The idea is to do a complete rework of Java runtime management.
The game now requires different versions of the JRE and our current approach no longer works.
The complete shape of the system is undecided at this point.
Format decisions should aim for future extensibility - don't close doors that don't need to be closed forever.
Runtime references would be used in version metadata files. Along those, a hierarchy of options / variable defaults
Currently, vanilla hardcodes these for x86
:
-Xmx800M -XX:+UnlockExperimentalVMOptions -XX:+UseG1GC -XX:G1NewSizePercent=20 -XX:G1ReservePercent=20 -XX:MaxGCPauseMillis=50 -XX:G1HeapRegionSize=16M
And these for amd64
:
-Xmx2G -XX:+UnlockExperimentalVMOptions -XX:+UseG1GC -XX:G1NewSizePercent=20 -XX:G1ReservePercent=20 -XX:MaxGCPauseMillis=50 -XX:G1HeapRegionSize=32M
This is how a Java runtime could be referenced in each Minecraft version:
{
"runtime": {
"minVersion": 7,
"variables": {
"all": {
"x86": {
"maxHeap": 800,
"heapRegionSize": 16
},
"amd64": {
"maxHeap": 2048,
"heapRegionSize": 32,
"minStack": 1
}
}
}
}
}
This is how a Java runtime could be referenced in each Minecraft version, with slightly different defaults:
{
"runtime": {
"minVersion": 17,
"variables": {
"windows": {
"x86": {
"minHeap": 512,
"maxHeap": 1450
}
},
"all": {
"x86": {
"minHeap": 512,
"maxHeap": 2048
},
"amd64": {
"minHeap": 512,
"maxHeap": 2048,
"minStack": 1
}
}
}
}
}
minVersion
and maxVersion
together define the range of Java versions a particular component can accept:
"minVersion": 17, "maxVersion": 17
means only version 17."minVersion": 16, "maxVersion": 17
means either 16 or 17. Highest will be preferred when resolving versions."minVersion": 7
means anything above and including version 7. Highest will be preferred."maxVersion": 8
means anything below and including version 8. Highest will be preferred.
If there are multiple components being composed together, range intersection operation is used to resolve the final set of eligible Java versions.
Hypothetical example:
- Minecraft X has
"minVersion": 6
- Minecraft Forge for X can only work with
"minVersion": 7, "maxVersion": 8
- When the ranges are composed together, the eligible versions are 7 and 8.
- MultiMC will try to use these, in order:
- Mojang Java 8, as long as there is one for this platform/architecture)
- System Java 8, if present
- System Java 7, if present
- FAIL to resolve and show an error
In a modpack (or instance), we could say there is an optimal heap size and minimal heap size:
{
"runtime": {
"minHeap": "2048M",
"optimalHeap": "4096M"
}
}
With this, we could:
- Warn the user if they don't have enough memory for optimal use
- Warn them harder if they have below minimum available memory
- Determine the actual heap size dynamically based on the runtime, hardware, architecture and the instance/modpack variables.
Actually specifying a Java version is probably not needed, but could be a thing.
Every major Java version has some properties.
Some versions can be mapped to a Mojang runtime, which is ready to use and available.
Every runtime has a major version - even locally installed ones - and it can be probed.
We would have a simple runtime registry that ties major versions of Java to piston coordinates and various other properties.
The piston components can be discovered from: https://launchermeta.mojang.com/v1/products/java-runtime/2ec0cc96c44e5a76b9c8b7c39df7210883d12871/all.json
This can be internally hardcoded, and only the name of the component needs to be in the MultiMC metadata.
On launch, we would load the piston index and runtime metadata files from local cache and then attempt to fetch updated ones (with usual online/offline/missing states).
[
{
"majorVersion": 7,
"managedArgs": {
"minHeap": "-Xms${value}m",
"maxHeap": "-Xmx${value}m",
"minStack": "-Xss${value}m",
"permSize": "-XX:PermSize=${value}m",
"startOnFirstThread": "-XstartOnFirstThread"
},
"hardArgs": [
"-XX:+UseG1GC",
"-XX:G1NewSizePercent=20",
"-XX:G1ReservePercent=20",
"-XX:MaxGCPauseMillis=50",
"-XX:G1HeapRegionSize=${heapRegionSize}m",
]
},
{
"majorVersion": 8,
"pistonComponent": "jre-legacy",
"managedArgs": {
"minHeap": "-Xms${value}M",
"maxHeap": "-Xmx${value}M",
"minStack": "-Xss${value}M",
"startOnFirstThread": "-XstartOnFirstThread"
},
"hardArgs": [
"-XX:+UseG1GC",
"-XX:G1NewSizePercent=20",
"-XX:G1ReservePercent=20",
"-XX:MaxGCPauseMillis=50",
"-XX:G1HeapRegionSize=${heapRegionSize}m",
]
},
{
"majorVersion": 16,
"pistonComponent": "java-runtime-alpha",
"managedArgs": {
"minHeap": "-Xms${value}m",
"maxHeap": "-Xmx${value}m",
"minStack": "-Xss${value}m",
"startOnFirstThread": "-XstartOnFirstThread"
},
"hardArgs": [
"-XX:+UseZGC"
]
},
{
"majorVersion": 17,
"pistonComponent": "java-runtime-beta",
"managedArgs": {
"minHeap": "-Xms${value}m",
"maxHeap": "-Xmx${value}m",
"minStack": "-Xss${value}m",
"startOnFirstThread": "-XstartOnFirstThread"
},
"hardArgs": [
"-XX:+UseZGC"
]
}
]
Anything below lowest major version (currently Java 7) is not supported by MultiMC.
Args from a major version propagate to any higher version that lacks a definition in the metadata, with the exception of pistonComponent
.
So, for example, when JRE overrides are enabled:
-
User selects system Java 7.
- Args from
7
are used.
- Args from
-
User selects system Java 11.
- Args from
8
are used.
- Args from
-
User selects system Java 18.
- Args from
17
are used.
- Args from
Java older than 7 will not be supported (Java code in MultiMC is built for Java 7 at the minimum). When detected, we will simply present an error.
managedArgs
are managed by MultiMC and not directly visible to the user. They depend on the left hand side (variable by name) being set in order to be passed to Java. If there is no defined value of minHeap
, -Xms${value}m
is not passed to the JRE.
startOnFirstThread
is then only specified on macOS, and replaces the current trait-based logic.
hardArgs
are hardcoded, but do show up in the UI as 'default'/'ghost' and can be customized. Variables can be substituted into hardcoded args (like heapRegionSize
for G1GC).
How the values for the variables are determined is internal to MultiMC and tuned to work well on all machines over time.
Existing Java settings in MultiMC have two layers -- global and per-instance.
The settings poorly accomodate resolving which Java to use, and/or determining the heap size and other java args dynamically.
For best user experience, the JRE settings should never have to be touched.
These affect every instance, unless overriden, and are present in multimc.cfg
:
JavaArchitecture=64
JavaPath=java
JavaTimestamp=1635003862000
JavaVersion=17.0.1
JvmArgs=-verbose:gc
LastHostname=peterix
MaxMemAlloc=8192
MinMemAlloc=4096
PermGen=128
This allows only selecting one version of Java tied to one specificy JRE binary.
Caching: When going between machines, or when the selected Java runtime disappears/changes, MultiMC asks you which Java to use again.
These variables stored in global settings are used to support that functionality.
JavaArchitecture
records the selected JRE's CPU architecture.JavaTimestamp
records the last changed timestamp of the selected JRE's binary.JavaVersion
records the selected JRE's version.LastHostname
is used as a factor to pop up the JRE selection wizard.
Actual options:
-
JavaPath
is an absolute or relative path to the JRE binary. MultiMC can use a JRE stored in its data folder via the relative path, making it slightly more portable. -
JvmArgs
are extra args added to the JRE args, by default empty. -
MinMemAlloc
directly translates to minimum heap size (-Xms${value}m
argument). -
MinMemAlloc
directly translates to maximum heap size (-Xmx${value}m
argument). -
PermGen
directly translates to Java 7 and older 'Permanent Generation' size (-Xmx${value}m
argument).The default for PermGen in MultiMC is 128m.
if (permgen != 64) { args << QString("-XX:PermSize=%1m").arg(permgen); }
Per-instance settings mirror the global settings, but need to be toggled on with override settings.
With OverrideLocation
, the instance uses its own Java runtime:
OverrideJavaLocation=true
JavaPath=/usr/lib/jvm/java-17-openjdk/bin/java
JavaArchitecture=64
JavaTimestamp=1635003862000
JavaVersion=17.0.1
With OverrideMemory
, the instance will start with different memory amounts than specified in global settings:
OverrideMemory=true
MaxMemAlloc=8192
MinMemAlloc=4096
PermGen=128
With OverrideJavaArgs
, the instance has its own extra runtime arguments (they are not combined with global):
OverrideJavaArgs=true
JvmArgs=-verbose:gc
There is also a legacy setting that overrides both location and args, but not memory.
This:
OverrideJava=true
JavaPath=/usr/lib/jvm/java-17-openjdk/bin/java
JavaArchitecture=64
JavaTimestamp=1635003862000
JavaVersion=17.0.1
JvmArgs=-verbose:gc
Is equivalent to this:
OverrideJavaArgs=true
OverrideJavaLocation=true
JavaPath=/usr/lib/jvm/java-17-openjdk/bin/java
JavaArchitecture=64
JavaTimestamp=1635003862000
JavaVersion=17.0.1
JvmArgs=-verbose:gc
The OverrideJava
turns into OverrideJavaArgs
and OverrideJavaLocation
on instance settings save.
-
Remove the globals. They could be reintroduced later, but let's not delve into that at this point.
-
Add a global JRE manager
- It scans for local JREs
- It downloads and caches the JRE metadata file
- It downloads and caches the piston metadata for available/references Mojang JREs
- It determines the state of installation for the Mojang JREs
-
Each instance determines its Java runtime major version range based on dependency constraints
- Then this can be fed into a model for selecting a JRE from the JRE manager
- Instance needs to track the selected JRE
- If there is no selected JRE, determine it dynamically
- Mojang JREs are prefered over local JREs, regardless of JRE version
- Highest possible version of the range is picked otherwise
- If nothing is picked, raise an error
- Needs UI
- If the use selected JRE becomes unavailable or no longer fits in the JRE version range, raise an error
- Needs UI
-
In the instance settings, the user can:
- Select a JRE out of one of the detected ones, or manually browse for a binary
- Mojang = essentially nothing selected - you get that when you keep this full auto
- Manual selection of a path needs to run a check on the JRE
- Set/unset the target heap size
- Set/unset the target permgen size for Java 7
- Add to or override the args
- Select a JRE out of one of the detected ones, or manually browse for a binary
-
What is a reference to a JRE in the instance settings?
- Absolute/relative binary path?
- UUID -> JRE manager?
- Optional of some sort?
- All of the above?
-
How do we preserve (if at all) the global args?
- Maybe just tell user that these are no longer used?
- Maybe turn it into something that's added extra to args of all instances?
- Think
-verbose:gc
- this is generally useful, but you don't want to type it in everywhere...
- Think
-
How do we handle the global memory settings?
- Keeping the current system for this?