| name | update-skia |
| description | Update the Skia graphics library to a new Chrome milestone in SkiaSharp's mono/skia fork. Handles upstream merge, C API shim fixes, binding regeneration, C# wrapper updates, and dual-repo PR coordination.
Use when user asks to: - Update/bump Skia to a new milestone (m120, m121, etc.) - Merge upstream Skia changes - Update the Skia submodule to a newer version - Check what Skia milestone is current or what version of Skia is used
Triggers: "update skia", "bump skia", "skia milestone", "update to m121", "merge upstream skia", "skia update", "new skia version", "what milestone", "what version of skia", "current skia version", "check skia version".
For updating individual dependencies (libpng, zlib, etc.), use `native-dependency-update` instead. For security audits, use `security-audit` instead.
|
Update Skia Milestone Skill
Update Google Skia to a new Chrome milestone in SkiaSharp's mono/skia fork.
Key References
Scripts
scripts/update-versions.ps1 — Phase 6: Updates all version files and runs verification
scripts/regenerate-bindings.ps1 — Phase 8: Regenerates bindings, reverts HarfBuzz, reports new functions
Overview
Updating Skia is the highest-risk operation in SkiaSharp. It touches:
- The native C++ Skia library (upstream merge)
- The custom C API shim layer (must be adapted to new C++ APIs)
- Generated P/Invoke bindings
- C# wrapper code
- All platforms (macOS, Windows, Linux, iOS, Android, etc.)
Go slow. Research first. Build and test before any PR.
⚠️ Follow Every Phase In Order
This is an 11-phase workflow where each phase builds on the previous one. The phases exist
because Skia updates touch four layers (C++ → C API → generated bindings → C# wrappers)
and two repositories (mono/skia + mono/SkiaSharp). Skipping a phase doesn't just risk a
build failure — it risks shipping broken binaries to customers who won't see the problem
until runtime.
Each phase ends with a gate — a verification step that confirms the phase completed
correctly. Re-read each phase's instructions before executing it, because the details
are project-specific and easy to get wrong from memory.
What You're About to Do
A. Research (Phases 1–3)
1. Discovery & Current State
2. Breaking Change Analysis
3. Validation
B. Branch & Merge (Phases 4–5)
4. Branch Setup
5. Upstream Merge
C. Update & Build (Phases 6–7)
6. Update Version Files
7. Fix C API Shim & Build Native
D. Regenerate & Verify (Phases 8–10)
8. Regenerate Bindings
9. Fix C# Wrappers
10. Build & Test
E. Ship (Phase 11)
11. Create PRs
Critical Rules
🛑 STOP AND ASK before: Merging PRs, Force pushing, Deleting branches, Any destructive git operations
🚫 BRANCH PROTECTION (MANDATORY)
| Repository | Protected Branches | Action Required |
|---|
| mono/SkiaSharp (parent) | main | Create feature branch first |
| mono/skia (submodule) | main, skiasharp | Create feature branch first |
❌ NEVER Do These
| Shortcut | Why It's Wrong |
|---|
Push directly to skiasharp or main | Bypasses PR review and CI |
| Skip breaking change analysis | Causes runtime crashes for customers |
Use externals-download after C API changes | Causes EntryPointNotFoundException |
| Merge both PRs without updating submodule in between | Squash-merge orphans commits |
| Skip tests | Untested code = broken customers |
A. Research (Phases 1–3)
Phase 1: Discovery & Current State
-
Identify current milestone:
grep SK_MILESTONE externals/skia/include/core/SkMilestone.h
grep "^libSkiaSharp.*milestone" scripts/VERSIONS.txt
grep chrome_milestone cgmanifest.json
-
Identify target milestone from user request.
-
Check for existing PRs — Search both mono/SkiaSharp and mono/skia for open update PRs.
-
Verify upstream branches exist and fetch:
cd externals/skia
git remote add upstream https://github.com/google/skia.git 2>/dev/null
git fetch upstream {UPSTREAM_REF}
{UPSTREAM_REF} is the upstream ref you merge from: chrome/m{TARGET} for a normal
milestone/release-line update, or main for a main/tip sync (see step 5).
Note: When this phase is pre-computed by the automated workflow, you still need to
add the upstream remote and fetch {UPSTREAM_REF} — Phase 5 depends on it.
-
Determine the base branch (main vs a release line). Most updates target main
(newest, in-development line) with skiasharp as the mono/skia base. But when the target
milestone is older than main's milestone AND a matching release branch exists, the
update targets that release line instead:
git ls-remote --heads origin "refs/heads/release/*.{TARGET}.x"
git -C externals/skia ls-remote --heads origin "refs/heads/release/*.{TARGET}.x"
| Variable | main target | release-line target | main/tip mode |
|---|
{UPSTREAM_REF} (merge from) | chrome/m{TARGET} | chrome/m{TARGET} | main (HEAD) |
{BASE_BRANCH} (SkiaSharp) | main | release/<major>.{TARGET}.x | main |
{SKIA_BASE_BRANCH} (mono/skia) | skiasharp | release/<major>.{TARGET}.x | skiasharp |
{HEAD_BRANCH} (both repos) | skia-sync/m{TARGET} | skia-sync/release-<major>.{TARGET}.x | skia-sync/main |
The table's three columns are the three possible sync modes. main target (the default)
is a normal milestone bump; the other two are special cases:
Release-line target — chosen when {TARGET} is older than main's milestone AND a
matching release/<major>.{TARGET}.x branch exists. Always a bug-fix-only sync
(CURRENT == TARGET): do NOT bump the milestone/soname/nuget version in Phase 6 — only
cgmanifest.json's commit hash changes.
🛑 The release branch must already exist in BOTH repos. Branch creation is owned by
the release process (release-branch skill), not this skill. If the SkiaSharp
release/<major>.{TARGET}.x branch exists but the mono/skia one does NOT, STOP and fail —
do not create it here. Ask a human to cut the mono/skia release branch first.
main (tip) mode — instead of a chrome/m{TARGET} milestone branch, merge the very tip of
upstream google/skia main (HEAD). Like a main target it uses {BASE_BRANCH} = main and
{SKIA_BASE_BRANCH} = skiasharp, but with {HEAD_BRANCH} = skia-sync/main and
{UPSTREAM_REF} = main, and CURRENT == TARGET, so it is NOT a version bump — keep the
milestone/soname/nuget versions unchanged. Unlike a release-line bug-fix sync it MAY still
include new upstream API/binding changes, so regenerate + build + test as normal (Phases 8–10).
A tip merge is large and conflict-heavy because the submodule base is well behind main, so the
verify-upstream-or-reapply policy (Phase 5 / gotcha #15) is
mandatory. Because the tip is not a milestone branch, the milestone-pair diff in Phase 2 step 4
doesn't apply — substitute $(git merge-base {SKIA_BASE_BRANCH} upstream/main)..upstream/main
(Phase 5's diffs already use {UPSTREAM_REF}, so they need no change).
Use these {UPSTREAM_REF} / {BASE_BRANCH} / {SKIA_BASE_BRANCH} / {HEAD_BRANCH} values
everywhere below in place of the hardcoded chrome/m{TARGET} / main / skiasharp /
skia-sync/m{TARGET} defaults.
🛑 GATE: Confirm current milestone, target milestone, the base branch (main vs release line,
with the mono/skia base branch confirmed to exist), and that the upstream branch exists.
Phase 2: Breaking Change Analysis
This is the most critical phase. Thorough analysis here prevents customer-facing breakage.
-
Read official release notes for EVERY milestone being skipped:
- Fetch
https://raw.githubusercontent.com/google/skia/main/RELEASE_NOTES.md
- Document all changes for each milestone between current and target
-
Categorize changes by impact:
| Category | Risk | Examples |
|---|
| Removed APIs | 🔴 HIGH | Functions deleted, enums removed |
| Renamed/Moved APIs | 🟡 MEDIUM | Namespace changes, header moves |
| New APIs | 🟢 LOW | Additive changes, new factories |
| Behavior changes | 🟡 MEDIUM | Default changes, semantic shifts |
| Graphite-only | ⚪ SKIP | SkiaSharp uses Ganesh, not Graphite |
-
Map each HIGH/MEDIUM change to C API files:
cd externals/skia
grep -r "GrMipmapped\|GrMipMapped" src/c/ include/c/
grep -r "refTypefaceOrDefault\|getTypefaceOrDefault" src/c/ include/c/
-
Run structural diff on include/ directory:
git diff upstream/chrome/m{CURRENT}..upstream/chrome/m{TARGET} --stat -- include/
git diff upstream/chrome/m{CURRENT}..upstream/chrome/m{TARGET} -- include/core/ include/gpu/ganesh/
👉 See references/breaking-changes-checklist.md for the full analysis template, including verification steps for struct sizes, moved files, and diff-reading traps.
🛑 GATE: Include the breaking change analysis in the PR description body. Summarize the
key findings (HIGH/MEDIUM risk changes and their C API impact) for the user.
Phase 3: Validation
The agent performing the breaking change analysis has blind spots — it may filter out
relevant changes or miss moved headers. An independent validation catches these before
they become runtime crashes.
Launch an explore agent with model: "claude-opus-4.6" using the prompt template from
references/validation-prompt.md — substitute the
milestone numbers and paste your breaking change analysis table. The default explore model
(Haiku) is too weak for accurate header-level validation — use Opus for reliability.
🛑 GATE: Validation agent has run and confirmed analysis. If it found missed items,
update the analysis and re-present to user before proceeding.
✅ Before proceeding to B (Branch & Merge):
- Current and target milestones confirmed
- Breaking change analysis complete
- Validation passed
B. Branch & Merge (Phases 4–5)
Phase 4: Branch Setup
⚠️ This phase creates BOTH branches before making ANY changes. You may be on a
workflow branch, a feature branch, or a detached HEAD — none of which is the right base.
You MUST branch from origin/{BASE_BRANCH} (parent) and origin/{SKIA_BASE_BRANCH}
(submodule). For a main update (and main/tip mode) those are origin/main and
origin/skiasharp; for a release-line update they are origin/release/<major>.{TARGET}.x in
both repos (see Phase 1 step 5).
Parent repo (SkiaSharp):
-
Fetch the latest base branch:
git fetch origin {BASE_BRANCH}
-
Create the feature branch from origin/{BASE_BRANCH}:
git checkout -b {HEAD_BRANCH} origin/{BASE_BRANCH}
If the branch already exists on the remote, check it out instead:
git fetch origin {HEAD_BRANCH} && git checkout {HEAD_BRANCH}
-
Verify you are on the correct branch and it is based on origin/{BASE_BRANCH}:
git log --oneline -1 origin/{BASE_BRANCH}
git log --oneline -1 HEAD
These should show the same commit (or HEAD should be ahead by only your own commits).
Submodule (mono/skia):
-
Enter the submodule:
cd externals/skia
-
Align to the SHA that origin/{BASE_BRANCH} expects (the submodule tracks
{SKIA_BASE_BRANCH} in mono/skia — skiasharp for a main update, or the matching
release/<major>.{TARGET}.x for a release-line update — NOT main):
BASE_SUB_SHA=$(git -C ../.. ls-tree origin/{BASE_BRANCH} -- externals/skia | awk '{print $3}')
git fetch origin {SKIA_BASE_BRANCH}
git checkout "$BASE_SUB_SHA"
Verify this SHA is on origin/{SKIA_BASE_BRANCH}:
git branch -r --contains "$BASE_SUB_SHA" | grep 'origin/{SKIA_BASE_BRANCH}'
-
Create the submodule feature branch:
git checkout -b {HEAD_BRANCH}
⚠️ Do NOT skip the SHA alignment step (step 5). If the submodule is at a different
SHA than origin/{BASE_BRANCH} expects, the merge will produce phantom diffs — functions that
already exist on the base branch will appear as new or removed.
🛑 GATE: Both branches created. Verify:
git rev-parse --abbrev-ref HEAD
git merge-base HEAD origin/{BASE_BRANCH}
git -C externals/skia rev-parse --abbrev-ref HEAD
Phase 5: Upstream Merge (mono/skia)
You should still be inside externals/skia from Phase 4.
-
Merge upstream — use --no-commit for manual conflict resolution:
git merge --no-commit upstream/{UPSTREAM_REF}
-
Resolve conflicts — each conflict must be resolved individually.
Never use git merge -s ours or git read-tree --reset — this destroys git blame attribution.
⚠️ MANDATORY: classify every fork patch as upstreamed or not before resolving.
For each conflicted file, list the fork patches touching it and check whether upstream already
carries each one (see gotcha #15 for the exact commands):
git log --oneline {SKIA_BASE_BRANCH} -- <conflicted-file>
git log -S "<distinctive code>" --oneline upstream/{UPSTREAM_REF}
- Upstreamed → take upstream's (possibly refined) form; record
"<subject>" upstreamed as <sha>.
- Not upstreamed → re-apply our patch on top of upstream's edits; never drop it; record
re-applied.
- Never blanket
git checkout --theirs/--ours on a file you have not classified.
| File Category | Strategy |
|---|
BUILD.gn | Combine both — keep upstream structure AND SkiaSharp's platform flags + skiasharp_build target |
DEPS | Combine — keep our dependency pins, accept upstream structure |
RELEASE_NOTES.md, infra/ | Take upstream |
C API (include/c/, src/c/) | Keep SkiaSharp — adapt includes/API calls in post-merge commits |
Other upstream source (src/, include/) | Verify-upstream-or-reapply — see gotcha #15 |
Audit (mandatory). Snapshot fork patches before merging, then cross-reference every conflict:
MB=$(git merge-base {SKIA_BASE_BRANCH} upstream/{UPSTREAM_REF})
git log --oneline "$MB..{SKIA_BASE_BRANCH}" > /tmp/fork-patches-before.txt
For every conflicted file, the fork patch(es) touching it must appear in the mono/skia PR's "Conflicts
resolved" table as upstreamed or re-applied. A fork patch on a conflicted file that is neither is a
lost patch — STOP and fix it. (Patches whose files did not conflict merge cleanly and need no listing.)
-
Commit the merge:
git commit
-
Verify our C API files survived the merge:
ls src/c/*.cpp include/c/*.h
-
Source file verification — Check for added/deleted upstream files:
git diff $(git merge-base {SKIA_BASE_BRANCH} upstream/{UPSTREAM_REF})..upstream/{UPSTREAM_REF} --diff-filter=AD --name-only -- src/ include/
Cross-reference against BUILD.gn — new source files may need to be added.
🛑 GATE: Merge complete, conflicts resolved. Verify:
ls src/c/*.cpp include/c/*.h
git diff --check
git blame src/c/sk_canvas.cpp | head -20
✅ Before proceeding to C (Update & Build):
- Parent branch is based on
origin/{BASE_BRANCH}
- Submodule is at the SHA referenced by the parent's
origin/{BASE_BRANCH} submodule pointer
- Upstream merge committed with proper two-parent history
- C API files intact, zero conflict markers
C. Update & Build (Phases 6–7)
Phase 6: Update SkiaSharp Version Files
⚠️ This MUST be done before any native build. The build scripts verify version
consistency — if VERSIONS.txt still says the old milestone, the build will fail.
Note: The script automatically resets SK_C_INCREMENT to 0 when the milestone changes.
If you had a pending increment that must survive, capture it before running.
📋 This phase is handled by a script. The script updates VERSIONS.txt, cgmanifest.json,
azure-templates-variables.yml, and verifies SK_C_INCREMENT — then runs the mandatory
verification greps. It exits non-zero if any stale references remain.
In the SkiaSharp parent repo, run:
cd ../..
pwsh .agents/skills/update-skia/scripts/update-versions.ps1 -Current {CURRENT} -Target {TARGET}
The script handles all of these (so you don't have to do them manually):
scripts/VERSIONS.txt: milestone, increment→0, soname, assembly, file, ALL ~30 nuget lines
cgmanifest.json: commitHash, version, chrome_milestone, upstream_merge_commit
scripts/azure-templates-variables.yml: SKIASHARP_VERSION (must match VERSIONS.txt nuget version)
- Verifies
SK_C_INCREMENT is 0 in externals/skia/include/c/sk_types.h
- Runs mandatory
grep verification — fails if any stale references remain
🛑 GATE: Script exits with ✅. If it exits with ❌, fix the reported stale references
and re-run until it passes.
Note: The SK_C_INCREMENT reset modifies a file in the submodule (externals/skia/).
Don't commit it separately — it will be committed with Phase 7's C API fixes.
Phase 7: Fix C API Shim & Build Native
This is where most of the work happens. The C API (src/c/, include/c/) wraps Skia C++ and
must be updated when the underlying C++ APIs change.
❌ NEVER use externals-download during a milestone update. It downloads pre-built
binaries from the OLD milestone that don't contain your C API changes. Always build from
source with externals-{platform}.
-
Restore tools and attempt to build to identify all compilation errors:
dotnet tool restore
dotnet cake --target=externals-{platform} --arch={arch}
Replace {platform} with your OS (macos, linux, windows) and {arch} with your architecture (arm64, x64).
-
Fix each error following these patterns:
| Error Type | Fix Pattern |
|---|
| Missing type | Add/update typedef in sk_types.h |
| Renamed function | Update call in *.cpp |
| Removed enum value | Remove from sk_enums.cpp + sk_types.h. Note this for Phase 9 — it needs [Obsolete] or documented removal |
| Changed signature | Update C wrapper function signature |
| New header required | Add #include in the relevant .cpp |
| Legacy flag breaks C API | Update C API to use replacement API (see gotcha #6). Do not just comment out the flag without a plan |
| New required upstream gn arg | A new upstream dependency our fork doesn't vendor may need a gn toggle (e.g. skia_use_partition_alloc=false). Add it to the affected platforms' native/**/build.cake gn-args lists — NOT a one-off --gnArgs flag (see gotcha #23) |
GN args belong in build.cake, not CLI flags. When the upstream merge introduces a
genuinely required new gn argument (typically a dependency our DEPS deliberately doesn't
vendor), add it to every affected platform's native/**/build.cake gn-args list — that
file is the single source of truth, next to the existing skia_use_* toggles. Don't paper
over it with a one-off dotnet cake … --gnArgs flag (non-durable), and don't add gn args (or
change compiler/linker flags) merely to silence a host-specific build error — that's a
missing-dependency problem, not a config one. Full rationale + the skia_use_partition_alloc
example and the milestone-sequencing caveat: gotcha #23.
-
Update sk_types.h for any new enums or type changes.
Phase 6 reset SK_C_INCREMENT to 0. Only bump it if you add new C API functions in this milestone.
The build enforces that SK_C_INCREMENT matches libSkiaSharp increment in VERSIONS.txt.
-
Build again — iterate until clean compilation.
🛑 GATE: Native library builds successfully on at least one platform.
✅ Before proceeding to D (Regenerate & Verify):
- Version files updated (Phase 6 script passed)
- Native library builds cleanly
D. Regenerate & Verify (Phases 8–10)
Phase 8: Regenerate Bindings
Prerequisite: Phase 7's native build must have completed at least once — it runs
git-sync-deps, which fetches HarfBuzz and other headers the generator needs.
📋 This phase is handled by a script. The script runs the generator, IMMEDIATELY
reverts HarfBuzz bindings (HarfBuzz updates are always separate), reports what changed,
and lists any new functions that may need C# wrappers.
pwsh .agents/skills/update-skia/scripts/regenerate-bindings.ps1
The script handles all of these (so you don't forget any):
- Runs
pwsh ./utils/generate.ps1
- Reverts
binding/HarfBuzzSharp/HarfBuzzApi.generated.cs (proactively, not reactively)
- Reports the binding diff summary
- Lists NEW generated functions that may need C# wrappers in Phase 9
After the script completes, build C# to verify compilation:
dotnet build binding/SkiaSharp/SkiaSharp.csproj
🛑 GATE: Script prints ✅ Phase 8 complete. C# build succeeds with 0 errors.
Phase 9: Fix C# Wrappers
The C# build can pass with 0 errors while new C API functions remain invisible to users.
New functions compile fine as unused internal static methods in the generated file, but
without C# wrappers they're not part of the public API. This phase applies even when
the build succeeds.
-
Review new generated bindings for unwrapped functions:
git diff origin/{BASE_BRANCH} -- binding/SkiaSharp/SkiaApi.generated.cs | grep "^+.*internal static"
⚠️ The git diff origin/{BASE_BRANCH} may show additional changes beyond new functions (e.g.
struct renames, type changes from Phase 7 shim work). These are expected and correct.
Only investigate +internal static lines — ignore other diff noise.
-
Check whether each new function has a C# wrapper:
grep -rn "sk_foo_bar" binding/SkiaSharp/*.cs | grep -v generated
New functions from our custom C API additions typically need wrappers.
New functions from upstream changes are usually additive and can be deferred.
-
Fix files in binding/SkiaSharp/ based on the breaking change analysis:
| File | When to Update |
|---|
Definitions.cs | New enums, types, or constants |
EnumMappings.cs | New enum values that need C#↔C mapping |
GRDefinitions.cs | Graphics context changes (Ganesh) |
SKImage.cs | SkImage factory changes |
SKTypeface.cs | SkTypeface API changes |
SKFont.cs | SkFont API changes |
SKCanvas.cs | Canvas drawing API changes |
Key rules:
- Add new overloads, never modify existing signatures (ABI stability)
- Use
[Obsolete] for deprecated APIs with migration guidance
- Return
null from factory methods on failure (don't throw)
Phase 10: Build & Test
dotnet cake --target=externals-{platform} --arch={arch}
dotnet build binding/SkiaSharp/SkiaSharp.csproj
-
Smoke tests (fast gate, ~100ms):
dotnet test tests/SkiaSharp.Tests.Console/SkiaSharp.Tests.Console.csproj --filter "Category=Smoke"
Smoke tests verify basic native interop: version compatibility, object creation, drawing,
image loading, fonts, codecs, effects, and more. If these fail, something fundamental is
broken — go back and fix before wasting time on the full suite.
⚠️ If the version compatibility smoke test fails with "incompatible native library",
you missed a version update — go back to Phase 6 and verify ALL version lines.
Do NOT work around this with --no-incremental or by copying native libs manually.
-
Full test suite (required before any PR): capture the output to a log you can inspect
afterward. Standalone runs can use any writable path; the automated workflow overrides this to
/tmp/gh-aw/agent/test-output.txt so it's uploaded as an artifact (see the workflow's Phase 10 note).
dotnet test tests/SkiaSharp.Tests.Console/SkiaSharp.Tests.Console.csproj 2>&1 | tee /tmp/skia-test-output.txt
Wait for it to finish (takes 5–7 min). Then read the summary:
tail -5 /tmp/skia-test-output.txt
The last line will look like: Passed! - Failed: 0, Passed: 5435, Skipped: 171, Total: 5606
This runs all test projects (core, Vulkan, Direct3D). Backend-specific tests
self-skip when hardware isn't available. CI handles WASM/Android/iOS separately.
⚠️ These MUST be two separate commands. Do NOT combine them into a single pipeline
like | tee ... | tail — the piped tail runs immediately and will show nothing useful
while tests are still running. Capture with tee first, wait for completion, then tail
the output file. After the run, inspect failures with:
grep '^ Failed' /tmp/skia-test-output.txt
Smoke tests are just that — smoke. They verify the basics. The full suite MUST pass
before the update can be considered complete. Do not create PRs with only smoke tests passing.
🛑 GATE: ALL tests pass (full suite, not just smoke). Do NOT skip failing tests.
Do NOT proceed with failures.
✅ Before proceeding to E (Ship):
- Bindings regenerated (Phase 8 script passed)
- C# builds with 0 errors
- ALL tests pass (full suite)
E. Ship (Phase 11)
Phase 11: Create PRs
Same-milestone bug-fix syncs: When CURRENT == TARGET, only cgmanifest.json's
commitHash/upstream_merge_commit change. Use PR titles like
[skia-sync] Merge upstream chrome/m{TARGET} bug fixes instead of milestone-bump titles.
A release-line update is always such a sync.
Branch targets by mode: Use the {BASE_BRANCH} / {SKIA_BASE_BRANCH} / {HEAD_BRANCH}
values resolved in Phase 1 step 5. For a main update they are main / skiasharp /
skia-sync/m{TARGET}; for main/tip mode main / skiasharp / skia-sync/main; for a
release-line update release/<major>.{TARGET}.x (both repos) / skia-sync/release-<major>.{TARGET}.x.
PR 1: mono/skia (submodule)
| Field | Value |
|---|
| Branch | {HEAD_BRANCH} |
| Target | {SKIA_BASE_BRANCH} |
| Title | [skia-sync] Merge upstream chrome/m{TARGET} |
PR 2: mono/SkiaSharp (parent)
| Field | Value |
|---|
| Branch | {HEAD_BRANCH} |
| Target | {BASE_BRANCH} |
| Title | [skia-sync] Update skia to milestone {TARGET} (or Merge upstream chrome/m{TARGET} bug fixes when CURRENT == TARGET) |
Submodule must point to the mono/skia PR branch.
Cross-link both PRs (same as native-dependency-update).
After creating BOTH PRs, update the earlier PR's description to include a link to the later one.
Both PRs must reference each other.
Phase 11 Completion Checklist
Before proceeding to merge, verify ALL of these:
Merge Sequence (CRITICAL)
- Merge mono/skia PR first → creates new squashed SHA on
{SKIA_BASE_BRANCH}
- Fetch new SHA in SkiaSharp's submodule
- Update submodule pointer, push to SkiaSharp PR branch
- Only then merge SkiaSharp PR
Merge Checklist
Before proceeding past each step, verify:
❌ NEVER merge both PRs without updating the submodule in between.
❌ NEVER assume the submodule reference is correct after squash-merging mono/skia.
Reference Material
These files contain lookup information — consult them when you hit a problem or need context,
not necessarily upfront: