingsSubmenuGui>();
@@ -628,7 +661,7 @@ protected:
});
this->listElement->addItem(timingsSubmenu);
tsl::elm::ListItem* latenciesSubmenu = new tsl::elm::ListItem("Memory Latencies");
tsl::elm::ListItem* latenciesSubmenu = new tsl::elm::ListItem("RAM Latencies");
latenciesSubmenu->setClickListener([](u64 keys) {
if (keys & HidNpadButton_A) {
tsl::changeTo<RamLatenciesSubmenuGui>();
@@ -658,33 +691,58 @@ protected:
addConfigButton(KipConfigValue_t6_tRTW, "t6 tRTW", ValueRange(0, 10, 1, "", 1), "tRTW", &thresholdsDisabled, {}, {}, false);
addConfigButton(KipConfigValue_t7_tWTR, "t7 tWTR", ValueRange(0, 10, 1, "", 1), "tWTR", &thresholdsDisabled, {}, {}, false);
addConfigButton(KipConfigValue_t8_tREFI, "t8 tREFI", ValueRange(0, 6, 1, "", 1), "tREFI", &thresholdsDisabled, {}, {}, false);
#if IS_MINIMAL == 0
this->listElement->addItem(new tsl::elm::CategoryHeader("Experimental"));
tsl::elm::ListItem* emcUpdBtn = new tsl::elm::ListItem("Update RAM Timings");
emcUpdBtn->setClickListener([this](u64 keys) {
if (keys & HidNpadButton_A) {
if(this->context->freqs[SysClkModule_MEM] > 1600000000) {
Result rc = hocClkIpcUpdateEmcRegs();
if (R_FAILED(rc)) {
FatalGui::openWithResultCode("hocClkIpcUpdateEmcRegs", rc);
return false;
}
return true;
} else {
writeNotification("Horizon OC\nSet your ram frequency to max\nbefore applying timings!");
}
}
return false;
});
this->listElement->addItem(emcUpdBtn);
tsl::elm::CustomDrawer* warningText = new tsl::elm::CustomDrawer([](tsl::gfx::Renderer *renderer, s32 x, s32 y, s32 w, s32 h) {
renderer->drawString("\uE150 This feature is EXPERIMENTAL", false, x + 20, y + 30, 18, tsl::style::color::ColorText);
renderer->drawString("and should only be used for testing!", false, x + 20, y + 50, 18, tsl::style::color::ColorText);
});
warningText->setBoundaries(0, 0, tsl::cfg::FramebufferWidth, 70);
this->listElement->addItem(warningText);
std::vector<NamedValue> t6_tRTW_fine_tune = {
NamedValue("-2", 0xFFFFFFFE),
NamedValue("-1", 0xFFFFFFFF),
NamedValue(" 0", 0),
NamedValue("+1", 1),
NamedValue("+2", 2),
};
std::vector<NamedValue> t7_tWTR_fine_tune = {
NamedValue("-3", 0xFFFFFFFD),
NamedValue("-2", 0xFFFFFFFE),
NamedValue("-1", 0xFFFFFFFF),
NamedValue(" 0", 0),
NamedValue("+1", 1),
NamedValue("+2", 2),
NamedValue("+3", 3),
};
this->listElement->addItem(new tsl::elm::CategoryHeader("Advanced"));
addConfigButton(KipConfigValue_t6_tRTW_fine_tune, "t6 tRTW Fine Tune", ValueRange(0, 4, 1, "", 0), "tRTW Fine Tune", &thresholdsDisabled, {}, t6_tRTW_fine_tune, false);
addConfigButton(KipConfigValue_t7_tWTR_fine_tune, "t7 tWTR Fine Tune", ValueRange(0, 6, 1, "", 0), "tWTR Fine Tune", &thresholdsDisabled, {}, t7_tWTR_fine_tune, false);
#if IS_MINIMAL == 0
if(IsMariko()) {
this->listElement->addItem(new tsl::elm::CategoryHeader("Experimental"));
tsl::elm::ListItem* emcUpdBtn = new tsl::elm::ListItem("Update RAM Timings");
emcUpdBtn->setClickListener([this](u64 keys) {
if (keys & HidNpadButton_A) {
if(this->context->freqs[SysClkModule_MEM] > 1600000000) {
Result rc = hocClkIpcUpdateEmcRegs();
if (R_FAILED(rc)) {
FatalGui::openWithResultCode("hocClkIpcUpdateEmcRegs", rc);
return false;
}
return true;
} else {
writeNotification("Horizon OC\nSet your ram frequency to max\nbefore applying timings!");
}
}
return false;
});
this->listElement->addItem(emcUpdBtn);
tsl::elm::CustomDrawer* warningText = new tsl::elm::CustomDrawer([](tsl::gfx::Renderer *renderer, s32 x, s32 y, s32 w, s32 h) {
renderer->drawString("\uE150 This feature is EXPERIMENTAL", false, x + 20, y + 30, 18, tsl::style::color::ColorText);
renderer->drawString("and should only be used for testing!", false, x + 20, y + 50, 18, tsl::style::color::ColorText);
});
warningText->setBoundaries(0, 0, tsl::cfg::FramebufferWidth, 70);
this->listElement->addItem(warningText);
}
#endif
}
};
@@ -700,17 +758,17 @@ protected:
this->listElement->addItem(new tsl::elm::CategoryHeader("Memory Latencies"));
std::vector<NamedValue> rlLabels = {
NamedValue("1333RL", 28),
NamedValue("1600RL", 32),
NamedValue("1866RL", 36),
NamedValue("2133RL", 40)
NamedValue("1333 RL", 28),
NamedValue("1600 RL", 32),
NamedValue("1866 RL", 36),
NamedValue("2133 RL", 40)
};
std::vector<NamedValue> wlLabels = {
NamedValue("1333WL", 12),
NamedValue("1600WL", 14),
NamedValue("1866WL", 16),
NamedValue("2133WL", 18)
NamedValue("1333 WL", 12),
NamedValue("1600 WL", 14),
NamedValue("1866 WL", 16),
NamedValue("2133 WL", 18)
};
addConfigButton(
@@ -748,6 +806,8 @@ protected:
this->listElement->addItem(new tsl::elm::CategoryHeader("CPU Settings"));
if(IsMariko()) {
std::vector<NamedValue> ClkOptions = {
NamedValue("1785 MHz", 1785000),
NamedValue("1887 MHz", 1887000),
NamedValue("1963 MHz", 1963000),
NamedValue("2091 MHz", 2091000),
NamedValue("2193 MHz", 2193000),
@@ -863,6 +923,8 @@ protected:
);
std::vector<NamedValue> maxClkOptions = {
NamedValue("1785 MHz", 1785000),
NamedValue("1887 MHz", 1887000),
NamedValue("1963 MHz", 1963000),
NamedValue("2091 MHz", 2091000),
NamedValue("2193 MHz", 2193000),
@@ -933,7 +995,7 @@ protected:
this->listElement->addItem(new tsl::elm::CategoryHeader("GPU Settings"));
std::vector<NamedValue> gpuUvConf = {
NamedValue("No UV", 0),
NamedValue("No Undervolt", 0),
NamedValue("SLT Table", 1),
NamedValue("HiOPT Table", 2),
};
@@ -977,9 +1039,9 @@ protected:
);
addConfigButton(
KipConfigValue_eristaGpuVmin,
"GPU VMIN",
"GPU Minimum Voltage",
ValueRange(700, 875, 5, "mV", 1),
"GPU VMIN",
"GPU Minimum Voltage",
&thresholdsDisabled,
{},
{},
@@ -1014,9 +1076,9 @@ protected:
ValueThresholds MgpuVmaxThresholds(800, 850);
addConfigButton(
KipConfigValue_marikoGpuVmax,
"GPU VMAX",
"GPU Maximum Voltage",
ValueRange(750, 960, 5, "mV", 1),
"GPU VMAX",
"GPU Maximum Voltage",
&MgpuVmaxThresholds,
{},
{},
@@ -1026,9 +1088,9 @@ protected:
addConfigButton(
KipConfigValue_commonGpuVoltOffset,
"GPU Volt Offset",
"GPU Voltage Offset",
ValueRange(0, 50, 5, "mV", 1),
"GPU Volt Offset",
"GPU Voltage Offset",
&thresholdsDisabled,
{},
{},
@@ -1190,7 +1252,7 @@ protected:
};
if (IsMariko()) {
tsl::elm::CustomDrawer* warningText = new tsl::elm::CustomDrawer([](tsl::gfx::Renderer *renderer, s32 x, s32 y, s32 w, s32 h) {
renderer->drawString("\uE150 Setting GPU Clocks past", false, x + 20, y + 30, 18, tsl::style::color::ColorText);
renderer->drawString("1075MHz without UV, 1152MHz on SLT", false, x + 20, y + 50, 18, tsl::style::color::ColorText);
@@ -1224,7 +1286,7 @@ protected:
addConfigButton(KipConfigValue_g_volt_1344000, "1344.0MHz", ValueRange(0, 0, 0, "0", 1), "Voltage", &MgpuVmaxThresholds, {}, mGpuVolts_noAuto, false);
addConfigButton(KipConfigValue_g_volt_1382400, "1382.4MHz", ValueRange(0, 0, 0, "0", 1), "Voltage", &MgpuVmaxThresholds, {}, mGpuVolts_noAuto, false);
addConfigButton(KipConfigValue_g_volt_1420800, "1420.8MHz", ValueRange(0, 0, 0, "0", 1), "Voltage", &MgpuVmaxThresholds, {}, mGpuVolts_noAuto, false);
addConfigButton(KipConfigValue_g_volt_1459200, "1459.2MHz)", ValueRange(0, 0, 0, "0", 1), "Voltage", &MgpuVmaxThresholds, {}, mGpuVolts_noAuto, false);
addConfigButton(KipConfigValue_g_volt_1459200, "1459.2MHz", ValueRange(0, 0, 0, "0", 1), "Voltage", &MgpuVmaxThresholds, {}, mGpuVolts_noAuto, false);
addConfigButton(KipConfigValue_g_volt_1497600, "1497.6MHz", ValueRange(0, 0, 0, "0", 1), "Voltage", &MgpuVmaxThresholds, {}, mGpuVolts_noAuto, false);
addConfigButton(KipConfigValue_g_volt_1536000, "1536.0MHz", ValueRange(0, 0, 0, "0", 1), "Voltage", &MgpuVmaxThresholds, {}, mGpuVolts_noAuto, false);
}

220
Source/sys-clk/sysmodule/src/board.cpp
View File

@@ -12,9 +12,9 @@
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*
*/
/* --------------------------------------------------------------------------
* "THE BEER-WARE LICENSE" (Revision 42):
* <p-sam@d3vs.net>, <natinusala@gmail.com>, <m4x@m4xw.net>
@@ -41,6 +41,7 @@
#include <cstring>
#include <registers.h>
#include <notification.h>
#include <memmem.h>
#define MAX(A, B) std::max(A, B)
#define MIN(A, B) std::min(A, B)
@@ -96,9 +97,23 @@ std::atomic<uint64_t> idletick2{systemtickfrequency};
std::atomic<uint64_t> idletick3{systemtickfrequency};
u32 cpu0, cpu1, cpu2, cpu3, cpuAvg;
u16 cpuSpeedo0, cpuSpeedo2, socSpeedo0; // CPU, GPU, SOC
u32 speedoBracket;
u16 cpuIDDQ, gpuIDDQ, socIDDQ;
u8 g_dramID = 0;
static const u32 ramBrackets[][22] = {
{ 2133, 2200, 2266, 2300, 2366, 2400, 2433, 2466, 2533, 2566, 2600, 2633, 2700, 2733, 2766, 2833, 2866, 2900, 2933, 3033, 3066, 3100, },
{ 2300, 2366, 2433, 2466, 2533, 2566, 2633, 2700, 2733, 2800, 2833, 2900, 2933, 2966, 3033, 3066, 3100, 3133, 3166, 3200, 3233, 3266, },
{ 2433, 2466, 2533, 2600, 2666, 2733, 2766, 2800, 2833, 2866, 2933, 2966, 3033, 3066, 3100, 3133, 3166, 3200, 3233, 3300, 3333, 3366, },
{ 2500, 2533, 2600, 2633, 2666, 2733, 2800, 2866, 2900, 2966, 3033, 3100, 3166, 3200, 3233, 3266, 3300, 3333, 3366, 3400, 3400, 3400, },
};
static const u32 gpuDvfsArray[] = { 590, 600, 610, 620, 630, 640, 650, 660, 670, 680, 690, 700, 710, 720, 730, 740, 750, 760, 770, 780, 790, 800};
u32 dvfsTable[6][32] = {};
u64 dvfsAddress;
u32 ramVmin;
const char* Board::GetModuleName(SysClkModule module, bool pretty)
{
ASSERT_ENUM_VALID(SysClkModule, module);
@@ -311,7 +326,7 @@ void Board::fuseReadSpeedos() {
cpuIDDQ = *reinterpret_cast<const u16*>(dump + FUSE_CPU_IDDQ_CALIB);
gpuIDDQ = *reinterpret_cast<const u16*>(dump + FUSE_SOC_IDDQ_CALIB);
socIDDQ = *reinterpret_cast<const u16*>(dump + FUSE_GPU_IDDQ_CALIB);
svcCloseHandle(debug);
return;
}
@@ -458,7 +473,7 @@ std::uint32_t Board::GetHz(SysClkModule module)
hz = 60;
return hz;
}
if(HOSSVC_HAS_CLKRST)
{
ClkrstSession session = {0};
@@ -753,7 +768,7 @@ std::int32_t Board::GetPowerMw(SysClkPowerSensor sensor)
}
std::uint32_t Board::GetPartLoad(SysClkPartLoad loadSource)
{
{
switch(loadSource)
{
case SysClkPartLoad_EMC:
@@ -792,6 +807,7 @@ u8 Board::GetDramID() {
void Board::FetchHardwareInfos()
{
fuseReadSpeedos();
SetSpeedoBracket();
u64 sku = 0, dramID = 0;
Result rc = splInitialize();
ASSERT_RESULT_OK(rc, "splInitialize");
@@ -801,7 +817,7 @@ void Board::FetchHardwareInfos()
rc = splGetConfig(SplConfigItem_DramId, &dramID);
ASSERT_RESULT_OK(rc, "splGetConfig");
splExit();
switch(sku)
@@ -816,9 +832,12 @@ void Board::FetchHardwareInfos()
g_socType = SysClkSocType_Erista;
}
if (g_socType == SysClkSocType_Mariko) {
CacheDvfsTable();
}
g_consoleType = (HorizonOCConsoleType)sku;
g_dramID = (u8)dramID;
}
/*
@@ -926,6 +945,169 @@ std::uint32_t Board::GetVoltage(HocClkVoltage voltage)
return out > 0 ? out : 0;
}
void Board::SetSpeedoBracket() {
if (cpuSpeedo2 >= 1754) {
speedoBracket = 3;
} else if (cpuSpeedo2 >= 1690) {
speedoBracket = 2;
} else if (cpuSpeedo2 > 1625) {
speedoBracket = 1;
} else {
speedoBracket = 0;
}
}
u32 Board::GetMinimumGpuVoltage(u32 freqMhz) {
if (freqMhz <= 1600)
return 0;
for (u32 voltageIndex = 0; voltageIndex < 22; ++voltageIndex) {
if (freqMhz <= ramBrackets[speedoBracket][voltageIndex]) {
return gpuDvfsArray[voltageIndex];
}
}
return 800;
}
Handle Board::GetPcvHandle() {
constexpr u64 PcvID = 0x10000000000001a;
u64 processIDList[80]{};
s32 processCount = 0;
Handle handle = INVALID_HANDLE;
DebugEventInfo debugEvent{};
/* Get all running processes. */
Result resultGetProcessList = svcGetProcessList(&processCount, processIDList, std::size(processIDList));
if (R_FAILED(resultGetProcessList)) {
return INVALID_HANDLE;
}
/* Try to find pcv. */
for (int i = 0; i < processCount; ++i) {
if (handle != INVALID_HANDLE) {
svcCloseHandle(handle);
handle = INVALID_HANDLE;
}
/* Try to debug process, if it fails, try next process. */
Result resultSvcDebugProcess = svcDebugActiveProcess(&handle, processIDList[i]);
if (R_FAILED(resultSvcDebugProcess)) {
continue;
}
/* Try to get a debug event. */
Result resultDebugEvent = svcGetDebugEvent(&debugEvent, handle);
if (R_SUCCEEDED(resultDebugEvent)) {
if (debugEvent.info.create_process.program_id == PcvID) {
return handle;
}
}
}
/* Failed to get handle. */
return INVALID_HANDLE;
}
void Board::CacheDvfsTable() {
const u32 voltagePattern[] = { 600000, 12500, 1400000, };
Handle handle = GetPcvHandle();
if (handle == INVALID_HANDLE) {
FileUtils::LogLine("[Board] Invalid handle!");
return;
}
MemoryInfo memoryInfo = {};
u64 address = 0;
u32 pageInfo = 0;
constexpr u32 PageSize = 0x1000;
u8 buffer[PageSize];
/* Loop until failure. */
while (true) {
/* Find pcv heap. */
while (true) {
Result resultProcessMemory = svcQueryDebugProcessMemory(&memoryInfo, &pageInfo, handle, address);
address = memoryInfo.addr + memoryInfo.size;
if (R_FAILED(resultProcessMemory) || !address) {
svcCloseHandle(handle);
FileUtils::LogLine("[Board] Failed to get process data. %u", R_DESCRIPTION(resultProcessMemory));
handle = INVALID_HANDLE;
return;
}
if (memoryInfo.size && (memoryInfo.perm & 3) == 3 && static_cast<char>(memoryInfo.type) == 0x04) {
/* Found valid memory. */
break;
}
}
for (u64 base = 0; base < memoryInfo.size; base += PageSize) {
u32 memorySize = std::min(memoryInfo.size, static_cast<u64>(PageSize));
if (R_FAILED(svcReadDebugProcessMemory(buffer, handle, base + memoryInfo.addr, memorySize))) {
break;
}
u8 *resultPattern = static_cast<u8 *>(memmem_impl(buffer, sizeof(buffer), voltagePattern, sizeof(voltagePattern)));
u32 index = resultPattern - buffer;
if (!resultPattern) {
continue;
}
/* Assuming mariko. */
const u32 vmax = 800;
constexpr u32 DvfsTableOffset = 312;
if (!std::memcmp(&buffer[index + DvfsTableOffset], &vmax, sizeof(vmax))) {
std::memcpy(dvfsTable, &buffer[index + DvfsTableOffset], sizeof(dvfsTable));
dvfsAddress = base + memoryInfo.addr + DvfsTableOffset + index;
}
svcCloseHandle(handle);
handle = INVALID_HANDLE;
return;
}
}
svcCloseHandle(handle);
handle = INVALID_HANDLE;
return;
}
void Board::PcvHijackDvfs(u32 vmin) {
u32 table[192];
static_assert(sizeof(table) == sizeof(dvfsTable));
std::memcpy(table, dvfsTable, sizeof(dvfsTable));
if (ramVmin == vmin) {
return;
}
for (u32 i = 0; i < std::size(table); ++i) {
if (table[i] && table[i] <= vmin) {
table[i] = vmin;
}
}
Handle handle = GetPcvHandle();
if (handle == INVALID_HANDLE) {
FileUtils::LogLine("Invalid handle!");
return;
}
Result rc = svcWriteDebugProcessMemory(handle, table, dvfsAddress, sizeof(table));
if (R_SUCCEEDED(rc)) {
ramVmin = vmin;
}
svcCloseHandle(handle);
FileUtils::LogLine("[dvfs] voltage set to %u mV", vmin);
}
#define MC_REGISTER_BASE 0x70019000
#define MC_REGISTER_REGION_SIZE 0x1000
@@ -1021,13 +1203,13 @@ void Board::UpdateShadowRegs(u32 tRCD_i, u32 tRP_i, u32 tRAS_i, u32 tRRD_i, u32
double tXSR = (double) (tRFCab + 7.5);
args = {};
args.X[0] = 0xF0000002;
args.X[1] = EMC_REGISTER_BASE + EMC_INTSTATUS_0;
svcCallSecureMonitor(&args);
args = {};
args.X[0] = 0xF0000002;
args.X[1] = EMC_REGISTER_BASE + EMC_INTSTATUS_0;
svcCallSecureMonitor(&args);
if(args.X[1] == (EMC_REGISTER_BASE + EMC_INTSTATUS_0)) { // if param 1 is identical read failed, exosphere needs patch!
writeNotification("Horizon OC\nExosphere not patched\nfor EMC r/w");
writeNotification("Horizon OC\nExosphere not patched\nfor EMC r/w");
return;
}
@@ -1079,21 +1261,21 @@ void Board::UpdateShadowRegs(u32 tRCD_i, u32 tRP_i, u32 tRAS_i, u32 tRRD_i, u32
WRITE_REGISTER_MC(MC_EMEM_ARB_DA_COVERS_0, da_covers);
// TODO: modify mc_emem_arb_misc0
WRITE_REGISTER_MC(MC_TIMING_CONTROL_0, 0x1); // update timing regs as they are shadowed
WRITE_REGISTER_EMC(EMC_TIMING_CONTROL_0, 0x1);
}
bool Board::IsDram8GB() {
SecmonArgs args = {};
args.X[0] = 0xF0000002;
args.X[1] = MC_REGISTER_BASE + MC_EMEM_CFG_0;
svcCallSecureMonitor(&args);
SecmonArgs args = {};
args.X[0] = 0xF0000002;
args.X[1] = MC_REGISTER_BASE + MC_EMEM_CFG_0;
svcCallSecureMonitor(&args);
if(args.X[1] == (MC_REGISTER_BASE + MC_EMEM_CFG_0)) { // if param 1 is identical read failed
writeNotification("Horizon OC\nSecmon read failed!\n This may be a hardware issue!");
writeNotification("Horizon OC\nSecmon read failed!\n This may be a hardware issue!");
return false;
} else
return args.X[1] == 0x00002000 ? true : false;
}
}

10
Source/sys-clk/sysmodule/src/board.h
View File

@@ -12,9 +12,9 @@
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*
*/
/* --------------------------------------------------------------------------
* "THE BEER-WARE LICENSE" (Revision 42):
* <p-sam@d3vs.net>, <natinusala@gmail.com>, <m4x@m4xw.net>
@@ -33,6 +33,8 @@
class Board
{
public:
static void PcvHijackDvfs(u32 vmin);
static u32 GetMinimumGpuVoltage(u32 freqMhz);
static void fuseReadSpeedos();
static u16 getSpeedo(HorizonOCSpeedo speedoType);
static u16 getIDDQ(HorizonOCSpeedo speedoType);
@@ -67,4 +69,8 @@ class Board
static void FetchHardwareInfos();
static PcvModule GetPcvModule(SysClkModule sysclkModule);
static PcvModuleId GetPcvModuleId(SysClkModule sysclkModule);
private:
static void SetSpeedoBracket();
static void CacheDvfsTable();
static Handle GetPcvHandle();
};

221
Source/sys-clk/sysmodule/src/clock_manager.cpp
View File

@@ -47,8 +47,9 @@ bool hasChanged = true;
ClockManager *ClockManager::instance = NULL;
Thread governorTHREAD;
u32 initialConfigValues[SysClkConfigValue_EnumMax]; // initial config. used for safety checks
u64 previousRamHz;
bool kipAvailable = false;
ClockManager *ClockManager::GetInstance()
{
return instance;
@@ -110,42 +111,45 @@ ClockManager::ClockManager()
this->context->dramID = Board::GetDramID();
this->context->isDram8GB = Board::IsDram8GB();
previousRamHz = Board::GetHz(SysClkModule_MEM);
}
void ClockManager::FixCpuBug() {
u32 targetHz = 0;
u32 maxHz = 0;
u32 nearestHz = 0;
if(this->config->Refresh() && this->RefreshContext()) {
u32 targetHz = 0;
u32 maxHz = 0;
u32 nearestHz = 0;
// ResetToStockClocks();
// ResetToStockClocks();
targetHz = this->context->overrideFreqs[SysClkModule_CPU];
if (!targetHz) {
targetHz = this->config->GetAutoClockHz(this->context->applicationId, SysClkModule_CPU, this->context->profile, false);
if(!targetHz)
targetHz = this->config->GetAutoClockHz(GLOBAL_PROFILE_ID, SysClkModule_CPU, this->context->profile, false);
}
if (targetHz) {
maxHz = this->GetMaxAllowedHz(SysClkModule_CPU, this->context->profile);
nearestHz = this->GetNearestHz(SysClkModule_CPU, targetHz, maxHz);
while ((nearestHz = this->GetNearestHz(SysClkModule_CPU, targetHz, maxHz)) != targetHz) {
Board::SetHz(SysClkModule_CPU, 1020000000);
svcSleepThread(1'000'000);
Board::SetHz(SysClkModule_CPU, maxHz);
this->context->freqs[SysClkModule_CPU] = maxHz;
targetHz = this->context->overrideFreqs[SysClkModule_CPU];
if (!targetHz) {
targetHz = this->config->GetAutoClockHz(this->context->applicationId, SysClkModule_CPU, this->context->profile, false);
if(!targetHz)
targetHz = this->config->GetAutoClockHz(GLOBAL_PROFILE_ID, SysClkModule_CPU, this->context->profile, false);
}
if (targetHz) {
maxHz = this->GetMaxAllowedHz(SysClkModule_CPU, this->context->profile);
nearestHz = this->GetNearestHz(SysClkModule_CPU, targetHz, maxHz);
while ((nearestHz = this->GetNearestHz(SysClkModule_CPU, targetHz, maxHz)) != targetHz) {
Board::SetHz(SysClkModule_CPU, 1020000000);
svcSleepThread(1'000'000);
Board::SetHz(SysClkModule_CPU, maxHz);
this->context->freqs[SysClkModule_CPU] = maxHz;
}
Board::SetHz(SysClkModule_CPU, targetHz);
}
Board::SetHz(SysClkModule_CPU, targetHz);
}
}
ClockManager::~ClockManager()
{
threadClose(&governorTHREAD);
delete this->config;
delete this->context;
threadClose(&governorTHREAD);
}
SysClkContext ClockManager::GetCurrentContext()
@@ -194,7 +198,7 @@ std::uint32_t ClockManager::GetMaxAllowedHz(SysClkModule module, SysClkProfile p
{
if (this->config->GetConfigValue(HocClkConfigValue_UncappedClocks))
{
return 4294967294; // Integer limit, uncapped clocks ON
return ~0; // Integer limit, uncapped clocks ON
}
else
{
@@ -206,9 +210,18 @@ std::uint32_t ClockManager::GetMaxAllowedHz(SysClkModule module, SysClkProfile p
case SysClkSocType_Erista:
return 460800000;
case SysClkSocType_Mariko:
return 614400000;
switch(this->config->GetConfigValue(KipConfigValue_marikoGpuUV)) {
case 0:
return 614400000;
case 1:
return 691200000;
case 2:
return 768000000;
default:
return 614400000;
}
default:
return 4294967294;
return 460800000;
}
}
else if (profile <= SysClkProfile_HandheldChargingUSB)
@@ -217,11 +230,26 @@ std::uint32_t ClockManager::GetMaxAllowedHz(SysClkModule module, SysClkProfile p
case SysClkSocType_Erista:
return 768000000;
case SysClkSocType_Mariko:
return 921600000;
switch(this->config->GetConfigValue(KipConfigValue_marikoGpuUV)) {
case 0:
return 844800000;
case 1:
return 921600000;
case 2:
return 998400000;
default:
return 844800000;
}
default:
return 4294967294;
return 768000000;
}
}
} else if(module == SysClkModule_CPU) {
if(profile < SysClkProfile_HandheldCharging && Board::GetSocType() == SysClkSocType_Erista) {
return 1581000000;
} else {
return ~0;
}
}
}
return 0;
@@ -323,7 +351,6 @@ void ClockManager::GovernorThread(void* arg)
continue;
}
std::scoped_lock lock{mgr->contextMutex};
if (!isGovernorEnabled)
{
@@ -338,6 +365,8 @@ void ClockManager::GovernorThread(void* arg)
continue;
}
std::scoped_lock lock{mgr->contextMutex};
u32 currentHz = Board::GetHz(SysClkModule_GPU);
u32 index = 0;
@@ -457,6 +486,7 @@ void ClockManager::Tick()
if (this->RefreshContext() || this->config->Refresh())
{
if(this->config->GetConfigValue(HorizonOCConfigValue_BatteryChargeCurrent)) {
I2c_Bq24193_SetFastChargeCurrentLimit(this->config->GetConfigValue(HorizonOCConfigValue_BatteryChargeCurrent));
}
@@ -468,10 +498,13 @@ void ClockManager::Tick()
// ResetToStockClocks();
return;
}
previousRamHz = Board::GetHz(SysClkModule_MEM);
bool returnRaw = false;
for (unsigned int module = 0; module < SysClkModule_EnumMax; module++)
{
u32 oldHz = Board::GetHz((SysClkModule)module);
if(module > SysClkModule_MEM)
returnRaw = true;
else
@@ -532,9 +565,47 @@ void ClockManager::Tick()
targetHz / 1000000, targetHz / 100000 - targetHz / 1000000 * 10
);
if(module == SysClkModule_MEM && Board::GetSocType() == SysClkSocType_Mariko && targetHz > oldHz && this->config->GetConfigValue(HorizonOCConfigValue_DVFSMode) == DVFSMode_Hijack) {
s32 dvfsOffset = this->config->GetConfigValue(HorizonOCConfigValue_DVFSOffset);
dvfsOffset = std::max(dvfsOffset, -50);
u32 vmin = Board::GetMinimumGpuVoltage(targetHz / 1000000) + dvfsOffset;
Board::PcvHijackDvfs(vmin);
/* Update the voltage. */
if (I2c_BuckConverter_GetMvOut(&I2c_Mariko_GPU) < vmin) {
I2c_BuckConverter_SetMvOut(&I2c_Mariko_GPU, vmin);
}
this->context->voltages[HocClkVoltage_GPU] = vmin;
}
Board::SetHz((SysClkModule)module, nearestHz);
this->context->freqs[module] = nearestHz;
}
if(module == SysClkModule_MEM && Board::GetSocType() == SysClkSocType_Mariko && targetHz < oldHz && this->config->GetConfigValue(HorizonOCConfigValue_DVFSMode) == DVFSMode_Hijack) {
s32 dvfsOffset = this->config->GetConfigValue(HorizonOCConfigValue_DVFSOffset);
dvfsOffset = std::max(dvfsOffset, -50);
u32 vmin = Board::GetMinimumGpuVoltage(targetHz / 1000000) + dvfsOffset;
Board::PcvHijackDvfs(vmin);
targetHz = this->context->overrideFreqs[SysClkModule_GPU];
if (!targetHz)
{
targetHz = this->config->GetAutoClockHz(this->context->applicationId, SysClkModule_GPU, this->context->profile, false);
if(!targetHz)
targetHz = this->config->GetAutoClockHz(GLOBAL_PROFILE_ID, SysClkModule_GPU, this->context->profile, false);
}
if(targetHz) {
Board::SetHz(SysClkModule_GPU, ~0);
Board::SetHz(SysClkModule_GPU, targetHz);
} else {
Board::SetHz(SysClkModule_GPU, ~0);
Board::ResetToStockGpu();
}
}
if(module == SysClkModule_CPU && this->config->GetConfigValue(HocClkConfigValue_FixCpuVoltBug)) {
FixCpuBug();
}
@@ -559,7 +630,7 @@ void ClockManager::WaitForNextTick()
bool ClockManager::RefreshContext()
{
bool hasChanged = false;
std::uint32_t mode = 0;
Result rc = apmExtGetCurrentPerformanceConfiguration(&mode);
ASSERT_RESULT_OK(rc, "apmExtGetCurrentPerformanceConfiguration");
@@ -621,6 +692,26 @@ bool ClockManager::RefreshContext()
break;
case SysClkModule_MEM:
Board::ResetToStockMem();
if (Board::GetSocType() == SysClkSocType_Mariko && this->config->GetConfigValue(HorizonOCConfigValue_DVFSMode) == DVFSMode_Hijack) {
Board::PcvHijackDvfs(0);
u32 targetHz = this->context->overrideFreqs[SysClkModule_GPU];
if (!targetHz)
{
targetHz = this->config->GetAutoClockHz(this->context->applicationId, SysClkModule_GPU, this->context->profile, false);
if(!targetHz)
targetHz = this->config->GetAutoClockHz(GLOBAL_PROFILE_ID, SysClkModule_GPU, this->context->profile, false);
}
if(targetHz) {
Board::SetHz(SysClkModule_GPU, ~0);
Board::SetHz(SysClkModule_GPU, targetHz);
} else {
Board::SetHz(SysClkModule_GPU, ~0);
Board::ResetToStockGpu();
}
}
break;
}
}
@@ -736,7 +827,7 @@ void ClockManager::SetKipData() {
}
CUST_WRITE_FIELD_BATCH(&table, custRev, this->config->GetConfigValue(KipConfigValue_custRev));
CUST_WRITE_FIELD_BATCH(&table, mtcConf, this->config->GetConfigValue(KipConfigValue_mtcConf));
// CUST_WRITE_FIELD_BATCH(&table, mtcConf, this->config->GetConfigValue(KipConfigValue_mtcConf));
CUST_WRITE_FIELD_BATCH(&table, hpMode, this->config->GetConfigValue(KipConfigValue_hpMode));
CUST_WRITE_FIELD_BATCH(&table, commonEmcMemVolt, this->config->GetConfigValue(KipConfigValue_commonEmcMemVolt));
@@ -755,7 +846,6 @@ void ClockManager::SetKipData() {
CUST_WRITE_FIELD_BATCH(&table, t8_tREFI, this->config->GetConfigValue(KipConfigValue_t8_tREFI));
CUST_WRITE_FIELD_BATCH(&table, mem_burst_read_latency, this->config->GetConfigValue(KipConfigValue_mem_burst_read_latency));
CUST_WRITE_FIELD_BATCH(&table, mem_burst_write_latency, this->config->GetConfigValue(KipConfigValue_mem_burst_write_latency));
CUST_WRITE_FIELD_BATCH(&table, eristaCpuUV, this->config->GetConfigValue(KipConfigValue_eristaCpuUV));
CUST_WRITE_FIELD_BATCH(&table, eristaCpuVmin, this->config->GetConfigValue(KipConfigValue_eristaCpuVmin));
CUST_WRITE_FIELD_BATCH(&table, eristaCpuMaxVolt, this->config->GetConfigValue(KipConfigValue_eristaCpuMaxVolt));
@@ -790,6 +880,9 @@ void ClockManager::SetKipData() {
table.eristaGpuVoltArray[i] = this->config->GetConfigValue((SysClkConfigValue)(KipConfigValue_g_volt_e_76800 + i));
}
CUST_WRITE_FIELD_BATCH(&table, t6_tRTW_fine_tune, this->config->GetConfigValue(KipConfigValue_t6_tRTW_fine_tune));
CUST_WRITE_FIELD_BATCH(&table, t7_tWTR_fine_tune, this->config->GetConfigValue(KipConfigValue_t7_tWTR_fine_tune));
if (!cust_write_table("sdmc:/atmosphere/kips/hoc.kip", &table)) {
FileUtils::LogLine("[clock_manager] Failed to write KIP file");
writeNotification("Horizon OC\nKip write failed");
@@ -851,11 +944,13 @@ void ClockManager::GetKipData() {
}
static bool writeBootConfigValues = true;
configValues.values[KipCrc32] = (u64)checksum_file("sdmc:/atmosphere/kips/hoc.kip"); // write checksum
if(writeBootConfigValues) {
writeBootConfigValues = false;
initialConfigValues[KipConfigValue_mtcConf] = cust_get_mtc_conf(&table);
// initialConfigValues[KipConfigValue_mtcConf] = cust_get_mtc_conf(&table);
initialConfigValues[KipConfigValue_hpMode] = cust_get_hp_mode(&table);
initialConfigValues[KipConfigValue_commonEmcMemVolt] = cust_get_common_emc_volt(&table);
@@ -880,7 +975,6 @@ void ClockManager::GetKipData() {
initialConfigValues[KipConfigValue_eristaCpuMaxVolt] = cust_get_erista_cpu_max_volt(&table);
initialConfigValues[KipConfigValue_eristaCpuUnlock] = cust_get_eristaCpuUnlock(&table);
initialConfigValues[KipConfigValue_marikoCpuUVLow] = cust_get_mariko_cpu_uv_low(&table);
initialConfigValues[KipConfigValue_marikoCpuUVHigh] = cust_get_mariko_cpu_uv_high(&table);
initialConfigValues[KipConfigValue_tableConf] = cust_get_table_conf(&table);
@@ -898,9 +992,11 @@ void ClockManager::GetKipData() {
initialConfigValues[KipConfigValue_marikoGpuVmax] = cust_get_mariko_gpu_vmax(&table);
initialConfigValues[KipConfigValue_commonGpuVoltOffset] = cust_get_common_gpu_offset(&table);
initialConfigValues[KipConfigValue_gpuSpeedo] = cust_get_gpu_speedo(&table);
initialConfigValues[KipConfigValue_t6_tRTW_fine_tune] = cust_get_tRTW_fine_tune(&table);
initialConfigValues[KipConfigValue_t7_tWTR_fine_tune] = cust_get_tWTR_fine_tune(&table);
}
configValues.values[KipConfigValue_mtcConf] = cust_get_mtc_conf(&table);
// configValues.values[KipConfigValue_mtcConf] = cust_get_mtc_conf(&table);
configValues.values[KipConfigValue_hpMode] = cust_get_hp_mode(&table);
configValues.values[KipConfigValue_commonEmcMemVolt] = cust_get_common_emc_volt(&table);
@@ -954,6 +1050,9 @@ void ClockManager::GetKipData() {
initialConfigValues[KipConfigValue_g_volt_e_76800 + i] = cust_get_erista_gpu_volt(&table, i);
}
configValues.values[KipConfigValue_t7_tWTR_fine_tune] = cust_get_tWTR_fine_tune(&table);
configValues.values[KipConfigValue_t6_tRTW_fine_tune] = cust_get_tRTW_fine_tune(&table);
// if(cust_get_cust_rev(&table) == KIP_CUST_REV)
// return;
@@ -992,55 +1091,3 @@ void ClockManager::UpdateRamTimings() {
Board::UpdateShadowRegs(t1_tRCD, t2_tRP, t3_tRAS, t4_tRRD, t5_tRFC, t6_tRTW, t7_tWTR, t8_tREFI, ramFreq, rlAdd, wlAdd, hpMode);
}
unsigned int ramBrackets[][22] =
{
{ 2133, 2200, 2266, 2300, 2366, 2400, 2433, 2466, 2533, 2566, 2600, 2633, 2700, 2733, 2766, 2833, 2866, 2900, 2933, 3033, 3066, 3100, },
{ 2300, 2366, 2433, 2466, 2533, 2566, 2633, 2700, 2733, 2800, 2833, 2900, 2933, 2966, 3033, 3066, 3100, 3133, 3166, 3200, 3233, 3266, },
{ 2433, 2466, 2533, 2600, 2666, 2733, 2766, 2800, 2833, 2866, 2933, 2966, 3033, 3066, 3100, 3133, 3166, 3200, 3233, 3300, 3333, 3366, },
{ 2500, 2533, 2600, 2633, 2666, 2733, 2800, 2866, 2900, 2966, 3033, 3100, 3166, 3200, 3233, 3266, 3300, 3333, 3366, 3400, 3400, 3400, }
};
unsigned int gpuDvfsArray[] = { 590, 600, 610, 620, 630, 640, 650, 660, 670, 680, 690, 700, 710, 720, 730, 740, 750, 760, 770, 780, 790, 800};
int ClockManager::GetSpeedoBracket (int speedo)
{
int speedoBracket = 3;
if ((speedo < 1754) && (speedoBracket = 2, speedo < 1690)) {
speedoBracket = !!(1625 < speedo);
}
return speedoBracket;
}
unsigned int ClockManager::GetGpuVoltage (unsigned int freq, int speedo)
{
long int loop;
int bracket = GetSpeedoBracket(speedo);
if (freq < 1601)
return 610;
loop = 0;
do
{
if (freq <= ramBrackets[bracket][loop])
return gpuDvfsArray[loop];
loop++;
} while (loop != 22);
return 800;
}
void ClockManager::calculateGpuVmin (void)
{
if(this->config->Refresh()) {
SysClkConfigValueList configValues;
this->config->GetConfigValues(&configValues);
int speedo = Board::getSpeedo(HorizonOCSpeedo_CPU), freq = this->config->GetConfigValue(KipConfigValue_marikoEmcMaxClock);
configValues.values[KipConfigValue_marikoGpuVmin] = GetGpuVoltage(freq, speedo);
this->config->SetConfigValues(&configValues, true);
}
}

20
Source/sys-clk/sysmodule/src/ipc_service.cpp
View File

@@ -12,9 +12,9 @@
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*
*/
/* --------------------------------------------------------------------------
* "THE BEER-WARE LICENSE" (Revision 42):
* <p-sam@d3vs.net>, <natinusala@gmail.com>, <m4x@m4xw.net>
@@ -43,7 +43,7 @@ IpcService::IpcService(ClockManager* clockMgr)
this->running = false;
this->clockMgr = clockMgr;
}
void IpcService::SetRunning(bool running)
@@ -214,11 +214,6 @@ Result IpcService::ServiceHandlerFunc(void* arg, const IpcServerRequest* r, u8*
return ipcSrv->UpdateEmcRegs();
}
break;
case HocClkIpcCmd_CalculateGpuVmin:
if (r->data.size >= 0) {
return ipcSrv->CalculateGPUVmin();
}
break;
}
return SYSCLK_ERROR(Generic);
@@ -377,13 +372,13 @@ Result IpcService::SetReverseNXRTMode(ReverseNXMode mode) {
Result IpcService::SetKipData() {
this->clockMgr->SetKipData();
return 0;
}
Result IpcService::GetKipData() {
this->clockMgr->GetKipData();
return 0;
}
@@ -392,8 +387,3 @@ Result IpcService::UpdateEmcRegs() {
return 0;
}
Result IpcService::CalculateGPUVmin() {
this->clockMgr->calculateGpuVmin();
return 0;
}

27
Source/sys-clk/sysmodule/src/kip.h
View File

@@ -12,9 +12,9 @@
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*
*/
#pragma once
#include <switch.h>
@@ -28,13 +28,14 @@
typedef struct {
u8 cust[4];
u32 custRev;
u32 mtcConf;
u32 placeholder;
u32 hpMode;
u32 commonEmcMemVolt;
u32 eristaEmcMaxClock;
u32 marikoEmcMaxClock;
u32 marikoEmcVddqVolt;
u32 emcDvbShift;
// advanced config
u32 t1_tRCD;
u32 t2_tRP;
u32 t3_tRAS;
@@ -43,6 +44,7 @@ typedef struct {
u32 t6_tRTW;
u32 t7_tWTR;
u32 t8_tREFI;
u32 mem_burst_read_latency;
u32 mem_burst_write_latency;
@@ -58,17 +60,28 @@ typedef struct {
u32 marikoCpuHighVmin;
u32 marikoCpuMaxVolt;
u32 marikoCpuMaxClock;
u32 eristaCpuBoostClock;
u32 marikoCpuBoostClock;
u32 eristaGpuUV;
u32 eristaGpuVmin;
u32 marikoGpuUV;
u32 marikoGpuVmin;
u32 marikoGpuVmax;
u32 commonGpuVoltOffset;
u32 gpuSpeedo;
u32 eristaGpuVoltArray[27];
u32 marikoGpuVoltArray[24];
u32 t6_tRTW_fine_tune;
u32 t7_tWTR_fine_tune;
u32 reserved[60];
} CustomizeTable;
#pragma pack(pop)
@@ -174,7 +187,7 @@ static inline bool cust_read_and_cache(const char* path, CustomizeTable* out) {
} while (0)
static inline bool cust_set_cust_rev(const char* p, u32 v) { CUST_WRITE_FIELD(p, custRev, v); }
static inline bool cust_set_mtc_conf(const char* p, u32 v) { CUST_WRITE_FIELD(p, mtcConf, v); }
// static inline bool cust_set_mtc_conf(const char* p, u32 v) { CUST_WRITE_FIELD(p, mtcConf, v); }
static inline bool cust_set_hp_mode(const char* p, u32 v) { CUST_WRITE_FIELD(p, hpMode, v); }
static inline bool cust_set_common_emc_volt(const char* p, u32 v) { CUST_WRITE_FIELD(p, commonEmcMemVolt, v); }
@@ -191,6 +204,8 @@ static inline bool cust_set_tRFC(const char* p, u32 v) { CUST_WRITE_FIELD(p, t5_
static inline bool cust_set_tRTW(const char* p, u32 v) { CUST_WRITE_FIELD(p, t6_tRTW, v); }
static inline bool cust_set_tWTR(const char* p, u32 v) { CUST_WRITE_FIELD(p, t7_tWTR, v); }
static inline bool cust_set_tREFI(const char* p, u32 v) { CUST_WRITE_FIELD(p, t8_tREFI, v); }
static inline bool cust_set_tRTW_fine_tune(const char* p, u32 v) { CUST_WRITE_FIELD(p, t6_tRTW_fine_tune, v); }
static inline bool cust_set_tWTR_fine_tune(const char* p, u32 v) { CUST_WRITE_FIELD(p, t7_tWTR_fine_tune, v); }
static inline bool cust_set_burst_read_lat(const char* p, u32 v) { CUST_WRITE_FIELD(p, mem_burst_read_latency, v); }
static inline bool cust_set_burst_write_lat(const char* p, u32 v) { CUST_WRITE_FIELD(p, mem_burst_write_latency, v); }
@@ -241,7 +256,7 @@ static inline u32 cust_get_field(const CustomizeTable* t, u32 offset) {
#define CUST_GET_FIELD(table, field) ((table) ? (table)->field : 0)
static inline u32 cust_get_cust_rev(const CustomizeTable* t) { return CUST_GET_FIELD(t, custRev); }
static inline u32 cust_get_mtc_conf(const CustomizeTable* t) { return CUST_GET_FIELD(t, mtcConf); }
// static inline u32 cust_get_mtc_conf(const CustomizeTable* t) { return CUST_GET_FIELD(t, mtcConf); }
static inline u32 cust_get_hp_mode(const CustomizeTable* t) { return CUST_GET_FIELD(t, hpMode); }
static inline u32 cust_get_common_emc_volt(const CustomizeTable* t) { return CUST_GET_FIELD(t, commonEmcMemVolt); }
@@ -258,6 +273,8 @@ static inline u32 cust_get_tRFC(const CustomizeTable* t) { return CUST_GET_FIELD
static inline u32 cust_get_tRTW(const CustomizeTable* t) { return CUST_GET_FIELD(t, t6_tRTW); }
static inline u32 cust_get_tWTR(const CustomizeTable* t) { return CUST_GET_FIELD(t, t7_tWTR); }
static inline u32 cust_get_tREFI(const CustomizeTable* t) { return CUST_GET_FIELD(t, t8_tREFI); }
static inline u32 cust_get_tRTW_fine_tune(const CustomizeTable* t) { return CUST_GET_FIELD(t, t6_tRTW_fine_tune); }
static inline u32 cust_get_tWTR_fine_tune(const CustomizeTable* t) { return CUST_GET_FIELD(t, t7_tWTR_fine_tune); }
static inline u32 cust_get_burst_read_lat(const CustomizeTable* t) { return CUST_GET_FIELD(t, mem_burst_read_latency); }
static inline u32 cust_get_burst_write_lat(const CustomizeTable* t) { return CUST_GET_FIELD(t, mem_burst_write_latency); }

7
Source/sys-clk/sysmodule/src/process_management.cpp
View File

@@ -28,6 +28,7 @@
#include "process_management.h"
#include "file_utils.h"
#include "errors.h"
#define IS_QLAUNCH 0x20f
void ProcessManagement::Initialize()
{
@@ -47,7 +48,7 @@ void ProcessManagement::WaitForQLaunch()
do
{
rc = pmdmntGetProcessId(&pid, PROCESS_MANAGEMENT_QLAUNCH_TID);
svcSleepThread(500000000ULL);
svcSleepThread(50 * 1000000ULL); // 50ms
} while (R_FAILED(rc));
}
@@ -58,7 +59,7 @@ std::uint64_t ProcessManagement::GetCurrentApplicationId()
std::uint64_t tid = 0;
rc = pmdmntGetApplicationProcessId(&pid);
if (rc == 0x20f)
if (rc == IS_QLAUNCH)
{
return PROCESS_MANAGEMENT_QLAUNCH_TID;
}
@@ -67,7 +68,7 @@ std::uint64_t ProcessManagement::GetCurrentApplicationId()
rc = pminfoGetProgramId(&tid, pid);
if (rc == 0x20f)
if (rc == IS_QLAUNCH)
{
return PROCESS_MANAGEMENT_QLAUNCH_TID;
}

1
ams_ver.txt Normal file
View File

@@ -0,0 +1 @@
1.10.2

2
build.sh
View File

@@ -26,7 +26,7 @@ cp Horizon-OC-Monitor.ovl ../../dist/switch/.overlays/Horizon-OC-Monitor.ovl
cd ../../
ROOT="build"
PATCHES="Atmosphere-Patches"
PATCHES="Source/Atmosphere-Patches"
cp "$PATCHES/secmon_memory_layout.hpp" "$ROOT/libraries/libexosphere/include/exosphere/secmon/"
cp "$PATCHES/secmon_emc_access_table_data.inc" "$ROOT/exosphere/program/source/smc/"

78
dist/README.md vendored
View File

@@ -7,7 +7,7 @@
![License: GPL-2.0](https://img.shields.io/badge/GPL--2.0-red?style=for-the-badge)
![Nintendo Switch](https://img.shields.io/badge/Nintendo_Switch-E60012?style=for-the-badge\&logo=nintendo-switch\&logoColor=white)
[![Discord](https://img.shields.io/badge/Discord-5865F2?style=for-the-badge\&logo=discord\&logoColor=white)](https://discord.com/invite/S3eX47dHsB)
[![Discord](https://img.shields.io/badge/Discord-5865F2?style=for-the-badge\&logo=discord\&logoColor=white)](https://dsc.gg/horizonoc)
![VSCode](https://img.shields.io/badge/VSCode-0078D4?style=for-the-badge\&logo=visual%20studio%20code\&logoColor=white)
![Made with Notepad++](assets/np++.png?raw=true)
![C++](https://img.shields.io/badge/C%2B%2B-00599C?style=for-the-badge\&logo=c%2B%2B\&logoColor=white)
@@ -41,9 +41,7 @@ It enables advanced CPU, GPU, and RAM tuning with user-friendly configuration to
* Built-in configurator
* Compatible with most homebrew
> *Higher (potentially dangerous) frequencies are unlockable via configuration.*
> *Erista and Mariko units can usually push a bit further fully safely with a bit of undervolting, however this may not work on all units.*
> *The exact maximum overclock possible varies per console, although most consoles should be able to do this safely.*
> It is reccomended to read the [guide](https://rentry.co/howtoget60fps) before proceeding, as this can help you get a *significant* performance boost over the default settings, often times with less power draw and heat output
---
@@ -69,7 +67,7 @@ It enables advanced CPU, GPU, and RAM tuning with user-friendly configuration to
1. Open the Horizon OC Overlay
2. Open the settings menu
3. Adjust your overclocking settings as desired.
3. Adjust your overclocking settings as desired. A helpful guide can be found [here.](https://rentry.co/mariko#oc-settings-for-horizon-oc)
4. Click **Save KIP Settings** to apply your configuration.
---
@@ -78,6 +76,73 @@ It enables advanced CPU, GPU, and RAM tuning with user-friendly configuration to
Refer to COMPILATION.md
---
## Clock table
### MEM clocks
* 3200 → max on mariko, JEDEC.
* 2933 → JEDEC.
* 2666 → JEDEC.
* 2400 → max on erista, JEDEC.
* 2133 → mariko safe max (4266 Modules), JEDEC.
* 1996 → JEDEC.
* 1866 → mariko safe max (3733 Modules), JEDEC.
* 1600 → official docked, boost mode, erista safe max, JEDEC.
* 1331 → official handheld, JEDEC.
* 1065
* 800
* 665
### CPU clocks
* 2601 → mariko absolute max, very dangerous
* 2499
* 2397 → mariko safe max with UV (low speedo)
* 2295
* 2193
* 2091
* 1963 → mariko no UV max clock
* 1887
* 1785 → erista no UV max clock, boost mode
* 1683
* 1581
* 1428
* 1326
* 1224 → sdev oc
* 1122
* 1020 → official docked & handheld
* 918
* 816
* 714
* 612 → sleep mode
### GPU clocks
* 1536 → absolute max clock on mariko. very dangerous
* 1459
* 1382
* 1305
* 1267 → NVIDIA T214 rating
* 1228 → mariko HiOPT safe clock
* 1152 → mariko SLT max clock
* 1075 → mariko no UV max clock. absolute max clock on erista. very dangerous
* 998 → NVIDIA T210 rating
* 960 (erista only) → erista slt/hiopt safe max clock
* 921 → erista no UV max clock
* 844
* 768 → official docked
* 691
* 614
* 537
* 460 → max handheld
* 384 → official handheld
* 307 → official handheld
* 230
* 153
* 76 → boost mode
**Notes:**
1. GPU overclock is capped at 460MHz in handheld and capped at 768MHz if charging, unless you're using the official charger.
2. Clocks higher than 768MHz need the official charger is plugged in.
---
## Credits
@@ -86,6 +151,7 @@ Refer to COMPILATION.md
* **Souldbminer** hoc-clk and loader development
* **Lightos** loader patches development
* **SciresM** - Atmosphere CFW
* **CTCaer** - L4T, Hekate, perfect ram timings
* **KazushiMe** Switch OC Suite
* **hanai3bi (meha)** Switch OC Suite, EOS, sys-clk-eos
* **NaGaa95** L4T-OC-kernel
@@ -95,4 +161,4 @@ Refer to COMPILATION.md
* **MasaGratoR and ZachyCatGames** - General help
* **MasaGratoR** - Status Monitor & Display Refresh Rate Driver
* **Dom, Samybigio, Arcdelta, Miki, Happy, Flopsider, Winnerboi77, Blaise, Alvise, TDRR, agjeococh and Xenshen** - Testing
* **Samybigio2011** - Italian translations
* **Samybigio2011** - Italian translations

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dist/atmosphere/contents/00FF0000636C6BFF/exefs.nsp vendored
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