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Branches Tags
GetLitFam:main
GetLitFam:deprecate
GetLitFam:docs-paths
GetLitFam:lld2
GetLitFam:v0.22.0
GetLitFam:esp-wifi-v0.11.0
GetLitFam:v0.21.1
GetLitFam:esp-wifi-v0.10.1
GetLitFam:esp-ieee802154-v0.3.1
GetLitFam:v0.21.0
GetLitFam:esp-wifi-v0.10.0
GetLitFam:esp-wifi-v0.9.1
GetLitFam:esp-wifi-v0.9.0
GetLitFam:v0.20.1
GetLitFam:v0.20.0
GetLitFam:esp-wifi-v0.8.0
GetLitFam:v0.19.0
GetLitFam:v0.18.0
GetLitFam:v0.17.0
GetLitFam:v0.16.1
GetLitFam:v0.16.0
GetLitFam:v0.15.0
GetLitFam:v0.14.1
GetLitFam:v0.14.0
GetLitFam:v0.13.1
GetLitFam:v0.13.0
GetLitFam:v0.12.0
GetLitFam:v0.11.0
GetLitFam:v0.10.0
GetLitFam:v0.9.0
GetLitFam:v0.8.0
GetLitFam:v0.7.1
GetLitFam:v0.7.0
GetLitFam:v0.5.0
GetLitFam:v0.4.0
GetLitFam:v0.3.0
GetLitFam:v0.2.0
GetLitFam:v0.1.0
..
compare: GetLitFam:esp-wifi-v0.9.0
Branches Tags
GetLitFam:main
GetLitFam:deprecate
GetLitFam:docs-paths
GetLitFam:lld2
GetLitFam:v0.22.0
GetLitFam:esp-wifi-v0.11.0
GetLitFam:v0.21.1
GetLitFam:esp-wifi-v0.10.1
GetLitFam:esp-ieee802154-v0.3.1
GetLitFam:v0.21.0
GetLitFam:esp-wifi-v0.10.0
GetLitFam:esp-wifi-v0.9.1
GetLitFam:esp-wifi-v0.9.0
GetLitFam:v0.20.1
GetLitFam:v0.20.0
GetLitFam:esp-wifi-v0.8.0
GetLitFam:v0.19.0
GetLitFam:v0.18.0
GetLitFam:v0.17.0
GetLitFam:v0.16.1
GetLitFam:v0.16.0
GetLitFam:v0.15.0
GetLitFam:v0.14.1
GetLitFam:v0.14.0
GetLitFam:v0.13.1
GetLitFam:v0.13.0
GetLitFam:v0.12.0
GetLitFam:v0.11.0
GetLitFam:v0.10.0
GetLitFam:v0.9.0
GetLitFam:v0.8.0
GetLitFam:v0.7.1
GetLitFam:v0.7.0
GetLitFam:v0.5.0
GetLitFam:v0.4.0
GetLitFam:v0.3.0
GetLitFam:v0.2.0
GetLitFam:v0.1.0

No commits in common. "main" and "esp-wifi-v0.9.0" have entirely different histories.
main ... esp-wifi-v

598 changed files with 43072 additions and 64884 deletions
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2
.cargo/config.toml
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@ -1,4 +1,2 @@
[alias]
xtask = "run --package xtask --"
xfmt = "xtask fmt-packages"
qa = "xtask run-example qa-test"

31
.github/ISSUE_TEMPLATE/bug_report.md vendored
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@ -1,31 +0,0 @@
---
name: Bug report
about: Create a report to help us improve
title: ''
labels: ["bug", "status:needs-attention"]
assignees: ''
---
## Bug description
<!-- A clear and concise description of what the bug is. -->
## To Reproduce
<!-- Steps to reproduce the behavior. -->
1. ...
2. ...
<!-- Please share the minimal repro of the issue where the bug can be reproduced. -->
<!-- Make sure you are able to reproduce the bug in the `main` branch, too. -->
## Expected behavior
<!-- A clear and concise description of what you expected to happen. Attach screenshots if needed. -->
## Environment
- Target device: [e.g. ESP32-S3] <!-- Use `espflash board-info` to get the target device iformation. -->
- Crate name and version: [e.g. esp-hal 0.20.0]

8
.github/ISSUE_TEMPLATE/config.yml vendored
View File

@ -1,8 +0,0 @@
blank_issues_enabled: true
contact_links:
- name: Ask questions in Matrix channel (Recommended)
url: https://matrix.to/#/#esp-rs:matrix.org
about: Ask any questions directly in our Matrix channel.
- name: Ask questions in GitHub Discussions
url: https://github.com/esp-rs/esp-hal/discussions/new
about: Post your questions and engage in discussions via GitHub.

24
.github/ISSUE_TEMPLATE/feature_request.md vendored
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@ -1,24 +0,0 @@
---
name: Feature request
about: Suggest an idea for this project
title: ''
labels: ["enhancement", "status:needs-attention"]
assignees: ''
---
## Motivations
<!-- If your feature request is related to a problem, please describe it. -->
## Solution
<!-- Describe the solution you'd like. -->
## Alternatives
<!-- Describe any alternative solutions or features you've considered. -->
## Additional context
<!-- Add any other context or screenshots about the feature request here. -->

9
.github/actions/check-esp-hal/action.yml vendored
View File

@ -57,12 +57,5 @@ runs:
--target=${{ inputs.target }} \
esp-hal
- name: Build (examples)
env:
CI: 1
shell: bash
run: cargo +${{ inputs.toolchain }} xtask build-examples esp-hal ${{ inputs.device }} --debug
- name: Build (qa-test)
env:
CI: 1
shell: bash
run: cargo +${{ inputs.toolchain }} xtask build-examples qa-test ${{ inputs.device }} --debug
run: cargo +${{ inputs.toolchain }} xtask build-examples esp-hal ${{ inputs.device }}

67
.github/workflows/changelog.yml vendored
View File

@ -2,13 +2,16 @@ name: Changelog check
on:
pull_request:
# We will not track changes for the following packages/directories.
# We will not track changes for the following packages.
paths-ignore:
- "/examples/"
- "/extras/"
- "/hil-tests/"
- "/resources/"
- "/xtask/"
- "/esp-build/"
- "/esp-hal-procmacros/"
- "/esp-metadata/"
- "/examples/"
- "/hil-tests/"
- "/extras/"
- "/resources/"
# Run on labeled/unlabeled in addition to defaults to detect
# adding/removing skip-changelog labels.
types: [opened, reopened, labeled, unlabeled, synchronize]
@ -30,34 +33,26 @@ jobs:
- 'esp-alloc/**'
esp-backtrace:
- 'esp-backtrace/**'
esp-build:
- 'esp-build/**'
esp-config:
- 'esp-config/**'
esp-hal:
- 'esp-hal/**'
esp-hal-embassy:
- 'esp-hal-embassy/**'
esp-hal-procmacros:
- 'esp-hal-procmacros/**'
esp-hal-smartled:
- 'esp-hal-smartled/**'
esp-ieee802154:
- 'esp-ieee802154/**'
esp-lp-hal:
- 'esp-lp-hal/**'
esp-metadata:
- 'esp-metadata/**'
esp-println:
- 'esp-println/**'
esp-riscv-rt:
- 'esp-riscv-rt/**'
xtensa-lx-rt:
- 'xtensa-lx-rt/**'
esp-storage:
- 'esp-storage/**'
esp-wifi:
- 'esp-wifi/**'
xtensa-lx:
- 'xtensa-lx/**'
xtensa-lx-rt:
- 'xtensa-lx-rt/**'
- name: Check that changelog updated (esp-alloc)
if: steps.changes.outputs.esp-alloc == 'true'
@ -75,22 +70,6 @@ jobs:
skipLabels: "skip-changelog"
missingUpdateErrorMessage: "Please add a changelog entry in the esp-backtrace/CHANGELOG.md file."
- name: Check that changelog updated (esp-build)
if: steps.changes.outputs.esp-build == 'true'
uses: dangoslen/changelog-enforcer@v3
with:
changeLogPath: esp-build/CHANGELOG.md
skipLabels: "skip-changelog"
missingUpdateErrorMessage: "Please add a changelog entry in the esp-build/CHANGELOG.md file."
- name: Check that changelog updated (esp-config)
if: steps.changes.outputs.esp-config == 'true'
uses: dangoslen/changelog-enforcer@v3
with:
changeLogPath: esp-config/CHANGELOG.md
skipLabels: "skip-changelog"
missingUpdateErrorMessage: "Please add a changelog entry in the esp-config/CHANGELOG.md file."
- name: Check that changelog updated (esp-hal)
if: steps.changes.outputs.esp-hal == 'true'
uses: dangoslen/changelog-enforcer@v3
@ -107,13 +86,13 @@ jobs:
skipLabels: "skip-changelog"
missingUpdateErrorMessage: "Please add a changelog entry in the esp-hal-embassy/CHANGELOG.md file."
- name: Check that changelog updated (esp-hal-procmacros)
if: steps.changes.outputs.esp-hal-procmacros == 'true'
- name: Check that changelog updated (esp-hal-smartled)
if: steps.changes.outputs.esp-hal-smartled == 'true'
uses: dangoslen/changelog-enforcer@v3
with:
changeLogPath: esp-hal-procmacros/CHANGELOG.md
changeLogPath: esp-hal-smartled/CHANGELOG.md
skipLabels: "skip-changelog"
missingUpdateErrorMessage: "Please add a changelog entry in the esp-hal-procmacros/CHANGELOG.md file."
missingUpdateErrorMessage: "Please add a changelog entry in the esp-hal-smartled/CHANGELOG.md file."
- name: Check that changelog updated (esp-ieee802154)
if: steps.changes.outputs.esp-ieee802154 == 'true'
@ -163,18 +142,4 @@ jobs:
skipLabels: "skip-changelog"
missingUpdateErrorMessage: "Please add a changelog entry in the esp-wifi/CHANGELOG.md file."
- name: Check that changelog updated (xtensa-lx)
if: steps.changes.outputs.xtensa-lx == 'true'
uses: dangoslen/changelog-enforcer@v3
with:
changeLogPath: xtensa-lx/CHANGELOG.md
skipLabels: "skip-changelog"
missingUpdateErrorMessage: "Please add a changelog entry in the xtensa-lx/CHANGELOG.md file."
- name: Check that changelog updated (xtensa-lx-rt)
if: steps.changes.outputs.xtensa-lx-rt == 'true'
uses: dangoslen/changelog-enforcer@v3
with:
changeLogPath: xtensa-lx-rt/CHANGELOG.md
skipLabels: "skip-changelog"
missingUpdateErrorMessage: "Please add a changelog entry in the xtensa-lx-rt/CHANGELOG.md file."

36
.github/workflows/ci.yml vendored
View File

@ -16,16 +16,14 @@ on:
push:
branches-ignore:
- "gh-readonly-queue/**"
- "main"
merge_group:
workflow_dispatch:
env:
CARGO_TERM_COLOR: always
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
MSRV: "1.83.0"
MSRV: "1.76.0"
RUSTDOCFLAGS: -Dwarnings
DEFMT_LOG: trace
# Cancel any currently running workflows from the same PR, branch, or
# tag when a new workflow is triggered.
@ -70,7 +68,6 @@ jobs:
- uses: esp-rs/xtensa-toolchain@v1.5
with:
ldproxy: false
version: 1.83.0.1
# Install the Rust stable toolchain for RISC-V devices:
- uses: dtolnay/rust-toolchain@v1
with:
@ -136,26 +133,13 @@ jobs:
cargo xtask build-package --features=esp32c6,ci --target=riscv32imac-unknown-none-elf esp-hal
cargo xtask build-package --features=esp32h2,ci --target=riscv32imac-unknown-none-elf esp-hal
- name: msrv RISCV (esp-wifi)
run: |
cargo xtask build-package --features=esp32c2,wifi,ble,esp-hal/unstable --target=riscv32imc-unknown-none-elf esp-wifi
cargo xtask build-package --features=esp32c3,wifi,ble,esp-hal/unstable --target=riscv32imc-unknown-none-elf esp-wifi
cargo xtask build-package --features=esp32c6,wifi,ble,esp-hal/unstable --target=riscv32imac-unknown-none-elf esp-wifi
cargo xtask build-package --features=esp32h2,ble,esp-hal/unstable --target=riscv32imac-unknown-none-elf esp-wifi
# Verify the MSRV for all Xtensa chips:
# Verify the MSRV for all Xtensa chips:
- name: msrv Xtensa (esp-hal)
run: |
cargo xtask build-package --toolchain=esp --features=esp32,ci --target=xtensa-esp32-none-elf esp-hal
cargo xtask build-package --toolchain=esp --features=esp32s2,ci --target=xtensa-esp32s2-none-elf esp-hal
cargo xtask build-package --toolchain=esp --features=esp32s3,ci --target=xtensa-esp32s3-none-elf esp-hal
- name: msrv Xtensa (esp-wifi)
run: |
cargo xtask build-package --toolchain=esp --features=esp32,wifi,ble,esp-hal/unstable --target=xtensa-esp32-none-elf esp-wifi
cargo xtask build-package --toolchain=esp --features=esp32s2,wifi,esp-hal/unstable --target=xtensa-esp32s2-none-elf esp-wifi
cargo xtask build-package --toolchain=esp --features=esp32s3,wifi,ble,esp-hal/unstable --target=xtensa-esp32s3-none-elf esp-wifi
- name: msrv (esp-lp-hal)
run: |
cargo xtask build-package --features=esp32c6 --target=riscv32imac-unknown-none-elf esp-lp-hal
@ -180,19 +164,3 @@ jobs:
# Check the formatting of all packages:
- run: cargo xtask fmt-packages --check
# --------------------------------------------------------------------------
# host tests
host-tests:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- uses: dtolnay/rust-toolchain@v1
with:
toolchain: stable
- uses: Swatinem/rust-cache@v2
# Check the formatting of all packages:
- run: cd esp-config && cargo test --features build

1
.github/workflows/ci_nightly.yml vendored
View File

@ -9,7 +9,6 @@ env:
CARGO_TERM_COLOR: always
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
RUSTDOCFLAGS: -Dwarnings
DEFMT_LOG: trace
jobs:

57
.github/workflows/documentation.yml vendored
View File

@ -2,33 +2,12 @@ name: Documentation
on:
workflow_dispatch:
inputs:
esp-hal:
description: "esp-hal tag"
required: true
esp-wifi:
description: "esp-wifi tag"
required: true
env:
CARGO_TERM_COLOR: always
jobs:
setup:
runs-on: ubuntu-latest
outputs:
packages: '[
{ "name": "esp-hal", "tag": "${{ github.event.inputs.esp-hal }}" },
{ "name": "esp-wifi", "tag": "esp-wifi-${{ github.event.inputs.esp-wifi }}" }
]'
steps:
- run: echo "Setup complete!"
build:
needs: setup
strategy:
fail-fast: true
matrix:
packages: ${{ fromJson(needs.setup.outputs.packages) }}
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
@ -36,50 +15,22 @@ jobs:
with:
default: true
ldproxy: false
version: 1.83.0.1
- name: Checkout repository
uses: actions/checkout@v4
with:
repository: esp-rs/esp-hal
ref: ${{ matrix.packages.tag }}
- name: Build documentation
run: cargo xtask build-documentation --packages=${{ matrix.packages.name }}
run: cargo xtask build-documentation --packages=esp-hal,esp-wifi
# https://github.com/actions/deploy-pages/issues/303#issuecomment-1951207879
- name: Remove problematic '.lock' files
run: find docs -name ".lock" -exec rm -f {} \;
- name: Upload docs for ${{ matrix.packages.name }}
uses: actions/upload-artifact@v4
with:
name: ${{ matrix.packages.name }}
path: "docs/${{ matrix.packages.name }}"
assemble:
needs: [setup, build]
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- name: Prepare
run: mkdir docs
- name: Download all docs
uses: actions/download-artifact@v4
with:
path: "docs/"
- name: Create index.html
run: "cargo xtask build-documentation-index --packages=$(echo '${{ needs.setup.outputs.packages }}' | jq -r '[.[].name] | join(\",\")')"
- name: Upload Pages artifact
uses: actions/upload-pages-artifact@v3
with:
path: "docs/"
path: "docs"
deploy:
# Add a dependency to the assemble job:
needs: assemble
# Add a dependency to the build job:
needs: build
# Grant GITHUB_TOKEN the permissions required to make a Pages deployment:
permissions:

55
.github/workflows/hil.yml vendored
View File

@ -86,8 +86,6 @@ jobs:
- soc: esp32h2
rust-target: riscv32imac-unknown-none-elf
# # Xtensa devices:
- soc: esp32
rust-target: xtensa-esp32-none-elf
- soc: esp32s2
rust-target: xtensa-esp32s2-none-elf
- soc: esp32s3
@ -116,15 +114,30 @@ jobs:
buildtargets: ${{ matrix.target.soc }}
default: true
ldproxy: false
version: 1.83.0.1
- name: Build tests
run: cargo xtask build-tests ${{ matrix.target.soc }}
- name: Prepare artifact
run: |
# Create the 'tests' directory if it doesn't exist
mkdir -p tests
# Find ELF files in the specified path and move them to 'tests'
find "hil-test/target/${{ matrix.target.rust-target }}/release/deps/" -type f -exec file {} + | \
grep ELF | \
awk -F: '{print $1}' | \
xargs -I {} mv {} tests
# Rename files in 'tests' by removing everything after the first dash
for file in tests/*-*; do
base_name="$(basename "$file" | cut -d'-' -f1)"
mv "$file" "tests/$base_name"
done
- uses: actions/upload-artifact@v4
with:
name: tests-${{ matrix.target.soc }}
path: /home/runner/work/esp-hal/esp-hal/target/tests/${{ matrix.target.soc }}
path: /home/runner/work/esp-hal/esp-hal/tests
if-no-files-found: error
overwrite: true
@ -141,25 +154,28 @@ jobs:
- soc: esp32c2
runner: esp32c2-jtag
host: aarch64
hubs: "1 3"
- soc: esp32c3
runner: esp32c3-usb
host: armv7
hubs: "1-1"
- soc: esp32c6
runner: esp32c6-usb
host: armv7
hubs: "1-1"
- soc: esp32h2
runner: esp32h2-usb
host: armv7
hubs: "1-1"
# Xtensa devices:
- soc: esp32
runner: esp32-jtag
host: aarch64
- soc: esp32s2
runner: esp32s2-jtag
host: armv7
hubs: "1-1"
- soc: esp32s3
runner: esp32s3-usb
host: armv7
hubs: "1-1"
steps:
- uses: actions/download-artifact@v4
with:
@ -170,11 +186,32 @@ jobs:
with:
name: xtask-${{ matrix.target.host }}
- name: Cycle USB ports
run: |
export PATH=$PATH:/home/espressif/.cargo/bin
for i in {1..10}; do
# Disable all used hubs
for hub in ${{ matrix.target.hubs }}; do
sudo uhubctl -a off -l $hub
done
sleep 0.5
# Enable all used hubs
for hub in ${{ matrix.target.hubs }}; do
sudo uhubctl -a on -l $hub
done
sleep 0.5
if probe-rs list | grep -q "\[0\]:"; then
break
fi
done
- name: Run Tests
id: run-tests
run: |
[ -f ~/setup.sh ] && source ~/setup.sh
export PATH=$PATH:/home/espressif/.cargo/bin
chmod +x xtask
./xtask run-elfs ${{ matrix.target.soc }} tests-${{ matrix.target.soc }}

3
.github/workflows/issue_handler.yml vendored
View File

@ -13,4 +13,5 @@ jobs:
- uses: actions/add-to-project@v0.5.0
with:
project-url: https://github.com/orgs/esp-rs/projects/2
github-token: ${{ secrets.PAT }}
github-token: ${{ secrets.PAT }}
labeled: status:needs-attention

3
Cargo.toml
View File

@ -5,10 +5,10 @@ exclude = [
"esp-alloc",
"esp-backtrace",
"esp-build",
"esp-config",
"esp-hal",
"esp-hal-embassy",
"esp-hal-procmacros",
"esp-hal-smartled",
"esp-ieee802154",
"esp-lp-hal",
"esp-metadata",
@ -21,7 +21,6 @@ exclude = [
"extras/esp-wifishark",
"extras/ieee802154-sniffer",
"hil-test",
"qa-test",
"xtensa-lx",
"xtensa-lx-rt",
"xtensa-lx-rt/procmacros",

2
README.md
View File

@ -20,7 +20,7 @@ If you have any questions, comments, or concerns, please [open an issue], [start
> [!NOTE]
>
> This repository includes crates that are at various stages of maturity and stability. While many functionalities have already been implemented and are usable for most tasks, certain advanced or less common features may still be under development. Each crate may offer different levels of functionality and guarantees.
> This project is still in the relatively early stages of development, and as such there should be no expectation of API stability. A significant number of peripherals currently have drivers implemented but have varying levels of functionality. For most tasks, this should be usable already, however some more advanced or uncommon features may not yet be implemented.
[esp-lp-hal]: https://github.com/esp-rs/esp-hal/tree/main/esp-lp-hal
[esp-idf-svc]: https://github.com/esp-rs/esp-idf-svc

94
documentation/API-GUIDELINES.md
View File

@ -7,80 +7,43 @@ This is a living document - make sure to check the latest version of this docume
> [!NOTE]
> Not all of the currently existing code follows this guideline, yet.
In general, the [Rust API Guidelines](https://rust-lang.github.io/api-guidelines) apply to all projects in the ESP-RS GitHub organization where possible.
- Especially for public API but if possible also for internal APIs.
In general, the [Rust API Guidelines](https://rust-lang.github.io/api-guidelines) apply to all projects in the ESP-RS GitHub organization where possible. (`C-RW-VALUE` and `C-SERDE` do not apply)
## Amendments to the Rust API Guidelines
Especially for public API but if possible also for internal APIs.
- `C-RW-VALUE` and `C-SERDE` do not apply.
- `C-COMMON-TRAITS`:
The set of traits to implement depend on the type and use case. In esp-hal, we can highlight a few such use cases and provide recommendations what should be implemented. If nothing here applies, use your best judgement.
- Driver structures: `Debug`
- Driver configuration: `Default`, `Debug`, `PartialEq/Eq`, `Clone/Copy`, `Hash`
- `Clone/Copy` depends on the size and contents of the structure. They should generally be implemented, unless there is a good reason not to.
- The `Default` configuration needs to make sense for a particular driver, and applying the default configuration must not fail.
- Error types: `Debug`, `PartialEq/Eq`, `Clone/Copy`, `Hash`, `Error`, `Display`
The following paragraphs contain additional recommendations.
## Construction and Destruction of Drivers
- Drivers must take peripherals via the `PeripheralRef` pattern - they don't consume peripherals directly.
- If a driver requires pins, those pins should be configured using `fn with_signal_name(self, pin: impl Peripheral<P = impl PeripheralInput> + 'd) -> Self` or `fn with_signal_name(self, pin: impl Peripheral<P = impl PeripheralOutput> + 'd) -> Self`
- If a driver supports multiple peripheral instances (for example, I2C0 is one such instance):
- The driver should not be generic over the peripheral instance.
- The author must to use `crate::any_peripheral` to define the "any" peripheral instance type.
- The driver must implement a `new` constructor that automatically converts the peripheral instance into the any type.
- If a driver is configurable, configuration options should be implemented as a `Config` struct in the same module where the driver is located.
- The driver's constructor should take the config struct by value, and it should return `Result<Self, ConfigError>`.
- The `ConfigError` enum should be separate from other `Error` enums used by the driver.
- The driver should implement `fn apply_config(&mut self, config: &Config) -> Result<(), ConfigError>`.
- In case the driver's configuration is infallible (all possible combinations of options are supported by the hardware), the `ConfigError` should be implemented as an empty `enum`.
- Configuration structs should derive `procmacros::BuilderLite` in order to automatically implement the Builder Lite pattern for them.
- If a driver implements both blocking and async operations, or only implements blocking operations, but may support asynchronous ones in the future, the driver's type signature must include a `crate::Mode` type parameter.
- By default, constructors must configure the driver for blocking mode. The driver must implement `into_async` (and a matching `into_blocking`) function that reconfigures the driver.
- `into_async` must configure the driver and/or the associated DMA channels. This most often means enabling an interrupt handler.
- `into_blocking` must undo the configuration done by `into_async`.
- The asynchronous driver implementation must also expose the blocking methods (except for interrupt related functions).
- Drivers must have a `Drop` implementation resetting the peripheral to idle state. There are some exceptions to this:
- GPIO where common usage is to "set and drop" so they can't be changed
- Where we don't want to disable the peripheral as it's used internally, for example SYSTIMER is used by `time::now()` API. See `KEEP_ENABLED` in src/system.rs
- A driver doesn't need to do anything special for deinitialization and has a `PeripheralGuard` field which implements the disabling and resetting of the peripheral.
- Consider using a builder-like pattern for driver construction.
- Drivers take peripherals and pins via the `PeripheralRef` pattern - they don't consume peripherals/pins.
- Consider adding a `Drop` implementation resetting the peripheral to idle state.
- Consider using a builder-like pattern for configuration which must be done during initialization.
## Interoperability
- Don't use `log::XXX!` macros directly - use the wrappers in `fmt.rs` (e.g. just `info!` instead of `log::info!` or importing `log::*`)!
- Consider implementing common ecosystem traits, like the ones in `embedded-hal` or `embassy-embedded-hal`.
- Where the guidelines suggest implementing `Debug`, `defmt::Format` should also be implemented.
- The `defmt::Format` implementation needs to be gated behind the `defmt` feature.
- `cfg` gated `defmt` derives and impls are added to new structs and enums.
- see [this example](https://github.com/esp-rs/esp-hal/blob/df2b7bd8472cc1d18db0d9441156575570f59bb3/esp-hal/src/spi/mod.rs#L15)
- e.g. `#[cfg_attr(feature = "defmt", derive(defmt::Format))]`
- Implementations of common, but unstable traits (e.g. `embassy_embedded_hal::SetConfig`) need to be gated with the `unstable` feature.
- Don't use `log::XXX!` macros directly - use the wrappers in `fmt.rs` (e.g. just `info!` instead of `log::info!` or importing `log::*`)!
## API Surface
- API documentation must be provided for every new driver and API.
- Private details should not leak into the public API, and should be made private where technically possible.
- Implementation details that _need_ to be public should be marked with `#[doc(hidden)]` and a comment as to why it needs to be public.
- For the time being, this includes any `Instance` traits, and `State` or `Info` structs as well.
- Functions which technically need to be public but shouldn't be callable by the user need to be sealed.
- Add `#[deny(missing_docs)]` to new modules or when reworking a larger part of a module. In the end we will require this for whole crates.
- API documentation shouldn't be an afterthought
- Private details shouldn't leak into the public API, and should be made private where technically possible.
- Implementation details that _need_ to be public should be marked with `#[doc(hidden)]` and a comment as to why it needs to be public.
- Functions which technically need to be public but shouldn't be callable by the user need to be sealed.
- see [this example in Rust's core library](https://github.com/rust-lang/rust/blob/044a28a4091f2e1a5883f7fa990223f8b200a2cd/library/core/src/error.rs#L89-L100)
- Any public traits, that **must not** be implemented downstream need to be `Sealed`.
- Any public traits, that **must not** be implemented downstream need to be `Sealed`
- Prefer compile-time checks over runtime checks where possible, prefer a fallible API over panics.
- Follow naming conventions in order to be consistent across drivers - take inspiration from existing drivers.
- Follow naming conventions in order to be consistent across drivers - take inspiration from existing drivers
- Design APIs in a way that they are easy to use.
- Driver API decisions should be assessed individually, don't _not_ just follow embedded-hal or other ecosystem trait crates. Expose the capabilities of the hardware. (Ecosystem traits are implemented on top of the inherent API)
- Avoid type states and extraneous generics whenever possible
- These often lead to usability problems, and tend to just complicate things needlessly - sometimes it can be a good tradeoff to make a type not ZST
- Common cases of useless type info is storing pin information - this is usually not required after configuring the pins and will bloat the complexity of the type massively. When following the `PeripheralRef` pattern it's not needed in order to keep users from re-using the pin while in use
- These often lead to usability problems, and tend to just complicate things needlessly - sometimes it can be a good tradeoff to make a type not ZST
- Common cases of useless type info is storing pin information - this is usually not required after configuring the pins and will bloat the complexity of the type massively. When following the `PeripheralRef` pattern it's not needed in order to keep users from re-using the pin while in use
- Avoiding `&mut self` when `&self` is safe to use. `&self` is generally easier to use as an API. Typical applications of this are where the methods just do writes to registers which don't have side effects.
- Maintain order consistency in the API, such as in the case of pairs like RX/TX.
- If your driver provides a way to listen for interrupts, the interrupts should be listed in a `derive(EnumSetType)` enum as opposed to one function per interrupt flag.
- If a driver only implements a subset of a peripheral's capabilities, it should be placed in the `peripheral::subcategory` module.
- For example, if a driver implements the slave-mode I2C driver, it should be placed into `i2c::slave`.
- This helps us reducing the need of introducing breaking changes if we implement additional functionalities.
- Avoid abbreviations and contractions in the API, where possible.
- Saving a few characters may introduce ambiguity, e.g `SpiTransDone`, is it `Transmit` or `Transfer`?
- Common abbreviations, that are well understood such as `Dma` are perfectly fine.
- For example starting a timer is fine for `&self`, worst case a timer will be started twice if two parts of the program call it. You can see a real example of this [here](https://github.com/esp-rs/esp-hal/pull/1500#pullrequestreview-2015911974)
## Maintainability
@ -88,19 +51,9 @@ In general, the [Rust API Guidelines](https://rust-lang.github.io/api-guidelines
- Every line of code is a liability. Take some time to see if your implementation can be simplified before opening a PR.
- If you are porting code from ESP-IDF (or anything else), please include a link WITH the commit hash in it, and please highlight the relevant line(s) of code
- If necessary provide further context as comments (consider linking to code, PRs, TRM - make sure to use permanent links, e.g. include the hash when linking to a Git repository, include the revision, page number etc. when linking to TRMs)
- Prefer line comments (//) to block comments (/* ... */)
- Generally, follow common "good practices" and idiomatic Rust style
- All `Future` objects (public or private) must be marked with ``#[must_use = "futures do nothing unless you `.await` or poll them"]``.
- Prefer `cfg_if!` (or, if the branches just pick between separate values of the same variable, `cfg!()`) over multiple exclusive `#[cfg]` attributes. `cfg_if!`/`cfg!()` visually divide the options, often results in simpler conditions and simplifies adding new branches in the future.
## Driver implementation
- If a common `Instance` trait is used for multiple peripherals, those traits should not have any logic implemented in them.
- The `Instance` traits should only be used to access information about a peripheral instance.
- The internal implementation of the driver should be non-generic over the peripheral instance. This helps the compiler produce smaller code.
- The author is encouraged to return a static shared reference to an `Info` and a `State` structure from the `Instance` trait.
- The `Info` struct should describe the peripheral. Do not use any interior mutability.
- The `State` struct should contain counters, wakers and other, mutable state. As this is accessed via a shared reference, interior mutability and atomic variables are preferred.
- Prefer `cfg_if!` over multiple exclusive `#[cfg]` attributes. `cfg_if!` visually divides the options, often results in simpler conditions and simplifies adding new branches in the future.
## Modules Documentation
@ -134,11 +87,4 @@ Modules should have the following documentation format:
```
#![doc = concat!("[ESP-IDF documentation](https://docs.espressif.com/projects/esp-idf/en/latest/", crate::soc::chip!(), "/api-reference/peripherals/etm.html)")]
```
- In case of referencing a TRM chapter, use the `crate::trm_markdown_link!()` macro. If you are referring to a particular chapter, you may use `crate::trm_markdown_link!("#chapter_anchor")`.
- Documentation examples must be short
- But must also provide value beyond what the rustdoc generated docs show
- Showing a snippet of a slightly more complex interaction, for example inverting the signals for a driver
- Showing construction if it is more complex, or requires some non-obvious precursor steps. Think about this for drivers that take a generic instance to construct, rustdoc doesn't do a good job of showing what concrete things can be passed into a constructor.
- For more complex scenarios, create an example.
- Use rustdoc syntax for linking to other documentation items instead of markdown links where possible
- https://doc.rust-lang.org/rustdoc/write-documentation/linking-to-items-by-name.html
- Documentation examples should be short and basic, for more complex scenarios, create an example.

1
esp-alloc/.clippy.toml
View File

@ -1 +0,0 @@
avoid-breaking-exported-api = false

10
esp-alloc/CHANGELOG.md
View File

@ -9,20 +9,12 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
### Added
- `esp_alloc::HEAP.stats()` can now be used to get heap usage informations (#2137)
### Changed
### Fixed
### Removed
## 0.5.0 - 2024-10-10
### Changed
- a global allocator is created in esp-alloc, now you need to add individual memory regions (up to 3) to the allocator (#2099)
## 0.4.0 - 2024-06-04
## 0.3.0 - 2023-04-25
@ -33,4 +25,4 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
## 0.1.0 - 2022-07-25
[Unreleased]: https://github.com/esp-rs/esp-hal/commits/main/esp-alloc?since=2024-10-10
[Unreleased]: https://github.com/esp-rs/esp-hal/commits/main/esp-aloc?since=2024-06-05

32
esp-alloc/Cargo.toml
View File

@ -1,37 +1,31 @@
[package]
name = "esp-alloc"
version = "0.5.0"
version = "0.4.0"
edition = "2021"
rust-version = "1.68"
description = "A heap allocator for Espressif devices"
keywords = ["allocator", "embedded", "embedded-hal", "esp32", "espressif", "memory"]
categories = ["embedded", "memory-management", "no-std"]
repository = "https://github.com/esp-rs/esp-hal"
license = "MIT OR Apache-2.0"
keywords = [
"allocator",
"esp32",
"riscv",
"xtensa",
]
categories = [
"memory-management",
"no-std",
]
[package.metadata.docs.rs]
default-target = "riscv32imc-unknown-none-elf"
features = ["nightly"]
[dependencies]
defmt = { version = "0.3.8", optional = true }
cfg-if = "1.0.0"
critical-section = "1.1.3"
enumset = "1.1.5"
critical-section = "1.1.2"
linked_list_allocator = { version = "0.10.5", default-features = false, features = ["const_mut_refs"] }
document-features = "0.2.10"
[features]
default = []
nightly = []
## Implement `defmt::Format` on certain types.
defmt = ["dep:defmt"]
## Enable this feature if you want to keep stats about the internal heap usage such as:
## - Max memory usage since initialization of the heap
## - Total allocated memory since initialization of the heap
## - Total freed memory since initialization of the heap
##
## ⚠️ Note: Enabling this feature will require extra computation every time alloc/dealloc is called.
internal-heap-stats = []

532
esp-alloc/src/lib.rs
View File

@ -1,35 +1,33 @@
//! A `no_std` heap allocator for RISC-V and Xtensa processors from
//! A simple `no_std` heap allocator for RISC-V and Xtensa processors from
//! Espressif. Supports all currently available ESP32 devices.
//!
//! **NOTE:** using this as your global allocator requires using Rust 1.68 or
//! greater, or the `nightly` release channel.
//!
//! # Using this as your Global Allocator
//! To use EspHeap as your global allocator, you need at least Rust 1.68 or
//! nightly.
//!
//! ```rust
//! use esp_alloc as _;
//! #[global_allocator]
//! static ALLOCATOR: esp_alloc::EspHeap = esp_alloc::EspHeap::empty();
//!
//! fn init_heap() {
//! const HEAP_SIZE: usize = 32 * 1024;
//! static mut HEAP: MaybeUninit<[u8; HEAP_SIZE]> = MaybeUninit::uninit();
//!
//! unsafe {
//! esp_alloc::HEAP.add_region(esp_alloc::HeapRegion::new(
//! HEAP.as_mut_ptr() as *mut u8,
//! HEAP_SIZE,
//! esp_alloc::MemoryCapability::Internal.into(),
//! ));
//! ALLOCATOR.init(HEAP.as_mut_ptr() as *mut u8, HEAP_SIZE);
//! }
//! }
//! ```
//!
//! # Using this with the nightly `allocator_api`-feature
//! Sometimes you want to have more control over allocations.
//!
//! For that, it's convenient to use the nightly `allocator_api`-feature,
//! Sometimes you want to have single allocations in PSRAM, instead of an esp's
//! DRAM. For that, it's convenient to use the nightly `allocator_api`-feature,
//! which allows you to specify an allocator for single allocations.
//!
//! **NOTE:** To use this, you have to enable the crate's `nightly` feature
//! **NOTE:** To use this, you have to enable the create's `nightly` feature
//! flag.
//!
//! Create and initialize an allocator to use in single allocations:
@ -38,11 +36,7 @@
//!
//! fn init_psram_heap() {
//! unsafe {
//! PSRAM_ALLOCATOR.add_region(esp_alloc::HeapRegion::new(
//! psram::psram_vaddr_start() as *mut u8,
//! psram::PSRAM_BYTES,
//! esp_alloc::MemoryCapability::Internal.into(),
//! ));
//! PSRAM_ALLOCATOR.init(psram::psram_vaddr_start() as *mut u8, psram::PSRAM_BYTES);
//! }
//! }
//! ```
@ -51,309 +45,51 @@
//! ```rust
//! let large_buffer: Vec<u8, _> = Vec::with_capacity_in(1048576, &PSRAM_ALLOCATOR);
//! ```
//!
//! You can also get stats about the heap usage at anytime with:
//! ```rust
//! let stats: HeapStats = esp_alloc::HEAP.stats();
//! // HeapStats implements the Display and defmt::Format traits, so you can pretty-print the heap stats.
//! println!("{}", stats);
//! ```
//!
//! ```txt
//! HEAP INFO
//! Size: 131068
//! Current usage: 46148
//! Max usage: 46148
//! Total freed: 0
//! Total allocated: 46148
//! Memory Layout:
//! Internal | ████████████░░░░░░░░░░░░░░░░░░░░░░░ | Used: 35% (Used 46148 of 131068, free: 84920)
//! Unused | ░░░░░░░░░░░░░░░░░░░░░░░░░░░░░░░░░░░ |
//! Unused | ░░░░░░░░░░░░░░░░░░░░░░░░░░░░░░░░░░░ |
//! ```
//! ## Feature Flags
#![doc = document_features::document_features!()]
#![no_std]
#![cfg_attr(feature = "nightly", feature(allocator_api))]
#![doc(html_logo_url = "https://avatars.githubusercontent.com/u/46717278")]
mod macros;
pub mod macros;
#[cfg(feature = "nightly")]
use core::alloc::{AllocError, Allocator};
use core::{
alloc::{GlobalAlloc, Layout},
cell::RefCell,
fmt::Display,
ptr::{self, NonNull},
};
use critical_section::Mutex;
use enumset::{EnumSet, EnumSetType};
use linked_list_allocator::Heap;
/// The global allocator instance
#[global_allocator]
pub static HEAP: EspHeap = EspHeap::empty();
const NON_REGION: Option<HeapRegion> = None;
const BAR_WIDTH: usize = 35;
fn write_bar(f: &mut core::fmt::Formatter<'_>, usage_percent: usize) -> core::fmt::Result {
let used_blocks = BAR_WIDTH * usage_percent / 100;
(0..used_blocks).try_for_each(|_| write!(f, ""))?;
(used_blocks..BAR_WIDTH).try_for_each(|_| write!(f, ""))
}
#[cfg(feature = "defmt")]
fn write_bar_defmt(fmt: defmt::Formatter, usage_percent: usize) {
let used_blocks = BAR_WIDTH * usage_percent / 100;
(0..used_blocks).for_each(|_| defmt::write!(fmt, ""));
(used_blocks..BAR_WIDTH).for_each(|_| defmt::write!(fmt, ""));
}
#[derive(EnumSetType, Debug)]
/// Describes the properties of a memory region
pub enum MemoryCapability {
/// Memory must be internal; specifically it should not disappear when
/// flash/spiram cache is switched off
Internal,
/// Memory must be in SPI RAM
External,
}
/// Stats for a heap region
#[derive(Debug)]
pub struct RegionStats {
/// Total usable size of the heap region in bytes.
size: usize,
/// Currently used size of the heap region in bytes.
used: usize,
/// Free size of the heap region in bytes.
free: usize,
/// Capabilities of the memory region.
capabilities: EnumSet<MemoryCapability>,
}
impl Display for RegionStats {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
let usage_percent = self.used * 100 / self.size;
// Display Memory type
if self.capabilities.contains(MemoryCapability::Internal) {
write!(f, "Internal")?;
} else if self.capabilities.contains(MemoryCapability::External) {
write!(f, "External")?;
} else {
write!(f, "Unknown")?;
}
write!(f, " | ")?;
write_bar(f, usage_percent)?;
write!(
f,
" | Used: {}% (Used {} of {}, free: {})",
usage_percent, self.used, self.size, self.free
)
}
}
#[cfg(feature = "defmt")]
impl defmt::Format for RegionStats {
fn format(&self, fmt: defmt::Formatter) {
let usage_percent = self.used * 100 / self.size;
if self.capabilities.contains(MemoryCapability::Internal) {
defmt::write!(fmt, "Internal");
} else if self.capabilities.contains(MemoryCapability::External) {
defmt::write!(fmt, "External");
} else {
defmt::write!(fmt, "Unknown");
}
defmt::write!(fmt, " | ");
write_bar_defmt(fmt, usage_percent);
defmt::write!(
fmt,
" | Used: {}% (Used {} of {}, free: {})",
usage_percent,
self.used,
self.size,
self.free
);
}
}
/// A memory region to be used as heap memory
pub struct HeapRegion {
heap: Heap,
capabilities: EnumSet<MemoryCapability>,
}
impl HeapRegion {
/// Create a new [HeapRegion] with the given capabilities
///
/// # Safety
///
/// - The supplied memory region must be available for the entire program
/// (`'static`).
/// - The supplied memory region must be exclusively available to the heap
/// only, no aliasing.
/// - `size > 0`.
pub unsafe fn new(
heap_bottom: *mut u8,
size: usize,
capabilities: EnumSet<MemoryCapability>,
) -> Self {
let mut heap = Heap::empty();
heap.init(heap_bottom, size);
Self { heap, capabilities }
}
/// Return stats for the current memory region
pub fn stats(&self) -> RegionStats {
RegionStats {
size: self.heap.size(),
used: self.heap.used(),
free: self.heap.free(),
capabilities: self.capabilities,
}
}
}
/// Stats for a heap allocator
///
/// Enable the "internal-heap-stats" feature if you want collect additional heap
/// informations at the cost of extra cpu time during every alloc/dealloc.
#[derive(Debug)]
pub struct HeapStats {
/// Granular stats for all the configured memory regions.
region_stats: [Option<RegionStats>; 3],
/// Total size of all combined heap regions in bytes.
size: usize,
/// Current usage of the heap across all configured regions in bytes.
current_usage: usize,
/// Estimation of the max used heap in bytes.
#[cfg(feature = "internal-heap-stats")]
max_usage: usize,
/// Estimation of the total allocated bytes since initialization.
#[cfg(feature = "internal-heap-stats")]
total_allocated: usize,
/// Estimation of the total freed bytes since initialization.
#[cfg(feature = "internal-heap-stats")]
total_freed: usize,
}
impl Display for HeapStats {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
writeln!(f, "HEAP INFO")?;
writeln!(f, "Size: {}", self.size)?;
writeln!(f, "Current usage: {}", self.current_usage)?;
#[cfg(feature = "internal-heap-stats")]
{
writeln!(f, "Max usage: {}", self.max_usage)?;
writeln!(f, "Total freed: {}", self.total_freed)?;
writeln!(f, "Total allocated: {}", self.total_allocated)?;
}
writeln!(f, "Memory Layout: ")?;
for region in self.region_stats.iter() {
if let Some(region) = region.as_ref() {
region.fmt(f)?;
writeln!(f)?;
} else {
// Display unused memory regions
write!(f, "Unused | ")?;
write_bar(f, 0)?;
writeln!(f, " |")?;
}
}
Ok(())
}
}
#[cfg(feature = "defmt")]
impl defmt::Format for HeapStats {
fn format(&self, fmt: defmt::Formatter) {
defmt::write!(fmt, "HEAP INFO\n");
defmt::write!(fmt, "Size: {}\n", self.size);
defmt::write!(fmt, "Current usage: {}\n", self.current_usage);
#[cfg(feature = "internal-heap-stats")]
{
defmt::write!(fmt, "Max usage: {}\n", self.max_usage);
defmt::write!(fmt, "Total freed: {}\n", self.total_freed);
defmt::write!(fmt, "Total allocated: {}\n", self.total_allocated);
}
defmt::write!(fmt, "Memory Layout:\n");
for region in self.region_stats.iter() {
if let Some(region) = region.as_ref() {
defmt::write!(fmt, "{}\n", region);
} else {
defmt::write!(fmt, "Unused | ");
write_bar_defmt(fmt, 0);
defmt::write!(fmt, " |\n");
}
}
}
}
/// Internal stats to keep track across multiple regions.
#[cfg(feature = "internal-heap-stats")]
struct InternalHeapStats {
max_usage: usize,
total_allocated: usize,
total_freed: usize,
}
/// A memory allocator
///
/// In addition to what Rust's memory allocator can do it allows to allocate
/// memory in regions satisfying specific needs.
pub struct EspHeap {
heap: Mutex<RefCell<[Option<HeapRegion>; 3]>>,
#[cfg(feature = "internal-heap-stats")]
internal_heap_stats: Mutex<RefCell<InternalHeapStats>>,
heap: Mutex<RefCell<Heap>>,
}
impl EspHeap {
/// Crate a new UNINITIALIZED heap allocator
pub const fn empty() -> Self {
///
/// You must initialize this heap using the
/// [`init`](struct.EspHeap.html#method.init) method before using the
/// allocator.
pub const fn empty() -> EspHeap {
EspHeap {
heap: Mutex::new(RefCell::new([NON_REGION; 3])),
#[cfg(feature = "internal-heap-stats")]
internal_heap_stats: Mutex::new(RefCell::new(InternalHeapStats {
max_usage: 0,
total_allocated: 0,
total_freed: 0,
})),
heap: Mutex::new(RefCell::new(Heap::empty())),
}
}
/// Add a memory region to the heap
/// Initializes the heap
///
/// This function must be called BEFORE you run any code that makes use of
/// the allocator.
///
/// `heap_bottom` is a pointer to the location of the bottom of the heap.
///
/// `size` is the size of the heap in bytes.
///
/// You can add up to three regions per allocator.
///
/// Note that:
///
/// - Memory is allocated from the first suitable memory region first
///
/// - The heap grows "upwards", towards larger addresses. Thus `end_addr`
/// must be larger than `start_addr`
///
@ -366,221 +102,59 @@ impl EspHeap {
/// `'static` lifetime).
/// - The supplied memory region must be exclusively available to the heap
/// only, no aliasing.
/// - This function must be called exactly ONCE.
/// - `size > 0`.
pub unsafe fn add_region(&self, region: HeapRegion) {
critical_section::with(|cs| {
let mut regions = self.heap.borrow_ref_mut(cs);
let free = regions
.iter()
.enumerate()
.find(|v| v.1.is_none())
.map(|v| v.0);
if let Some(free) = free {
regions[free] = Some(region);
} else {
panic!(
"Exceeded the maximum of {} heap memory regions",
regions.len()
);
}
});
pub unsafe fn init(&self, heap_bottom: *mut u8, size: usize) {
critical_section::with(|cs| self.heap.borrow(cs).borrow_mut().init(heap_bottom, size));
}
/// Returns an estimate of the amount of bytes in use in all memory regions.
/// Returns an estimate of the amount of bytes in use.
pub fn used(&self) -> usize {
critical_section::with(|cs| {
let regions = self.heap.borrow_ref(cs);
let mut used = 0;
for region in regions.iter() {
if let Some(region) = region.as_ref() {
used += region.heap.used();
}
}
used
})
}
/// Return usage stats for the [Heap].
///
/// Note:
/// [HeapStats] directly implements [Display], so this function can be
/// called from within `println!()` to pretty-print the usage of the
/// heap.
pub fn stats(&self) -> HeapStats {
const EMPTY_REGION_STAT: Option<RegionStats> = None;
let mut region_stats: [Option<RegionStats>; 3] = [EMPTY_REGION_STAT; 3];
critical_section::with(|cs| {
let mut used = 0;
let mut free = 0;
let regions = self.heap.borrow_ref(cs);
for (id, region) in regions.iter().enumerate() {
if let Some(region) = region.as_ref() {
let stats = region.stats();
free += stats.free;
used += stats.used;
region_stats[id] = Some(region.stats());
}
}
cfg_if::cfg_if! {
if #[cfg(feature = "internal-heap-stats")] {
let internal_heap_stats = self.internal_heap_stats.borrow_ref(cs);
HeapStats {
region_stats,
size: free + used,
current_usage: used,
max_usage: internal_heap_stats.max_usage,
total_allocated: internal_heap_stats.total_allocated,
total_freed: internal_heap_stats.total_freed,
}
} else {
HeapStats {
region_stats,
size: free + used,
current_usage: used,
}
}
}
})
critical_section::with(|cs| self.heap.borrow(cs).borrow_mut().used())
}
/// Returns an estimate of the amount of bytes available.
pub fn free(&self) -> usize {
self.free_caps(EnumSet::empty())
}
/// The free heap satisfying the given requirements
pub fn free_caps(&self, capabilities: EnumSet<MemoryCapability>) -> usize {
critical_section::with(|cs| {
let regions = self.heap.borrow_ref(cs);
let mut free = 0;
for region in regions.iter().filter(|region| {
if region.is_some() {
region
.as_ref()
.unwrap()
.capabilities
.is_superset(capabilities)
} else {
false
}
}) {
if let Some(region) = region.as_ref() {
free += region.heap.free();
}
}
free
})
}
/// Allocate memory in a region satisfying the given requirements.
///
/// # Safety
///
/// This function is unsafe because undefined behavior can result
/// if the caller does not ensure that `layout` has non-zero size.
///
/// The allocated block of memory may or may not be initialized.
pub unsafe fn alloc_caps(
&self,
capabilities: EnumSet<MemoryCapability>,
layout: Layout,
) -> *mut u8 {
critical_section::with(|cs| {
#[cfg(feature = "internal-heap-stats")]
let before = self.used();
let mut regions = self.heap.borrow_ref_mut(cs);
let mut iter = (*regions).iter_mut().filter(|region| {
if region.is_some() {
region
.as_ref()
.unwrap()
.capabilities
.is_superset(capabilities)
} else {
false
}
});
let res = loop {
if let Some(Some(region)) = iter.next() {
let res = region.heap.allocate_first_fit(layout);
if let Ok(res) = res {
break Some(res);
}
} else {
break None;
}
};
res.map_or(ptr::null_mut(), |allocation| {
#[cfg(feature = "internal-heap-stats")]
{
let mut internal_heap_stats = self.internal_heap_stats.borrow_ref_mut(cs);
drop(regions);
// We need to call used because [linked_list_allocator::Heap] does internal size
// alignment so we cannot use the size provided by the layout.
let used = self.used();
internal_heap_stats.total_allocated += used - before;
internal_heap_stats.max_usage =
core::cmp::max(internal_heap_stats.max_usage, used);
}
allocation.as_ptr()
})
})
critical_section::with(|cs| self.heap.borrow(cs).borrow_mut().free())
}
}
unsafe impl GlobalAlloc for EspHeap {
unsafe fn alloc(&self, layout: Layout) -> *mut u8 {
self.alloc_caps(EnumSet::empty(), layout)
critical_section::with(|cs| {
self.heap
.borrow(cs)
.borrow_mut()
.allocate_first_fit(layout)
.ok()
.map_or(ptr::null_mut(), |allocation| allocation.as_ptr())
})
}
unsafe fn dealloc(&self, ptr: *mut u8, layout: Layout) {
if ptr.is_null() {
return;
}
critical_section::with(|cs| {
#[cfg(feature = "internal-heap-stats")]
let before = self.used();
let mut regions = self.heap.borrow_ref_mut(cs);
let mut iter = (*regions).iter_mut();
while let Some(Some(region)) = iter.next() {
if region.heap.bottom() <= ptr && region.heap.top() >= ptr {
region.heap.deallocate(NonNull::new_unchecked(ptr), layout);
}
}
#[cfg(feature = "internal-heap-stats")]
{
let mut internal_heap_stats = self.internal_heap_stats.borrow_ref_mut(cs);
drop(regions);
// We need to call `used()` because [linked_list_allocator::Heap] does internal
// size alignment so we cannot use the size provided by the
// layout.
internal_heap_stats.total_freed += before - self.used();
}
})
self.heap
.borrow(cs)
.borrow_mut()
.deallocate(NonNull::new_unchecked(ptr), layout)
});
}
}
#[cfg(feature = "nightly")]
unsafe impl Allocator for EspHeap {
fn allocate(&self, layout: Layout) -> Result<NonNull<[u8]>, AllocError> {
let raw_ptr = unsafe { self.alloc(layout) };
if raw_ptr.is_null() {
return Err(AllocError);
}
let ptr = NonNull::new(raw_ptr).ok_or(AllocError)?;
Ok(NonNull::slice_from_raw_parts(ptr, layout.size()))
critical_section::with(|cs| {
let raw_ptr = self
.heap
.borrow(cs)
.borrow_mut()
.allocate_first_fit(layout)
.map_err(|_| AllocError)?
.as_ptr();
let ptr = NonNull::new(raw_ptr).ok_or(AllocError)?;
Ok(NonNull::slice_from_raw_parts(ptr, layout.size()))
})
}
unsafe fn deallocate(&self, ptr: NonNull<u8>, layout: Layout) {

30
esp-alloc/src/macros.rs
View File

@ -1,25 +1,24 @@
//! Macros provided for convenience
/// Initialize a global heap allocator providing a heap of the given size in
/// bytes
/// Create a heap allocator providing a heap of the given size in bytes
///
/// You can only have ONE allocator at most
#[macro_export]
macro_rules! heap_allocator {
($size:expr) => {{
#[global_allocator]
static ALLOCATOR: $crate::EspHeap = $crate::EspHeap::empty();
static mut HEAP: core::mem::MaybeUninit<[u8; $size]> = core::mem::MaybeUninit::uninit();
unsafe {
$crate::HEAP.add_region($crate::HeapRegion::new(
HEAP.as_mut_ptr() as *mut u8,
$size,
$crate::MemoryCapability::Internal.into(),
));
ALLOCATOR.init(HEAP.as_mut_ptr() as *mut u8, $size);
}
}};
}
/// Initialize a global heap allocator backed by PSRAM
/// Create a heap allocator backed by PSRAM
///
/// You need a SoC which supports PSRAM
/// You can only have ONE allocator at most. You need a SoC which supports PSRAM
/// and activate the feature to enable it. You need to pass the PSRAM peripheral
/// and the psram module path.
///
@ -29,15 +28,14 @@ macro_rules! heap_allocator {
/// ```
#[macro_export]
macro_rules! psram_allocator {
($peripheral:expr, $psram_module:path) => {{
($peripheral:expr,$psram_module:path) => {{
#[global_allocator]
static ALLOCATOR: $crate::EspHeap = $crate::EspHeap::empty();
use $psram_module as _psram;
let (start, size) = _psram::psram_raw_parts(&$peripheral);
_psram::init_psram($peripheral);
unsafe {
$crate::HEAP.add_region($crate::HeapRegion::new(
start,
size,
$crate::MemoryCapability::External.into(),
));
ALLOCATOR.init(_psram::psram_vaddr_start() as *mut u8, _psram::PSRAM_BYTES);
}
}};
}

21
esp-backtrace/CHANGELOG.md
View File

@ -5,28 +5,11 @@ All notable changes to this project will be documented in this file.
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/),
and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html).
## [Unreleased]
## Unreleased
### Added
### Changed
### Fixed
### Removed
## 0.14.2 - 2024-10-10
### Fixed
- Fix build when not using `panic-handler` (#2257)
## 0.14.1 - 2024-09-06
### Added
### Changed
- Print a more helpful message in case of a `Cp0Disabled` exception (#2061)
### Fixed
@ -59,5 +42,3 @@ No changes - published to avoid conflicts with `esp-println`
- Fix compilation for nightly after 2024-06-12. (#1681)
- Only prints float registers on targets which have them. (#1690)
[Unreleased]: https://github.com/esp-rs/esp-hal/commits/main/esp-backtrace?since=2024-10-10

8
esp-backtrace/Cargo.toml
View File

@ -1,11 +1,9 @@
[package]
name = "esp-backtrace"
version = "0.14.2"
version = "0.14.0"
edition = "2021"
rust-version = "1.76.0"
description = "Bare-metal backtrace support for Espressif devices"
keywords = ["backtrace", "embedded", "esp32", "espressif"]
categories = ["embedded", "hardware-support", "no-std"]
repository = "https://github.com/esp-rs/esp-hal"
license = "MIT OR Apache-2.0"
@ -15,8 +13,8 @@ features = ["esp32c3", "panic-handler", "exception-handler", "println", "e
[dependencies]
defmt = { version = "0.3.8", optional = true }
esp-println = { version = "0.12.0", optional = true, default-features = false, path = "../esp-println" }
semihosting = { version = "0.1.15", optional = true }
esp-println = { version = "0.11.0", optional = true, default-features = false, path = "../esp-println" }
semihosting = { version = "0.1.14", optional = true }
[build-dependencies]
esp-build = { version = "0.1.0", path = "../esp-build" }

6
esp-backtrace/src/riscv.rs
View File

@ -4,10 +4,10 @@ use crate::MAX_BACKTRACE_ADDRESSES;
// subtract 4 from the return address
// the return address is the address following the JALR
// we get better results (especially if the caller was the last instruction in
// the calling function) if we report the address of the JALR itself
// we get better results (especially if the caller was the last function in the
// calling function) if we report the address of the JALR itself
// even if it was a C.JALR we should get good results using RA - 4
#[allow(unused)]
#[cfg(feature = "panic-handler")]
pub(super) const RA_OFFSET: usize = 4;
/// Registers saved in trap handler

2
esp-backtrace/src/xtensa.rs
View File

@ -6,7 +6,7 @@ use crate::MAX_BACKTRACE_ADDRESSES;
// the return address is the address following the callxN
// we get better results (especially if the caller was the last function in the
// calling function) if we report the address of callxN itself
#[allow(unused)]
#[cfg(feature = "panic-handler")]
pub(super) const RA_OFFSET: usize = 3;
/// Exception Cause

24
esp-build/CHANGELOG.md
View File

@ -1,24 +0,0 @@
# Changelog
All notable changes to this project will be documented in this file.
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.1.0/),
and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html).
## [Unreleased]
### Added
### Fixed
### Changed
- Use `panic` instead of `process::exit` in esp-build (#2402 )
### Removed
## [0.1.0] - 2024-04-17
- Initial release
[Unreleased]: https://github.com/esp-rs/esp-hal/commits/main/esp-build?since=2024-04-17

4
esp-build/Cargo.toml
View File

@ -11,6 +11,6 @@ license = "MIT OR Apache-2.0"
proc-macro = true
[dependencies]
quote = "1.0.37"
syn = { version = "2.0.79", features = ["fold", "full"] }
quote = "1.0.36"
syn = { version = "2.0.71", features = ["fold", "full"] }
termcolor = "1.4.1"

4
esp-build/src/lib.rs
View File

@ -2,7 +2,7 @@
#![doc(html_logo_url = "https://avatars.githubusercontent.com/u/46717278")]
use std::io::Write as _;
use std::{io::Write as _, process};
use proc_macro::TokenStream;
use quote::ToTokens;
@ -26,7 +26,7 @@ use termcolor::{Color, ColorChoice, ColorSpec, StandardStream, WriteColor};
#[proc_macro]
pub fn error(input: TokenStream) -> TokenStream {
do_alert(Color::Red, input);
panic!("Build failed");
process::exit(1);
}
/// Print a build warning.

32
esp-config/CHANGELOG.md
View File

@ -1,32 +0,0 @@
# Changelog
All notable changes to this project will be documented in this file.
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.1.0/),
and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html).
## [Unreleased]
### Added
### Fixed
- Users no longer have to manually import `esp_config_int_parse`. (#2630)
### Changed
- Crate prefixes and configuration keys are now separated by `_CONFIG_` (#2848)
### Removed
## 0.2.0 - 2024-11-20
### Added
- Add configuration validation (#2475)
## 0.1.0 - 2024-10-10
- Initial release
[Unreleased]: https://github.com/esp-rs/esp-hal/commits/main/esp-config?since=2024-11-20

18
esp-config/Cargo.toml
View File

@ -1,18 +0,0 @@
[package]
name = "esp-config"
version = "0.2.0"
edition = "2021"
rust-version = "1.79.0"
description = "Configure projects using esp-hal and related packages"
repository = "https://github.com/esp-rs/esp-hal"
license = "MIT OR Apache-2.0"
[dependencies]
document-features = "0.2.10"
[dev-dependencies]
temp-env = "0.3.6"
[features]
## Enable the generation and parsing of a config
build = []

65
esp-config/README.md
View File

@ -1,65 +0,0 @@
# esp-config
[![Crates.io](https://img.shields.io/crates/v/esp-config?labelColor=1C2C2E&color=C96329&logo=Rust&style=flat-square)](https://crates.io/crates/esp-config)
[![docs.rs](https://img.shields.io/docsrs/esp-config?labelColor=1C2C2E&color=C96329&logo=rust&style=flat-square)](https://docs.rs/esp-config)
![MSRV](https://img.shields.io/badge/MSRV-1.79-blue?labelColor=1C2C2E&style=flat-square)
![Crates.io](https://img.shields.io/crates/l/esp-config?labelColor=1C2C2E&style=flat-square)
[![Matrix](https://img.shields.io/matrix/esp-rs:matrix.org?label=join%20matrix&labelColor=1C2C2E&color=BEC5C9&logo=matrix&style=flat-square)](https://matrix.to/#/#esp-rs:matrix.org)
## [Documentation](https://docs.rs/crate/esp-config)
## Usage
`esp-config` takes a prefix (usually the crate name) and a set of configuration keys and default values to produce a configuration system that supports:
- Emitting rustc cfg's for boolean keys
- Emitting environment variables for numbers
- Along with decimal parsing, it supports Hex, Octal and Binary with the respective `0x`, `0o` and `0b` prefixes.
- Emitting environment variables string values
### Viewing the configuration
The possible configuration values are output as a markdown table in the crates `OUT_DIR` with the format `{prefix}_config_table.md`, this can then be included into the crates top level documentation. Here is an example of the output:
| Name | Description | Default value |
|------|-------------|---------------|
|**ESP_HAL_PLACE_SPI_DRIVER_IN_RAM**|Places the SPI driver in RAM for better performance|false|
### Setting configuration options
For any available configuration option, the environment variable or cfg is _always_ set based on the default value specified in the table. Users can override this by setting environment variables locally in their shell _or_ the preferred option is to utilize cargo's [`env` section](https://doc.rust-lang.org/cargo/reference/config.html#env).
It's important to note that due to a [bug in cargo](https://github.com/rust-lang/cargo/issues/10358), any modifications to the environment, local or otherwise will only get picked up on a full clean build of the project.
To see the final selected configuration another table is output to the `OUT_DIR` with the format `{prefix}_selected_config.md`.
### Capturing configuration values in the downstream crate
For all supported data types, there are helper macros that emit `const` code for parsing the configuration values.
- Numbers - `esp_config_int!(integer_type, "ENV")`
- Strings - `esp_config_str!("ENV")`
- Bool - `esp_config_bool!("ENV")`
In addition to environment variables, for boolean types rust `cfg`'s are emitted in snake case _without_ the prefix.
## Minimum Supported Rust Version (MSRV)
This crate is guaranteed to compile on stable Rust 1.79 and up. It _might_
compile with older versions but that may change in any new patch release.
## License
Licensed under either of:
- Apache License, Version 2.0 ([LICENSE-APACHE](../LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0)
- MIT license ([LICENSE-MIT](../LICENSE-MIT) or http://opensource.org/licenses/MIT)
at your option.
### Contribution
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in
the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without
any additional terms or conditions.

699
esp-config/src/generate.rs
View File

@ -1,699 +0,0 @@
use std::{
collections::HashMap,
env,
fmt::{self, Write as _},
fs,
ops::Range,
path::PathBuf,
};
const DOC_TABLE_HEADER: &str = r#"
| Name | Description | Default value |
|------|-------------|---------------|
"#;
const SELECTED_TABLE_HEADER: &str = r#"
| Name | Selected value |
|------|----------------|
"#;
/// Configuration errors.
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum Error {
/// Parse errors.
Parse(String),
/// Validation errors.
Validation(String),
}
impl Error {
/// Convenience function for creating parse errors.
pub fn parse<S>(message: S) -> Self
where
S: Into<String>,
{
Self::Parse(message.into())
}
/// Convenience function for creating validation errors.
pub fn validation<S>(message: S) -> Self
where
S: Into<String>,
{
Self::Validation(message.into())
}
}
impl fmt::Display for Error {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Error::Parse(message) => write!(f, "{message}"),
Error::Validation(message) => write!(f, "{message}"),
}
}
}
/// Supported configuration value types.
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum Value {
/// Booleans.
Bool(bool),
/// Integers.
Integer(i128),
/// Strings.
String(String),
}
// TODO: Do we want to handle negative values for non-decimal values?
impl Value {
fn parse_in_place(&mut self, s: &str) -> Result<(), Error> {
*self = match self {
Value::Bool(_) => match s {
"true" => Value::Bool(true),
"false" => Value::Bool(false),
_ => {
return Err(Error::parse(format!(
"Expected 'true' or 'false', found: '{s}'"
)))
}
},
Value::Integer(_) => {
let inner = match s.as_bytes() {
[b'0', b'x', ..] => i128::from_str_radix(&s[2..], 16),
[b'0', b'o', ..] => i128::from_str_radix(&s[2..], 8),
[b'0', b'b', ..] => i128::from_str_radix(&s[2..], 2),
_ => i128::from_str_radix(&s, 10),
}
.map_err(|_| Error::parse(format!("Expected valid intger value, found: '{s}'")))?;
Value::Integer(inner)
}
Value::String(_) => Value::String(s.into()),
};
Ok(())
}
/// Convert the value to a [bool].
pub fn as_bool(&self) -> bool {
match self {
Value::Bool(value) => *value,
_ => panic!("attempted to convert non-bool value to a bool"),
}
}
/// Convert the value to an [i128].
pub fn as_integer(&self) -> i128 {
match self {
Value::Integer(value) => *value,
_ => panic!("attempted to convert non-integer value to an integer"),
}
}
/// Convert the value to a [String].
pub fn as_string(&self) -> String {
match self {
Value::String(value) => value.to_owned(),
_ => panic!("attempted to convert non-string value to a string"),
}
}
/// Is the value a bool?
pub fn is_bool(&self) -> bool {
matches!(self, Value::Bool(_))
}
/// Is the value an integer?
pub fn is_integer(&self) -> bool {
matches!(self, Value::Integer(_))
}
/// Is the value a string?
pub fn is_string(&self) -> bool {
matches!(self, Value::String(_))
}
}
impl fmt::Display for Value {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Value::Bool(b) => write!(f, "{b}"),
Value::Integer(i) => write!(f, "{i}"),
Value::String(s) => write!(f, "{s}"),
}
}
}
/// Configuration value validation functions.
pub enum Validator {
/// Only allow negative integers, i.e. any values less than 0.
NegativeInteger,
/// Only allow non-negative integers, i.e. any values greater than or equal
/// to 0.
NonNegativeInteger,
/// Only allow positive integers, i.e. any values greater than to 0.
PositiveInteger,
/// Ensure that an integer value falls within the specified range.
IntegerInRange(Range<i128>),
/// A custom validation function to run against any supported value type.
Custom(Box<dyn Fn(&Value) -> Result<(), Error>>),
}
impl Validator {
fn validate(&self, value: &Value) -> Result<(), Error> {
match self {
Validator::NegativeInteger => negative_integer(value)?,
Validator::NonNegativeInteger => non_negative_integer(value)?,
Validator::PositiveInteger => positive_integer(value)?,
Validator::IntegerInRange(range) => integer_in_range(range, value)?,
Validator::Custom(validator_fn) => validator_fn(value)?,
}
Ok(())
}
}
fn negative_integer(value: &Value) -> Result<(), Error> {
if !value.is_integer() {
return Err(Error::validation(
"Validator::NegativeInteger can only be used with integer values",
));
} else if value.as_integer() >= 0 {
return Err(Error::validation(format!(
"Expected negative integer, found '{}'",
value.as_integer()
)));
}
Ok(())
}
fn non_negative_integer(value: &Value) -> Result<(), Error> {
if !value.is_integer() {
return Err(Error::validation(
"Validator::NonNegativeInteger can only be used with integer values",
));
} else if value.as_integer() < 0 {
return Err(Error::validation(format!(
"Expected non-negative integer, found '{}'",
value.as_integer()
)));
}
Ok(())
}
fn positive_integer(value: &Value) -> Result<(), Error> {
if !value.is_integer() {
return Err(Error::validation(
"Validator::PositiveInteger can only be used with integer values",
));
} else if value.as_integer() <= 0 {
return Err(Error::validation(format!(
"Expected positive integer, found '{}'",
value.as_integer()
)));
}
Ok(())
}
fn integer_in_range(range: &Range<i128>, value: &Value) -> Result<(), Error> {
if !value.is_integer() || !range.contains(&value.as_integer()) {
Err(Error::validation(format!(
"Value '{}' does not fall within range '{:?}'",
value, range
)))
} else {
Ok(())
}
}
/// Generate and parse config from a prefix, and an array tuples containing the
/// name, description, default value, and an optional validator.
///
/// This function will parse any `SCREAMING_SNAKE_CASE` environment variables
/// that match the given prefix. It will then attempt to parse the [`Value`] and
/// run any validators which have been specified.
///
/// Once the config has been parsed, this function will emit `snake_case` cfg's
/// _without_ the prefix which can be used in the dependant crate. After that,
/// it will create a markdown table in the `OUT_DIR` under the name
/// `{prefix}_config_table.md` where prefix has also been converted to
/// `snake_case`. This can be included in crate documentation to outline the
/// available configuration options for the crate.
///
/// Passing a value of true for the `emit_md_tables` argument will create and
/// write markdown files of the available configuration and selected
/// configuration which can be included in documentation.
///
/// Unknown keys with the supplied prefix will cause this function to panic.
pub fn generate_config(
crate_name: &str,
config: &[(&str, &str, Value, Option<Validator>)],
emit_md_tables: bool,
) -> HashMap<String, Value> {
// Only rebuild if `build.rs` changed. Otherwise, Cargo will rebuild if any
// other file changed.
println!("cargo:rerun-if-changed=build.rs");
#[cfg(not(test))]
env_change_work_around();
let mut doc_table = String::from(DOC_TABLE_HEADER);
let mut selected_config = String::from(SELECTED_TABLE_HEADER);
// Ensure that the prefix is `SCREAMING_SNAKE_CASE`:
let prefix = format!("{}_CONFIG_", screaming_snake_case(crate_name));
// Build a lookup table for any provided validators; we must prefix the
// name of the config and transform it to SCREAMING_SNAKE_CASE so that
// it matches the keys in the hash table produced by `create_config`.
let config_validators = config
.iter()
.flat_map(|(name, _description, _default, validator)| {
if let Some(validator) = validator {
let name = format!("{prefix}{}", screaming_snake_case(name));
Some((name, validator))
} else {
None
}
})
.collect::<HashMap<_, _>>();
let mut configs = create_config(&prefix, config, &mut doc_table);
capture_from_env(&prefix, &mut configs);
for (name, value) in configs.iter() {
if let Some(validator) = config_validators.get(name) {
validator.validate(value).unwrap();
}
}
emit_configuration(&prefix, &configs, &mut selected_config);
if emit_md_tables {
let file_name = snake_case(crate_name);
write_config_tables(&file_name, doc_table, selected_config);
}
configs
}
// A work-around for https://github.com/rust-lang/cargo/issues/10358
// This can be removed when https://github.com/rust-lang/cargo/pull/14058 is merged.
// Unlikely to work on projects in workspaces
#[cfg(not(test))]
fn env_change_work_around() {
let mut out_dir = PathBuf::from(env::var_os("OUT_DIR").unwrap());
// We clean out_dir by removing all trailing directories, until it ends with
// target
while !out_dir.ends_with("target") {
if !out_dir.pop() {
return; // We ran out of directories...
}
}
out_dir.pop();
let dotcargo = out_dir.join(".cargo/");
if dotcargo.exists() {
if dotcargo.join("config.toml").exists() {
println!(
"cargo:rerun-if-changed={}",
dotcargo.join("config.toml").display()
);
}
if dotcargo.join("config").exists() {
println!(
"cargo:rerun-if-changed={}",
dotcargo.join("config").display()
);
}
}
}
fn create_config(
prefix: &str,
config: &[(&str, &str, Value, Option<Validator>)],
doc_table: &mut String,
) -> HashMap<String, Value> {
let mut configs = HashMap::new();
for (name, description, default, _validator) in config {
let name = format!("{prefix}{}", screaming_snake_case(name));
configs.insert(name.clone(), default.clone());
// Write documentation table line:
let default = default.to_string();
writeln!(doc_table, "|**{name}**|{description}|{default}|").unwrap();
// Rebuild if config environment variable changed:
println!("cargo:rerun-if-env-changed={name}");
}
configs
}
fn capture_from_env(prefix: &str, configs: &mut HashMap<String, Value>) {
let mut unknown = Vec::new();
let mut failed = Vec::new();
// Try and capture input from the environment:
for (var, value) in env::vars() {
if var.starts_with(prefix) {
let Some(cfg) = configs.get_mut(&var) else {
unknown.push(var);
continue;
};
if let Err(e) = cfg.parse_in_place(&value) {
failed.push(format!("{var}: {e}"));
}
}
}
if !failed.is_empty() {
panic!("Invalid configuration options detected: {:?}", failed);
}
if !unknown.is_empty() {
panic!("Unknown configuration options detected: {:?}", unknown);
}
}
fn emit_configuration(
prefix: &str,
configs: &HashMap<String, Value>,
selected_config: &mut String,
) {
for (name, value) in configs.iter() {
let cfg_name = snake_case(name.trim_start_matches(prefix));
println!("cargo:rustc-check-cfg=cfg({cfg_name})");
if let Value::Bool(true) = value {
println!("cargo:rustc-cfg={cfg_name}");
}
let value = value.to_string();
// Values that haven't been seen will be output here with the default value:
println!("cargo:rustc-env={}={}", name, value);
writeln!(selected_config, "|**{name}**|{value}|").unwrap();
}
}
fn write_config_tables(prefix: &str, doc_table: String, selected_config: String) {
let out_dir = PathBuf::from(env::var_os("OUT_DIR").unwrap());
let out_file = out_dir
.join(format!("{prefix}_config_table.md"))
.display()
.to_string();
fs::write(out_file, doc_table).unwrap();
let out_file = out_dir
.join(format!("{prefix}_selected_config.md"))
.display()
.to_string();
fs::write(out_file, selected_config).unwrap();
}
fn snake_case(name: &str) -> String {
let mut name = name.replace("-", "_");
name.make_ascii_lowercase();
name
}
fn screaming_snake_case(name: &str) -> String {
let mut name = name.replace("-", "_");
name.make_ascii_uppercase();
name
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn value_number_formats() {
const INPUTS: &[&str] = &["0xAA", "0o252", "0b0000000010101010", "170"];
let mut v = Value::Integer(0);
for input in INPUTS {
v.parse_in_place(input).unwrap();
// no matter the input format, the output format should be decimal
assert_eq!(format!("{v}"), "170");
}
}
#[test]
fn value_bool_inputs() {
let mut v = Value::Bool(false);
v.parse_in_place("true").unwrap();
assert_eq!(format!("{v}"), "true");
v.parse_in_place("false").unwrap();
assert_eq!(format!("{v}"), "false");
}
#[test]
fn env_override() {
temp_env::with_vars(
[
("ESP_TEST_CONFIG_NUMBER", Some("0xaa")),
("ESP_TEST_CONFIG_NUMBER_SIGNED", Some("-999")),
("ESP_TEST_CONFIG_STRING", Some("Hello world!")),
("ESP_TEST_CONFIG_BOOL", Some("true")),
],
|| {
let configs = generate_config(
"esp-test",
&[
("number", "NA", Value::Integer(999), None),
("number_signed", "NA", Value::Integer(-777), None),
("string", "NA", Value::String("Demo".to_owned()), None),
("bool", "NA", Value::Bool(false), None),
("number_default", "NA", Value::Integer(999), None),
(
"string_default",
"NA",
Value::String("Demo".to_owned()),
None,
),
("bool_default", "NA", Value::Bool(false), None),
],
false,
);
// some values have changed
assert_eq!(
match configs.get("ESP_TEST_CONFIG_NUMBER").unwrap() {
Value::Integer(num) => *num,
_ => unreachable!(),
},
0xaa
);
assert_eq!(
match configs.get("ESP_TEST_CONFIG_NUMBER_SIGNED").unwrap() {
Value::Integer(num) => *num,
_ => unreachable!(),
},
-999
);
assert_eq!(
match configs.get("ESP_TEST_CONFIG_STRING").unwrap() {
Value::String(val) => val,
_ => unreachable!(),
},
"Hello world!"
);
assert_eq!(
match configs.get("ESP_TEST_CONFIG_BOOL").unwrap() {
Value::Bool(val) => *val,
_ => unreachable!(),
},
true
);
// the rest are the defaults
assert_eq!(
match configs.get("ESP_TEST_CONFIG_NUMBER_DEFAULT").unwrap() {
Value::Integer(num) => *num,
_ => unreachable!(),
},
999
);
assert_eq!(
match configs.get("ESP_TEST_CONFIG_STRING_DEFAULT").unwrap() {
Value::String(val) => val,
_ => unreachable!(),
},
"Demo"
);
assert_eq!(
match configs.get("ESP_TEST_CONFIG_BOOL_DEFAULT").unwrap() {
Value::Bool(val) => *val,
_ => unreachable!(),
},
false
);
},
)
}
#[test]
fn builtin_validation_passes() {
temp_env::with_vars(
[
("ESP_TEST_CONFIG_POSITIVE_NUMBER", Some("7")),
("ESP_TEST_CONFIG_NEGATIVE_NUMBER", Some("-1")),
("ESP_TEST_CONFIG_NON_NEGATIVE_NUMBER", Some("0")),
("ESP_TEST_CONFIG_RANGE", Some("9")),
],
|| {
generate_config(
"esp-test",
&[
(
"positive_number",
"NA",
Value::Integer(-1),
Some(Validator::PositiveInteger),
),
(
"negative_number",
"NA",
Value::Integer(1),
Some(Validator::NegativeInteger),
),
(
"non_negative_number",
"NA",
Value::Integer(-1),
Some(Validator::NonNegativeInteger),
),
(
"range",
"NA",
Value::Integer(0),
Some(Validator::IntegerInRange(5..10)),
),
],
false,
)
},
);
}
#[test]
fn custom_validation_passes() {
temp_env::with_vars([("ESP_TEST_CONFIG_NUMBER", Some("13"))], || {
generate_config(
"esp-test",
&[(
"number",
"NA",
Value::Integer(-1),
Some(Validator::Custom(Box::new(|value| {
let range = 10..20;
if !value.is_integer() || !range.contains(&value.as_integer()) {
Err(Error::validation("value does not fall within range"))
} else {
Ok(())
}
}))),
)],
false,
)
});
}
#[test]
#[should_panic]
fn builtin_validation_bails() {
temp_env::with_vars([("ESP_TEST_CONFIG_POSITIVE_NUMBER", Some("-99"))], || {
generate_config(
"esp-test",
&[(
"positive_number",
"NA",
Value::Integer(-1),
Some(Validator::PositiveInteger),
)],
false,
)
});
}
#[test]
#[should_panic]
fn custom_validation_bails() {
temp_env::with_vars([("ESP_TEST_CONFIG_NUMBER", Some("37"))], || {
generate_config(
"esp-test",
&[(
"number",
"NA",
Value::Integer(-1),
Some(Validator::Custom(Box::new(|value| {
let range = 10..20;
if !value.is_integer() || !range.contains(&value.as_integer()) {
Err(Error::validation("value does not fall within range"))
} else {
Ok(())
}
}))),
)],
false,
)
});
}
#[test]
#[should_panic]
fn env_unknown_bails() {
temp_env::with_vars(
[
("ESP_TEST_CONFIG_NUMBER", Some("0xaa")),
("ESP_TEST_CONFIG_RANDOM_VARIABLE", Some("")),
],
|| {
generate_config(
"esp-test",
&[("number", "NA", Value::Integer(999), None)],
false,
);
},
);
}
#[test]
#[should_panic]
fn env_invalid_values_bails() {
temp_env::with_vars([("ESP_TEST_CONFIG_NUMBER", Some("Hello world"))], || {
generate_config(
"esp-test",
&[("number", "NA", Value::Integer(999), None)],
false,
);
});
}
#[test]
fn env_unknown_prefix_is_ignored() {
temp_env::with_vars(
[("ESP_TEST_OTHER_CONFIG_NUMBER", Some("Hello world"))],
|| {
generate_config(
"esp-test",
&[("number", "NA", Value::Integer(999), None)],
false,
);
},
);
}
}

110
esp-config/src/lib.rs
View File

@ -1,110 +0,0 @@
#![doc = include_str!("../README.md")]
//! ## Feature Flags
#![doc = document_features::document_features!(feature_label = r#"<span class="stab portability"><code>{feature}</code></span>"#)]
#![doc(html_logo_url = "https://avatars.githubusercontent.com/u/46717278")]
#![cfg_attr(not(feature = "build"), no_std)]
#![deny(missing_docs, rust_2018_idioms)]
#[cfg(feature = "build")]
mod generate;
#[cfg(feature = "build")]
pub use generate::{generate_config, Error, Validator, Value};
/// Parse the value of an environment variable as a [bool] at compile time.
#[macro_export]
macro_rules! esp_config_bool {
( $var:expr ) => {
match env!($var).as_bytes() {
b"true" => true,
b"false" => false,
_ => ::core::panic!("boolean value must be either 'true' or 'false'"),
}
};
}
// TODO: From 1.82 on, we can use `<$ty>::from_str_radix(env!($var), 10)`
/// Parse the value of an environment variable as an integer at compile time.
#[macro_export]
macro_rules! esp_config_int {
( $ty:ty, $var:expr ) => {
const {
const BYTES: &[u8] = env!($var).as_bytes();
$crate::esp_config_int_parse!($ty, BYTES)
}
};
}
/// Get the string value of an environment variable at compile time.
#[macro_export]
macro_rules! esp_config_str {
( $var:expr ) => {
env!($var)
};
}
/// Parse a string like "777" into an integer, which _can_ be used in a `const`
/// context
#[doc(hidden)] // To avoid confusion with `esp_config_int`, hide this in the docs
#[macro_export]
macro_rules! esp_config_int_parse {
( $ty:ty, $bytes:expr ) => {{
let mut bytes = $bytes;
let mut val: $ty = 0;
let mut sign_seen = false;
let mut is_negative = false;
while let [byte, rest @ ..] = bytes {
match *byte {
b'0'..=b'9' => {
val = val * 10 + (*byte - b'0') as $ty;
}
b'-' | b'+' if !sign_seen => {
is_negative = *byte == b'-';
sign_seen = true;
}
_ => ::core::panic!("invalid character encountered while parsing integer"),
}
bytes = rest;
}
if is_negative {
let original = val;
// Subtract the value twice to get a negative:
val -= original;
val -= original;
}
val
}};
}
#[cfg(test)]
mod test {
// We can only test success in the const context
const _: () = {
core::assert!(esp_config_int_parse!(i64, "-77777".as_bytes()) == -77777);
core::assert!(esp_config_int_parse!(isize, "-7777".as_bytes()) == -7777);
core::assert!(esp_config_int_parse!(i32, "-999".as_bytes()) == -999);
core::assert!(esp_config_int_parse!(i16, "-99".as_bytes()) == -99);
core::assert!(esp_config_int_parse!(i8, "-9".as_bytes()) == -9);
core::assert!(esp_config_int_parse!(u64, "77777".as_bytes()) == 77777);
core::assert!(esp_config_int_parse!(usize, "7777".as_bytes()) == 7777);
core::assert!(esp_config_int_parse!(u32, "999".as_bytes()) == 999);
core::assert!(esp_config_int_parse!(u16, "99".as_bytes()) == 99);
core::assert!(esp_config_int_parse!(u8, "9".as_bytes()) == 9);
};
#[test]
#[should_panic]
fn test_expect_positive() {
esp_config_int_parse!(u8, "-5".as_bytes());
}
#[test]
#[should_panic]
fn test_invalid_digit() {
esp_config_int_parse!(u32, "a".as_bytes());
}
}

1
esp-hal-embassy/.clippy.toml
View File

@ -1 +0,0 @@
avoid-breaking-exported-api = false

36
esp-hal-embassy/CHANGELOG.md
View File

@ -5,48 +5,16 @@ All notable changes to this project will be documented in this file.
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/),
and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html).
## [Unreleased]
## Unreleased
### Added
### Changed
- Bump MSRV to 1.83 (#2615)
- Config: Crate prefixes and configuration keys are now separated by `_CONFIG_` (#2848)
### Fixed
### Removed
## 0.5.0 - 2024-11-20
### Added
- `ESP_HAL_EMBASSY_LOW_POWER_WAIT` configuration option. (#2329)
### Changed
- Reduce memory footprint by 4 bytes on multi-core MCUs.
- The time driver no longer uses cross-core critical sections. (#2559)
### Fixed
- Alarm interrupts are now handled on the core that allocated them. (For executors created on the second core after calling `esp_hal_embassy::init`) (#2451)
### Removed
## 0.4.0 - 2024-10-10
### Changed
- MSRV bump to 1.79 (#2156)
### Removed
- Removed the `clocks` parameter from `esp_hal_embassy::init`. (#1999)
## 0.3.0 - 2024-08-29
### Added
@ -70,5 +38,3 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
- Removed the TIMG and SYSTIMER time drivers, replaced by a generic time driver taking `OneShotTimer<ErasedTimer>` (#1753)
## 0.1.0 - 2024-06-04
[Unreleased]: https://github.com/esp-rs/esp-hal/commits/main/esp-hal-embassy?since=2024-11-20

20
esp-hal-embassy/Cargo.toml
View File

@ -1,11 +1,9 @@
[package]
name = "esp-hal-embassy"
version = "0.5.0"
version = "0.3.0"
edition = "2021"
rust-version = "1.83.0"
rust-version = "1.76.0"
description = "Embassy support for esp-hal"
keywords = ["async", "embedded", "esp32", "espressif"]
categories = ["asynchronous", "embedded", "hardware-support", "no-std"]
repository = "https://github.com/esp-rs/esp-hal"
license = "MIT OR Apache-2.0"
@ -14,21 +12,21 @@ default-target = "riscv32imac-unknown-none-elf"
features = ["esp32c6"]
[dependencies]
critical-section = "1.2.0"
critical-section = "1.1.3"
defmt = { version = "0.3.8", optional = true }
document-features = "0.2.10"
embassy-executor = { version = "0.6.3", optional = true }
embassy-executor = { version = "0.6.0", optional = true }
embassy-time-driver = { version = "0.1.0", features = [ "tick-hz-1_000_000" ] }
esp-hal = { version = "0.22.0", path = "../esp-hal" }
esp-hal = { version = "0.20.0", path = "../esp-hal" }
log = { version = "0.4.22", optional = true }
macros = { version = "0.15.0", features = ["embassy"], package = "esp-hal-procmacros", path = "../esp-hal-procmacros" }
portable-atomic = "1.9.0"
macros = { version = "0.13.0", features = ["embassy"], package = "esp-hal-procmacros", path = "../esp-hal-procmacros" }
portable-atomic = "1.7.0"
static_cell = "2.1.0"
[build-dependencies]
cfg-if = "1.0.0"
esp-build = { version = "0.1.0", path = "../esp-build" }
esp-config = { version = "0.2.0", path = "../esp-config", features = ["build"] }
esp-metadata = { version = "0.4.0", path = "../esp-metadata" }
esp-metadata = { version = "0.3.0", path = "../esp-metadata" }
[features]
default = ["executors"]

63
esp-hal-embassy/MIGRATING-0.3.md
View File

@ -1,63 +0,0 @@
# Migration Guide from 0.3.x to v0.4.x
## Initialization
You no longer have to set up clocks and pass them to `esp_hal_embassy::init`.
```diff
use esp_hal::{
- clock::ClockControl,
- peripherals::Peripherals,
prelude::*,
- system::SystemControl,
};
#[esp_hal_embassy::main]
async fn main(_spawner: Spawner) -> ! {
- let peripherals = Peripherals::take();
- let system = SystemControl::new(peripherals.SYSTEM);
- let clocks = ClockControl::boot_defaults(system.clock_control).freeze();
+ let peripherals = esp_hal::init(esp_hal::Config::default());
let timg0 = TimerGroup::new(peripherals.TIMG0);
- esp_hal_embassy::init(&clocks, timg0);
+ esp_hal_embassy::init(timg0.timer0);
// ...
}
```
You have to specify a timer instance (that may be a `TimerGroup` timer unit
or a `SystemTimer` alarm) or an array of `AnyTimer`s when calling `init`.
An example of how you can set multiple timers (for example when using
multiple executors):
```rust
use esp_hal::{
prelude::*,
timer::{
AnyTimer,
systimer::SystemTimer
}
};
#[esp_hal_embassy::main]
async fn main(_spawner: Spawner) -> ! {
let peripherals = esp_hal::init(esp_hal::Config::default());
let timg0 = TimerGroup::new(peripherals.TIMG0);
let timer0: AnyTimer = timg0.timer0.into();
let timer1: AnyTimer = timg0.timer1.into();
// You can use either a TimerGroup timer, a SystemTimer alarm,
// or you can mix and match them as well.
let systimer = SystemTimer::new(peripherals.SYSTIMER).split::<Target>();
let timer2: AnyTimer = systimer.alarm0;
esp_hal_embassy::init([timer0, timer1, timer2]);
// ...
}
```
Note that you only have to convert into `AnyTimer` if you want to use multiple timers.

3
esp-hal-embassy/MIGRATING-0.4.md
View File

@ -1,3 +0,0 @@
# Migration Guide from 0.4.x to v0.5.x
You don't have to make changes to your code to update esp-hal-embassy.

15
esp-hal-embassy/MIGRATING-0.5.md
View File

@ -1,15 +0,0 @@
# Migration Guide from 0.5.x to v0.6.x
## Crate configuration changes
To prevent ambiguity between configurations, we had to change the naming format of configuration
keys. Before, we used `{prefix}_{key}`, which meant that esp-hal and esp-hal-* configuration keys
were impossible to tell apart. To fix this issue, we are changing the separator from one underscore
character to `_CONFIG_`. This also means that users will have to change their `config.toml`
configurations to match the new format.
```diff
[env]
-ESP_HAL_EMBASSY_LOW_POWER_WAIT="false"
+ESP_HAL_EMBASSY_CONFIG_LOW_POWER_WAIT="false"
```

6
esp-hal-embassy/README.md
View File

@ -2,14 +2,12 @@
[![Crates.io](https://img.shields.io/crates/v/esp-hal-embassy?labelColor=1C2C2E&color=C96329&logo=Rust&style=flat-square)](https://crates.io/crates/esp-hal-embassy)
[![docs.rs](https://img.shields.io/docsrs/esp-hal-embassy?labelColor=1C2C2E&color=C96329&logo=rust&style=flat-square)](https://docs.rs/esp-hal-embassy)
![MSRV](https://img.shields.io/badge/MSRV-1.83-blue?labelColor=1C2C2E&style=flat-square)
![MSRV](https://img.shields.io/badge/MSRV-1.76-blue?labelColor=1C2C2E&style=flat-square)
![Crates.io](https://img.shields.io/crates/l/esp-hal-embassy?labelColor=1C2C2E&style=flat-square)
[![Matrix](https://img.shields.io/matrix/esp-rs:matrix.org?label=join%20matrix&labelColor=1C2C2E&color=BEC5C9&logo=matrix&style=flat-square)](https://matrix.to/#/#esp-rs:matrix.org)
[Embassy] support for `esp-hal`.
Note that this crate currently requires you to enable the `unstable` feature on `esp-hal`.
[embassy]: https://github.com/embassy-rs/embassy
## [Documentation]
@ -18,7 +16,7 @@ Note that this crate currently requires you to enable the `unstable` feature on
## Minimum Supported Rust Version (MSRV)
This crate is guaranteed to compile on stable Rust 1.83 and up. It _might_
This crate is guaranteed to compile on stable Rust 1.76 and up. It _might_
compile with older versions but that may change in any new patch release.
## License

13
esp-hal-embassy/build.rs
View File

@ -1,7 +1,6 @@
use std::{error::Error, str::FromStr};
use esp_build::assert_unique_used_features;
use esp_config::{generate_config, Value};
use esp_metadata::{Chip, Config};
fn main() -> Result<(), Box<dyn Error>> {
@ -38,17 +37,5 @@ fn main() -> Result<(), Box<dyn Error>> {
// Define all necessary configuration symbols for the configured device:
config.define_symbols();
// emit config
generate_config(
"esp_hal_embassy",
&[(
"low-power-wait",
"Enables the lower-power wait if no tasks are ready to run on the thread-mode executor. This allows the MCU to use less power if the workload allows. Recommended for battery-powered systems. May impact analog performance.",
Value::Bool(true),
None
)],
true,
);
Ok(())
}

45
esp-hal-embassy/src/executor/interrupt.rs
View File

@ -4,13 +4,17 @@ use core::{cell::UnsafeCell, mem::MaybeUninit};
use embassy_executor::{raw, SendSpawner};
use esp_hal::{
get_core,
interrupt::{self, software::SoftwareInterrupt, InterruptHandler},
Cpu,
};
use portable_atomic::{AtomicUsize, Ordering};
const COUNT: usize = 3 + cfg!(not(multi_core)) as usize;
static mut EXECUTORS: [CallbackContext; COUNT] = [const { CallbackContext::new() }; COUNT];
static mut EXECUTORS: [CallbackContext; 4] = [
CallbackContext::new(),
CallbackContext::new(),
CallbackContext::new(),
CallbackContext::new(),
];
/// Interrupt mode executor.
///
@ -42,11 +46,13 @@ impl CallbackContext {
}
fn set(&self, executor: *mut raw::Executor) {
unsafe { self.raw_executor.get().write(executor) };
unsafe {
self.raw_executor.get().write(executor);
}
}
}
extern "C" fn handle_interrupt<const NUM: u8>() {
fn handle_interrupt<const NUM: u8>() {
let swi = unsafe { SoftwareInterrupt::<NUM>::steal() };
swi.reset();
@ -56,6 +62,22 @@ extern "C" fn handle_interrupt<const NUM: u8>() {
}
}
extern "C" fn swi_handler0() {
handle_interrupt::<0>();
}
extern "C" fn swi_handler1() {
handle_interrupt::<1>();
}
extern "C" fn swi_handler2() {
handle_interrupt::<2>();
}
extern "C" fn swi_handler3() {
handle_interrupt::<3>();
}
impl<const SWI: u8> InterruptExecutor<SWI> {
/// Create a new `InterruptExecutor`.
/// This takes the software interrupt to be used internally.
@ -87,7 +109,7 @@ impl<const SWI: u8> InterruptExecutor<SWI> {
.core
.compare_exchange(
usize::MAX,
Cpu::current() as usize,
get_core() as usize,
Ordering::Acquire,
Ordering::Relaxed,
)
@ -99,17 +121,16 @@ impl<const SWI: u8> InterruptExecutor<SWI> {
unsafe {
(*self.executor.get())
.as_mut_ptr()
.write(raw::Executor::new((SWI as usize) as *mut ()));
.write(raw::Executor::new(SWI as *mut ()));
EXECUTORS[SWI as usize].set((*self.executor.get()).as_mut_ptr());
}
let swi_handler = match SWI {
0 => handle_interrupt::<0>,
1 => handle_interrupt::<1>,
2 => handle_interrupt::<2>,
#[cfg(not(multi_core))]
3 => handle_interrupt::<3>,
0 => swi_handler0,
1 => swi_handler1,
2 => swi_handler2,
3 => swi_handler3,
_ => unreachable!(),
};

15
esp-hal-embassy/src/executor/mod.rs
View File

@ -7,18 +7,19 @@ mod thread;
fn __pender(context: *mut ()) {
use esp_hal::interrupt::software::SoftwareInterrupt;
match context as usize {
let context = (context as usize).to_le_bytes();
match context[0] {
// For interrupt executors, the context value is the
// software interrupt number
0 => unsafe { SoftwareInterrupt::<0>::steal().raise() },
1 => unsafe { SoftwareInterrupt::<1>::steal().raise() },
2 => unsafe { SoftwareInterrupt::<2>::steal().raise() },
#[cfg(not(multi_core))]
3 => unsafe { SoftwareInterrupt::<3>::steal().raise() },
// THREAD_MODE_CONTEXT + core ID
16 => thread::pend_thread_mode(0),
#[cfg(multi_core)]
17 => thread::pend_thread_mode(1),
_ => unreachable!(),
other => {
assert_eq!(other, THREAD_MODE_CONTEXT);
// THREAD_MODE_CONTEXT id is reserved for thread mode executors
thread::pend_thread_mode(context[1] as usize)
}
}
}

138
esp-hal-embassy/src/executor/thread.rs
View File

@ -3,56 +3,63 @@
use core::marker::PhantomData;
use embassy_executor::{raw, Spawner};
use esp_hal::Cpu;
use esp_hal::get_core;
#[cfg(multi_core)]
use esp_hal::{interrupt::software::SoftwareInterrupt, macros::handler};
#[cfg(low_power_wait)]
use esp_hal::macros::handler;
#[cfg(multi_core)]
use esp_hal::peripherals::SYSTEM;
use portable_atomic::{AtomicBool, Ordering};
pub(crate) const THREAD_MODE_CONTEXT: usize = 16;
pub(crate) const THREAD_MODE_CONTEXT: u8 = 16;
/// global atomic used to keep track of whether there is work to do since sev()
/// is not available on either Xtensa or RISC-V
static SIGNAL_WORK_THREAD_MODE: [AtomicBool; Cpu::COUNT] =
[const { AtomicBool::new(false) }; Cpu::COUNT];
#[cfg(not(multi_core))]
static SIGNAL_WORK_THREAD_MODE: [AtomicBool; 1] = [AtomicBool::new(false)];
#[cfg(multi_core)]
static SIGNAL_WORK_THREAD_MODE: [AtomicBool; 2] = [AtomicBool::new(false), AtomicBool::new(false)];
#[cfg(all(multi_core, low_power_wait))]
#[cfg(multi_core)]
#[handler]
fn software3_interrupt() {
// This interrupt is fired when the thread-mode executor's core needs to be
// woken. It doesn't matter which core handles this interrupt first, the
// point is just to wake up the core that is currently executing
// `waiti`.
unsafe { SoftwareInterrupt::<3>::steal().reset() };
let system = unsafe { &*SYSTEM::PTR };
system
.cpu_intr_from_cpu_3()
.write(|w| w.cpu_intr_from_cpu_3().bit(false));
}
pub(crate) fn pend_thread_mode(_core: usize) {
#[cfg(low_power_wait)]
{
// Signal that there is work to be done.
SIGNAL_WORK_THREAD_MODE[_core].store(true, Ordering::Relaxed);
pub(crate) fn pend_thread_mode(core: usize) {
// Signal that there is work to be done.
SIGNAL_WORK_THREAD_MODE[core].store(true, Ordering::SeqCst);
// If we are pending a task on the current core, we're done. Otherwise, we
// need to make sure the other core wakes up.
#[cfg(multi_core)]
if _core != Cpu::current() as usize {
// We need to clear the interrupt from software. We don't actually
// need it to trigger and run the interrupt handler, we just need to
// kick waiti to return.
unsafe { SoftwareInterrupt::<3>::steal().raise() };
}
// If we are pending a task on the current core, we're done. Otherwise, we
// need to make sure the other core wakes up.
#[cfg(multi_core)]
if core != get_core() as usize {
// We need to clear the interrupt from software. We don't actually
// need it to trigger and run the interrupt handler, we just need to
// kick waiti to return.
let system = unsafe { &*SYSTEM::PTR };
system
.cpu_intr_from_cpu_3()
.write(|w| w.cpu_intr_from_cpu_3().bit(true));
}
}
/// Thread mode executor.
///
/// This is the simplest and most common kind of executor. It runs on thread
/// mode (at the lowest priority level).
#[cfg_attr(multi_core, doc = "")]
/// A thread aware Executor
#[cfg_attr(
multi_core,
doc = "This executor is safe to use on multiple cores. You need to
create one instance per core. The executors don't steal tasks from each other."
doc = r#"
This executor is capable of waking an
executor running on another core if work
needs to be completed there for a task to
progress on this core.
"#
)]
pub struct Executor {
inner: raw::Executor,
@ -68,13 +75,19 @@ impl Executor {
This will use software-interrupt 3 which isn't available for anything else to wake the other core(s)."#
)]
pub fn new() -> Self {
#[cfg(all(multi_core, low_power_wait))]
#[cfg(multi_core)]
unsafe {
SoftwareInterrupt::<3>::steal().set_interrupt_handler(software3_interrupt);
esp_hal::interrupt::software::SoftwareInterrupt::<3>::steal()
.set_interrupt_handler(software3_interrupt)
}
Self {
inner: raw::Executor::new((THREAD_MODE_CONTEXT + Cpu::current() as usize) as *mut ()),
inner: raw::Executor::new(usize::from_le_bytes([
THREAD_MODE_CONTEXT,
get_core() as u8,
0,
0,
]) as *mut ()),
not_send: PhantomData,
}
}
@ -94,7 +107,7 @@ This will use software-interrupt 3 which isn't available for anything else to wa
/// you mutable access. There's a few ways to do this:
///
/// - a [StaticCell](https://docs.rs/static_cell/latest/static_cell/) (safe)
/// - a `static mut` (unsafe, not recommended)
/// - a `static mut` (unsafe)
/// - a local variable in a function you know never returns (like `fn main()
/// -> !`), upgrading its lifetime with `transmute`. (unsafe)
///
@ -102,19 +115,20 @@ This will use software-interrupt 3 which isn't available for anything else to wa
pub fn run(&'static mut self, init: impl FnOnce(Spawner)) -> ! {
init(self.inner.spawner());
#[cfg(low_power_wait)]
let cpu = Cpu::current() as usize;
let cpu = get_core() as usize;
loop {
unsafe { self.inner.poll() };
unsafe {
self.inner.poll();
#[cfg(low_power_wait)]
Self::wait_impl(cpu);
Self::wait_impl(cpu);
}
}
}
#[cfg(all(xtensa, low_power_wait))]
fn wait_impl(cpu: usize) {
#[doc(hidden)]
#[cfg(xtensa)]
pub fn wait_impl(cpu: usize) {
// Manual critical section implementation that only masks interrupts handlers.
// We must not acquire the cross-core on dual-core systems because that would
// prevent the other core from doing useful work while this core is sleeping.
@ -123,8 +137,9 @@ This will use software-interrupt 3 which isn't available for anything else to wa
// we do not care about race conditions between the load and store operations,
// interrupts will only set this value to true.
// Acquire makes no sense but at this time it's slightly faster than Relaxed.
if SIGNAL_WORK_THREAD_MODE[cpu].load(Ordering::Acquire) {
if SIGNAL_WORK_THREAD_MODE[cpu].load(Ordering::SeqCst) {
SIGNAL_WORK_THREAD_MODE[cpu].store(false, Ordering::SeqCst);
// if there is work to do, exit critical section and loop back to polling
unsafe {
core::arch::asm!(
@ -134,38 +149,33 @@ This will use software-interrupt 3 which isn't available for anything else to wa
);
}
} else {
// `waiti` sets the `PS.INTLEVEL` when slipping into sleep because critical
// sections in Xtensa are implemented via increasing `PS.INTLEVEL`.
// The critical section ends here. Take care not add code after
// `waiti` if it needs to be inside the CS.
// Do not lower INTLEVEL below the current value.
match token & 0x0F {
0 => unsafe { core::arch::asm!("waiti 0") },
1 => unsafe { core::arch::asm!("waiti 1") },
2 => unsafe { core::arch::asm!("waiti 2") },
3 => unsafe { core::arch::asm!("waiti 3") },
4 => unsafe { core::arch::asm!("waiti 4") },
_ => unsafe { core::arch::asm!("waiti 5") },
}
// waiti sets the PS.INTLEVEL when slipping into sleep
// because critical sections in Xtensa are implemented via increasing
// PS.INTLEVEL the critical section ends here
// take care not add code after `waiti` if it needs to be inside the CS
unsafe { core::arch::asm!("waiti 0") }; // critical section ends
// here
}
// If this races and some waker sets the signal, we'll reset it, but still poll.
SIGNAL_WORK_THREAD_MODE[cpu].store(false, Ordering::Relaxed);
}
#[cfg(all(riscv, low_power_wait))]
fn wait_impl(cpu: usize) {
#[doc(hidden)]
#[cfg(riscv)]
pub fn wait_impl(cpu: usize) {
// we do not care about race conditions between the load and store operations,
// interrupts will only set this value to true.
critical_section::with(|_| {
// if there is work to do, loop back to polling
if !SIGNAL_WORK_THREAD_MODE[cpu].load(Ordering::Relaxed) {
// if not, wait for interrupt
// TODO can we relax this?
if SIGNAL_WORK_THREAD_MODE[cpu].load(Ordering::SeqCst) {
SIGNAL_WORK_THREAD_MODE[cpu].store(false, Ordering::SeqCst);
}
// if not, wait for interrupt
else {
unsafe { core::arch::asm!("wfi") };
}
});
// if an interrupt occurred while waiting, it will be serviced here
// If this races and some waker sets the signal, we'll reset it, but still poll.
SIGNAL_WORK_THREAD_MODE[cpu].store(false, Ordering::Relaxed);
// if an interrupt occurred while waiting, it will be serviced
// here
}
}

49
esp-hal-embassy/src/lib.rs
View File

@ -4,9 +4,6 @@
//! systems. This package provides support for building applications using
//! Embassy with [esp-hal].
//!
//! Note that this crate currently requires you to enable the `unstable` feature
//! on `esp-hal`.
//!
//! [esp-hal]: https://github.com/esp-rs/esp-hal
//! [embassy]: https://github.com/embassy-rs/embassy
//!
@ -41,7 +38,10 @@ mod fmt;
#[cfg(not(feature = "esp32"))]
use esp_hal::timer::systimer::Alarm;
use esp_hal::timer::{timg::Timer as TimgTimer, AnyTimer};
use esp_hal::{
clock::Clocks,
timer::{timg::Timer as TimgTimer, ErasedTimer},
};
pub use macros::main;
#[cfg(feature = "executors")]
@ -72,20 +72,30 @@ pub trait TimerCollection {
/// Helper trait to reduce boilerplate.
///
/// We can't blanket-implement for `Into<AnyTimer>` because of possible
/// We can't blanket-implement for `Into<ErasedTimer>` because of possible
/// conflicting implementations.
trait IntoAnyTimer: Into<AnyTimer> {}
trait IntoErasedTimer: Into<ErasedTimer> {}
impl IntoAnyTimer for AnyTimer {}
impl IntoErasedTimer for ErasedTimer {}
impl IntoAnyTimer for TimgTimer where Self: Into<AnyTimer> {}
impl<T, DM> IntoErasedTimer for TimgTimer<T, DM>
where
DM: esp_hal::Mode,
Self: Into<ErasedTimer>,
{
}
#[cfg(not(feature = "esp32"))]
impl IntoAnyTimer for Alarm where Self: Into<AnyTimer> {}
impl<T, DM, COMP, UNIT> IntoErasedTimer for Alarm<'_, T, DM, COMP, UNIT>
where
DM: esp_hal::Mode,
Self: Into<ErasedTimer>,
{
}
impl<T> TimerCollection for T
where
T: IntoAnyTimer,
T: IntoErasedTimer,
{
fn timers(self) -> &'static mut [Timer] {
Timer::new(self.into()).timers()
@ -115,7 +125,7 @@ macro_rules! impl_array {
($n:literal) => {
impl<T> TimerCollection for [T; $n]
where
T: IntoAnyTimer,
T: IntoErasedTimer,
{
fn timers(self) -> &'static mut [Timer] {
mk_static!([Timer; $n], self.map(|t| Timer::new(t.into())))
@ -136,27 +146,24 @@ impl_array!(4);
///
/// - A timg `Timer` instance
/// - A systimer `Alarm` instance
/// - An `AnyTimer` instance
/// - An `ErasedTimer` instance
/// - A `OneShotTimer` instance
/// - A mutable static slice of `OneShotTimer` instances
/// - A mutable static array of `OneShotTimer` instances
/// - A 2, 3, 4 element array of `AnyTimer` instances
///
/// Note that if you use the `integrated-timers` feature,
/// you need to pass as many timers as you start executors.
/// - A 2, 3, 4 element array of `ErasedTimer` instances
///
/// # Examples
///
/// ```rust, no_run
#[doc = esp_hal::before_snippet!()]
/// use esp_hal::timer::timg::TimerGroup;
/// use esp_hal::timg::TimerGroup;
///
/// let timg0 = TimerGroup::new(peripherals.TIMG0);
/// esp_hal_embassy::init(timg0.timer0);
/// let timg0 = TimerGroup::new(peripherals.TIMG0, &clocks);
/// esp_hal_embassy::init(&clocks, timg0.timer0);
///
/// // ... now you can spawn embassy tasks or use `Timer::after` etc.
/// # }
/// ```
pub fn init(time_driver: impl TimerCollection) {
EmbassyTimer::init(time_driver.timers())
pub fn init(clocks: &Clocks, time_driver: impl TimerCollection) {
EmbassyTimer::init(clocks, time_driver.timers())
}

300
esp-hal-embassy/src/time_driver.rs
View File

@ -1,223 +1,161 @@
use core::cell::Cell;
use core::cell::{Cell, RefCell};
use critical_section::Mutex;
use embassy_time_driver::{AlarmHandle, Driver};
use esp_hal::{
clock::Clocks,
interrupt::{InterruptHandler, Priority},
sync::Locked,
time::{now, ExtU64},
timer::OneShotTimer,
Blocking,
prelude::*,
time::current_time,
timer::{ErasedTimer, OneShotTimer},
};
pub type Timer = OneShotTimer<'static, Blocking>;
pub const MAX_SUPPORTED_ALARM_COUNT: usize = 7;
enum AlarmState {
Created(extern "C" fn()),
Allocated(extern "C" fn()),
Initialized(&'static mut Timer),
pub type Timer = OneShotTimer<'static, ErasedTimer>;
static TIMERS: Mutex<RefCell<Option<&'static mut [Timer]>>> = Mutex::new(RefCell::new(None));
#[allow(clippy::type_complexity)]
struct AlarmState {
pub callback: Cell<Option<(fn(*mut ()), *mut ())>>,
pub allocated: Cell<bool>,
}
unsafe impl Send for AlarmState {}
impl AlarmState {
fn initialize(timer: &'static mut Timer, interrupt_handler: extern "C" fn()) -> AlarmState {
// If the driver is initialized, bind the interrupt handler to the
// timer. This ensures that alarms allocated after init are correctly
// bound to the core that created the executor.
timer.set_interrupt_handler(InterruptHandler::new(interrupt_handler, Priority::max()));
timer.enable_interrupt(true);
AlarmState::Initialized(timer)
}
}
struct AlarmInner {
pub callback: Cell<(*const (), *mut ())>,
pub state: AlarmState,
}
struct Alarm {
pub inner: Locked<AlarmInner>,
}
unsafe impl Send for Alarm {}
impl Alarm {
pub const fn new(handler: extern "C" fn()) -> Self {
pub const fn new() -> Self {
Self {
inner: Locked::new(AlarmInner {
callback: Cell::new((core::ptr::null(), core::ptr::null_mut())),
state: AlarmState::Created(handler),
}),
callback: Cell::new(None),
allocated: Cell::new(false),
}
}
}
pub(super) struct EmbassyTimer {
alarms: [Alarm; MAX_SUPPORTED_ALARM_COUNT],
available_timers: Locked<Option<&'static mut [Timer]>>,
alarms: Mutex<[AlarmState; MAX_SUPPORTED_ALARM_COUNT]>,
}
/// Repeats the `Alarm::new` constructor for each alarm, creating an interrupt
/// handler for each of them.
macro_rules! alarms {
($($idx:literal),*) => {
[$(
Alarm::new({
// Not #[handler] so we don't have to store the priority - which is constant.
extern "C" fn handler() {
DRIVER.on_interrupt($idx);
}
handler
})
),*]
};
}
#[allow(clippy::declare_interior_mutable_const)]
const ALARM_STATE_NONE: AlarmState = AlarmState::new();
const MAX_SUPPORTED_ALARM_COUNT: usize = 7;
embassy_time_driver::time_driver_impl!(static DRIVER: EmbassyTimer = EmbassyTimer {
alarms: alarms!(0, 1, 2, 3, 4, 5, 6),
available_timers: Locked::new(None),
alarms: Mutex::new([ALARM_STATE_NONE; MAX_SUPPORTED_ALARM_COUNT]),
});
impl EmbassyTimer {
pub(super) fn init(mut timers: &'static mut [Timer]) {
assert!(
timers.len() <= MAX_SUPPORTED_ALARM_COUNT,
"Maximum {} timers can be used.",
MAX_SUPPORTED_ALARM_COUNT
);
// Reset timers
timers.iter_mut().for_each(|timer| {
timer.enable_interrupt(false);
timer.stop();
});
// Initialize already allocated timers
for alarm in DRIVER.alarms.iter() {
timers = alarm.inner.with(move |alarm| {
if let AlarmState::Allocated(interrupt_handler) = alarm.state {
// Pluck off a timer
let Some((timer, remaining_timers)) = timers.split_first_mut() else {
not_enough_timers();
};
alarm.state = AlarmState::initialize(timer, interrupt_handler);
remaining_timers
} else {
timers
}
});
pub(super) fn init(_clocks: &Clocks, timers: &'static mut [Timer]) {
if timers.len() > MAX_SUPPORTED_ALARM_COUNT {
panic!(
"Maximum of {} timers can be used.",
MAX_SUPPORTED_ALARM_COUNT
);
}
// Store the available timers
DRIVER
.available_timers
.with(|available_timers| *available_timers = Some(timers));
static HANDLERS: [InterruptHandler; MAX_SUPPORTED_ALARM_COUNT] = [
handler0, handler1, handler2, handler3, handler4, handler5, handler6,
];
critical_section::with(|cs| {
timers.iter_mut().enumerate().for_each(|(n, timer)| {
timer.enable_interrupt(false);
timer.stop();
timer.set_interrupt_handler(HANDLERS[n]);
});
TIMERS.replace(cs, Some(timers));
});
#[handler(priority = Priority::max())]
fn handler0() {
DRIVER.on_interrupt(0);
}
#[handler(priority = Priority::max())]
fn handler1() {
DRIVER.on_interrupt(1);
}
#[handler(priority = Priority::max())]
fn handler2() {
DRIVER.on_interrupt(2);
}
#[handler(priority = Priority::max())]
fn handler3() {
DRIVER.on_interrupt(3);
}
#[handler(priority = Priority::max())]
fn handler4() {
DRIVER.on_interrupt(4);
}
#[handler(priority = Priority::max())]
fn handler5() {
DRIVER.on_interrupt(5);
}
#[handler(priority = Priority::max())]
fn handler6() {
DRIVER.on_interrupt(6);
}
}
fn on_interrupt(&self, id: usize) {
let (cb, ctx) = self.alarms[id].inner.with(|alarm| {
if let AlarmState::Initialized(timer) = &mut alarm.state {
timer.clear_interrupt();
alarm.callback.get()
let cb = critical_section::with(|cs| {
let mut timers = TIMERS.borrow_ref_mut(cs);
let timers = timers.as_mut().expect("Time driver not initialized");
let timer = &mut timers[id];
timer.clear_interrupt();
let alarm = &self.alarms.borrow(cs)[id];
if let Some((f, ctx)) = alarm.callback.get() {
Some((f, ctx))
} else {
unsafe {
// SAFETY: `on_interrupt` is registered right when the alarm is initialized.
core::hint::unreachable_unchecked()
}
None
}
});
let cb: fn(*mut ()) = unsafe {
// Safety:
// - we can ignore the possibility of `f` being unset (null) because of the
// safety contract of `allocate_alarm`.
// - other than that we only store valid function pointers into alarm.callback
core::mem::transmute(cb)
};
cb(ctx);
if let Some((f, ctx)) = cb {
f(ctx);
}
}
/// Returns `true` if the timer was armed, `false` if the timestamp is in
/// the past.
fn arm(timer: &mut Timer, timestamp: u64) -> bool {
let now = now().duration_since_epoch();
fn arm(timer: &mut Timer, timestamp: u64) {
let now = current_time().duration_since_epoch();
let ts = timestamp.micros();
if ts > now {
let timeout = ts - now;
unwrap!(timer.schedule(timeout));
true
} else {
// If the timestamp is past, we return `false` to ask embassy to poll again
// immediately.
timer.stop();
false
}
// if the TS is already in the past make the timer fire immediately
let timeout = if ts > now { ts - now } else { 0.micros() };
timer.schedule(timeout).unwrap();
timer.enable_interrupt(true);
}
}
impl Driver for EmbassyTimer {
fn now(&self) -> u64 {
now().ticks()
current_time().ticks()
}
unsafe fn allocate_alarm(&self) -> Option<AlarmHandle> {
for (i, alarm) in self.alarms.iter().enumerate() {
let handle = alarm.inner.with(|alarm| {
let AlarmState::Created(interrupt_handler) = alarm.state else {
return None;
};
let timer = self.available_timers.with(|available_timers| {
// `allocate_alarm` may be called before `esp_hal_embassy::init()`. If
// `timers` is `None`, we return `None` to signal that the alarm cannot be
// initialized yet. These alarms will be initialized when `init` is called.
if let Some(timers) = available_timers.take() {
// If the driver is initialized, we can allocate a timer.
// If this fails, we can't do anything about it.
let Some((timer, rest)) = timers.split_first_mut() else {
not_enough_timers();
};
*available_timers = Some(rest);
Some(timer)
} else {
None
}
});
alarm.state = match timer {
Some(timer) => AlarmState::initialize(timer, interrupt_handler),
None => {
// No timers are available yet, mark the alarm as allocated.
AlarmState::Allocated(interrupt_handler)
}
};
Some(AlarmHandle::new(i as u8))
});
if handle.is_some() {
return handle;
critical_section::with(|cs| {
for (i, alarm) in self.alarms.borrow(cs).iter().enumerate() {
if !alarm.allocated.get() {
// set alarm so it is not overwritten
alarm.allocated.set(true);
return Some(AlarmHandle::new(i as u8));
}
}
}
None
None
})
}
fn set_alarm_callback(&self, alarm: AlarmHandle, callback: fn(*mut ()), ctx: *mut ()) {
let n = alarm.id() as usize;
self.alarms[n].inner.with(|alarm| {
alarm.callback.set((callback as *const (), ctx));
critical_section::with(|cs| {
let alarm = &self.alarms.borrow(cs)[n];
alarm.callback.set(Some((callback, ctx)));
})
}
fn set_alarm(&self, alarm: AlarmHandle, timestamp: u64) -> bool {
let alarm = &self.alarms[alarm.id() as usize];
// If `embassy-executor/integrated-timers` is enabled and there are no pending
// timers, embassy still calls `set_alarm` with `u64::MAX`. By returning
// `true` we signal that no re-polling is necessary.
@ -232,22 +170,14 @@ impl Driver for EmbassyTimer {
// This is correct behavior. See https://docs.rs/embassy-time-driver/0.1.0/embassy_time_driver/trait.Driver.html#tymethod.set_alarm
// (... the driver should return true and arrange to call the alarm callback as
// soon as possible, but not synchronously.)
critical_section::with(|cs| {
let mut timers = TIMERS.borrow_ref_mut(cs);
let timers = timers.as_mut().expect("Time driver not initialized");
let timer = &mut timers[alarm.id() as usize];
alarm.inner.with(|alarm| {
if let AlarmState::Initialized(timer) = &mut alarm.state {
Self::arm(timer, timestamp)
} else {
panic!("set_alarm called before esp_hal_embassy::init()")
}
})
Self::arm(timer, timestamp);
});
true
}
}
#[cold]
#[track_caller]
fn not_enough_timers() -> ! {
// This is wrapped in a separate function because rustfmt does not like
// extremely long strings. Also, if log is used, this avoids storing the string
// twice.
panic!("There are not enough timers to allocate a new alarm. Call esp_hal_embassy::init() with the correct number of timers, or consider using one of the embassy-timer/generic-queue-X features.");
}

60
esp-hal-procmacros/CHANGELOG.md
View File

@ -1,60 +0,0 @@
# Changelog
All notable changes to this project will be documented in this file.
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.1.0/),
and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html).
## [Unreleased]
### Added
- Added the `BuilderLite` derive macro which implements the Builder Lite pattern for a struct (#2614)
### Fixed
### Changed
- Functions marked with `#[handler]` can now be referenced in `const` context. (#2559)
### Removed
- Removed the `enum-dispatch`, `interrupt`, and `ram` features (#2594)
## [0.15.0] - 2024-11-20
### Changed
- Remove `get_` prefix from functions (#2528)
## [0.14.0] - 2024-10-10
## [0.13.0] - 2024-08-29
## [0.12.0] - 2024-07-15
## [0.11.0] - 2024-06-04
## [0.10.0] - 2024-04-18
## [0.9.0] - 2024-03-18
## [0.8.0] - 2023-12-12
## [0.7.0] - 2023-10-31
## [0.6.1] - 2023-09-05
## [0.6.0] - 2023-07-04
## [0.5.0] - 2023-03-27
## [0.4.0] - 2023-02-21
## [0.2.0] - 2023-01-26
## [0.1.0] - 2022-08-25
- Initial release
[Unreleased]: https://github.com/esp-rs/esp-hal/commits/main/esp-hal-procmacros?since=2024-11-20

20
esp-hal-procmacros/Cargo.toml
View File

@ -1,8 +1,8 @@
[package]
name = "esp-hal-procmacros"
version = "0.15.0"
version = "0.13.0"
edition = "2021"
rust-version = "1.83.0"
rust-version = "1.76.0"
description = "Procedural macros for esp-hal"
repository = "https://github.com/esp-rs/esp-hal"
license = "MIT OR Apache-2.0"
@ -17,18 +17,24 @@ proc-macro = true
darling = "0.20.10"
document-features = "0.2.10"
litrs = "0.4.1"
object = { version = "0.36.5", default-features = false, features = ["read_core", "elf"], optional = true }
object = { version = "0.36.4", optional = true, default-features = false, features = ["read_core", "elf"] }
proc-macro-crate = "3.2.0"
proc-macro-error2 = "2.0.1"
proc-macro2 = "1.0.92"
proc-macro-error = "1.0.4"
proc-macro2 = "1.0.86"
quote = "1.0.37"
syn = { version = "2.0.89", features = ["extra-traits", "full"] }
syn = { version = "2.0.76", features = ["extra-traits", "full"] }
[features]
## Provide a `#[main]` procmacro to mark the entry point for Embassy applications.
embassy = []
## Provide enum dispatch helpers.
enum-dispatch = []
## Provide an `#[interrupt]` procmacro for defining interrupt service routines.
interrupt = []
## Provide a `#[ram]` procmacro to place functions in RAM instead of flash.
ram = []
## Indicates the target device has RTC slow memory available.
rtc-slow = []
rtc_slow = []
#! ### Low-power Core Feature Flags
## Indicate that the SoC contains an LP core.

77
esp-hal-procmacros/src/enum_dispatch.rs Normal file
View File

@ -0,0 +1,77 @@
use proc_macro2::{Group, TokenStream, TokenTree};
use quote::{format_ident, quote};
use syn::{
parse::{Parse, ParseStream, Result},
Ident,
};
#[derive(Debug)]
pub(crate) struct MakeGpioEnumDispatchMacro {
pub name: String,
pub filter: Vec<String>,
pub elements: Vec<(String, usize)>,
}
impl Parse for MakeGpioEnumDispatchMacro {
fn parse(input: ParseStream) -> Result<Self> {
let name = input.parse::<Ident>()?.to_string();
let filter = input
.parse::<Group>()?
.stream()
.into_iter()
.map(|v| match v {
TokenTree::Group(_) => String::new(),
TokenTree::Ident(ident) => ident.to_string(),
TokenTree::Punct(_) => String::new(),
TokenTree::Literal(_) => String::new(),
})
.filter(|p| !p.is_empty())
.collect();
let mut elements = vec![];
let stream = input.parse::<Group>()?.stream().into_iter();
let mut element_name = String::new();
for v in stream {
match v {
TokenTree::Ident(ident) => {
element_name = ident.to_string();
}
TokenTree::Literal(lit) => {
let index = lit.to_string().parse().unwrap();
elements.push((element_name.clone(), index));
}
_ => (),
}
}
Ok(MakeGpioEnumDispatchMacro {
name,
filter,
elements,
})
}
}
pub(crate) fn build_match_arms(input: MakeGpioEnumDispatchMacro) -> Vec<TokenStream> {
let mut arms = Vec::new();
for (gpio_type, num) in input.elements {
let enum_name = format_ident!("ErasedPin");
let variant_name = format_ident!("Gpio{}", num);
if input.filter.contains(&gpio_type) {
arms.push({
quote! { #enum_name::#variant_name($target) => $body }
});
} else {
arms.push({
quote! {
#[allow(unused)]
#enum_name::#variant_name($target) => { panic!("Unsupported") }
}
});
}
}
arms
}

215
esp-hal-procmacros/src/lib.rs
View File

@ -47,32 +47,14 @@
#![doc = document_features::document_features!()]
#![doc(html_logo_url = "https://avatars.githubusercontent.com/u/46717278")]
use darling::{ast::NestedMeta, Error, FromMeta};
use proc_macro::{Span, TokenStream};
use proc_macro2::Ident;
use proc_macro_crate::{crate_name, FoundCrate};
use proc_macro_error2::abort;
use quote::{format_ident, quote};
use syn::{
parse,
parse::Error as ParseError,
spanned::Spanned,
Data,
DataStruct,
GenericArgument,
Item,
ItemFn,
Path,
PathArguments,
PathSegment,
ReturnType,
Type,
};
use self::interrupt::{check_attr_whitelist, WhiteListCaller};
#[allow(unused)]
use proc_macro::TokenStream;
#[cfg(feature = "embassy")]
mod embassy;
#[cfg(feature = "enum-dispatch")]
mod enum_dispatch;
#[cfg(feature = "interrupt")]
mod interrupt;
#[cfg(any(
feature = "is-lp-core",
@ -82,6 +64,7 @@ mod interrupt;
))]
mod lp_core;
#[cfg(feature = "ram")]
#[derive(Debug, Default, darling::FromMeta)]
#[darling(default)]
struct RamArgs {
@ -99,7 +82,7 @@ struct RamArgs {
/// # Options
///
/// - `rtc_fast`: Use RTC fast RAM.
/// - `rtc_slow`: Use RTC slow RAM. **Note**: not available on all targets.
/// - `rtc_slow`: Use RTC slow RAM. **Note**: not available on all targets
/// - `persistent`: Persist the contents of the `static` across resets. See [the
/// section below](#persistent) for details.
/// - `zeroed`: Initialize the memory of the `static` to zero. The initializer
@ -145,9 +128,15 @@ struct RamArgs {
///
/// [`bytemuck::AnyBitPattern`]: https://docs.rs/bytemuck/1.9.0/bytemuck/trait.AnyBitPattern.html
/// [`bytemuck::Zeroable`]: https://docs.rs/bytemuck/1.9.0/bytemuck/trait.Zeroable.html
#[cfg(feature = "ram")]
#[proc_macro_attribute]
#[proc_macro_error2::proc_macro_error]
#[proc_macro_error::proc_macro_error]
pub fn ram(args: TokenStream, input: TokenStream) -> TokenStream {
use darling::{ast::NestedMeta, Error, FromMeta};
use proc_macro::Span;
use proc_macro_error::abort;
use syn::{parse, Item};
let attr_args = match NestedMeta::parse_meta_list(args.into()) {
Ok(v) => v,
Err(e) => {
@ -169,7 +158,7 @@ pub fn ram(args: TokenStream, input: TokenStream) -> TokenStream {
let item: Item = parse(input).expect("failed to parse input");
#[cfg(not(feature = "rtc-slow"))]
#[cfg(not(feature = "rtc_slow"))]
if rtc_slow {
abort!(
Span::call_site(),
@ -219,7 +208,7 @@ pub fn ram(args: TokenStream, input: TokenStream) -> TokenStream {
let trait_check = trait_check.map(|name| {
use proc_macro_crate::{crate_name, FoundCrate};
let hal = Ident::new(
let hal = proc_macro2::Ident::new(
if let Ok(FoundCrate::Name(ref name)) = crate_name("esp-hal") {
name
} else {
@ -253,9 +242,18 @@ pub fn ram(args: TokenStream, input: TokenStream) -> TokenStream {
/// esp_hal::interrupt::Priority::Priority2)]`.
///
/// If no priority is given, `Priority::min()` is assumed
#[cfg(feature = "interrupt")]
#[proc_macro_error::proc_macro_error]
#[proc_macro_attribute]
#[proc_macro_error2::proc_macro_error]
pub fn handler(args: TokenStream, input: TokenStream) -> TokenStream {
use darling::{ast::NestedMeta, FromMeta};
use proc_macro::Span;
use proc_macro2::Ident;
use proc_macro_crate::{crate_name, FoundCrate};
use syn::{parse::Error as ParseError, spanned::Spanned, ItemFn, ReturnType, Type};
use self::interrupt::{check_attr_whitelist, WhiteListCaller};
#[derive(Debug, FromMeta)]
struct MacroArgs {
priority: Option<syn::Expr>,
@ -336,11 +334,42 @@ pub fn handler(args: TokenStream, input: TokenStream) -> TokenStream {
#f
#[allow(non_upper_case_globals)]
#vis const #orig: #root::interrupt::InterruptHandler = #root::interrupt::InterruptHandler::new(#new, #priority);
#vis static #orig: #root::interrupt::InterruptHandler = #root::interrupt::InterruptHandler::new(#new, #priority);
)
.into()
}
/// Create an enum for erased GPIO pins, using the enum-dispatch pattern
///
/// Only used internally
#[cfg(feature = "enum-dispatch")]
#[proc_macro]
pub fn make_gpio_enum_dispatch_macro(input: TokenStream) -> TokenStream {
use quote::{format_ident, quote};
use self::enum_dispatch::{build_match_arms, MakeGpioEnumDispatchMacro};
let input = syn::parse_macro_input!(input as MakeGpioEnumDispatchMacro);
let macro_name = format_ident!("{}", input.name);
let arms = build_match_arms(input);
quote! {
#[doc(hidden)]
#[macro_export]
macro_rules! #macro_name {
($m:ident, $target:ident, $body:block) => {
match $m {
#(#arms)*
}
}
}
pub(crate) use #macro_name;
}
.into()
}
/// Load code to be run on the LP/ULP core.
///
/// ## Example
@ -356,8 +385,8 @@ pub fn load_lp_code(input: TokenStream) -> TokenStream {
/// Marks the entry function of a LP core / ULP program.
#[cfg(any(feature = "is-lp-core", feature = "is-ulp-core"))]
#[proc_macro_error::proc_macro_error]
#[proc_macro_attribute]
#[proc_macro_error2::proc_macro_error]
pub fn entry(args: TokenStream, input: TokenStream) -> TokenStream {
lp_core::entry(args, input)
}
@ -396,129 +425,3 @@ pub fn main(args: TokenStream, item: TokenStream) -> TokenStream {
run(&args.meta, f, main()).unwrap_or_else(|x| x).into()
}
/// Automatically implement the [Builder Lite] pattern for a struct.
///
/// This will create an `impl` which contains methods for each field of a
/// struct, allowing users to easily set the values. The generated methods will
/// be the field name prefixed with `with_`, and calls to these methods can be
/// chained as needed.
///
/// ## Example
///
/// ```rust, no_run
/// #[derive(Default)]
/// enum MyEnum {
/// #[default]
/// A,
/// B,
/// }
///
/// #[derive(Default, BuilderLite)]
/// #[non_exhaustive]
/// struct MyStruct {
/// enum_field: MyEnum,
/// bool_field: bool,
/// option_field: Option<i32>,
/// }
///
/// MyStruct::default()
/// .with_enum_field(MyEnum::B)
/// .with_bool_field(true)
/// .with_option_field(-5);
/// ```
///
/// [Builder Lite]: https://matklad.github.io/2022/05/29/builder-lite.html
#[proc_macro_derive(BuilderLite)]
pub fn builder_lite_derive(item: TokenStream) -> TokenStream {
let input = syn::parse_macro_input!(item as syn::DeriveInput);
let span = input.span();
let ident = input.ident;
let mut fns = Vec::new();
if let Data::Struct(DataStruct { fields, .. }) = &input.data {
for field in fields {
let field_ident = field.ident.as_ref().unwrap();
let field_type = &field.ty;
let function_ident = format_ident!("with_{}", field_ident);
let maybe_path_type = extract_type_path(field_type)
.and_then(|path| extract_option_segment(path))
.and_then(|path_seg| match path_seg.arguments {
PathArguments::AngleBracketed(ref params) => params.args.first(),
_ => None,
})
.and_then(|generic_arg| match *generic_arg {
GenericArgument::Type(ref ty) => Some(ty),
_ => None,
});
let (field_type, field_assigns) = if let Some(inner_type) = maybe_path_type {
(inner_type, quote! { Some(#field_ident) })
} else {
(field_type, quote! { #field_ident })
};
fns.push(quote! {
#[doc = concat!(" Assign the given value to the `", stringify!(#field_ident) ,"` field.")]
#[must_use]
pub fn #function_ident(mut self, #field_ident: #field_type) -> Self {
self.#field_ident = #field_assigns;
self
}
});
if maybe_path_type.is_some() {
let function_ident = format_ident!("with_{}_none", field_ident);
fns.push(quote! {
#[doc = concat!(" Set the value of `", stringify!(#field_ident), "` to `None`.")]
#[must_use]
pub fn #function_ident(mut self) -> Self {
self.#field_ident = None;
self
}
});
}
}
} else {
return ParseError::new(
span,
"#[derive(Builder)] is only defined for structs, not for enums or unions!",
)
.to_compile_error()
.into();
}
let implementation = quote! {
#[automatically_derived]
impl #ident {
#(#fns)*
}
};
implementation.into()
}
// https://stackoverflow.com/a/56264023
fn extract_type_path(ty: &Type) -> Option<&Path> {
match *ty {
Type::Path(ref typepath) if typepath.qself.is_none() => Some(&typepath.path),
_ => None,
}
}
// https://stackoverflow.com/a/56264023
fn extract_option_segment(path: &Path) -> Option<&PathSegment> {
let idents_of_path = path.segments.iter().fold(String::new(), |mut acc, v| {
acc.push_str(&v.ident.to_string());
acc.push('|');
acc
});
vec!["Option|", "std|option|Option|", "core|option|Option|"]
.into_iter()
.find(|s| idents_of_path == *s)
.and_then(|_| path.segments.last())
}

4
esp-hal-procmacros/src/lp_core.rs
View File

@ -31,7 +31,7 @@ pub fn entry(args: TokenStream, input: TokenStream) -> TokenStream {
res
}
pub(crate) fn simplename(t: &Type) -> String {
pub(crate) fn get_simplename(t: &Type) -> String {
match t {
Type::Path(p) => p.path.segments.last().unwrap().ident.to_string(),
_ => String::new(),
@ -125,7 +125,7 @@ pub fn entry(args: TokenStream, input: TokenStream) -> TokenStream {
.into();
}
FnArg::Typed(t) => {
match simplename(&t.ty).as_str() {
match get_simplename(&t.ty).as_str() {
"Output" => {
let pin = extract_pin(&t.ty);
if used_pins.contains(&pin) {

42
esp-hal-smartled/CHANGELOG.md Normal file
View File

@ -0,0 +1,42 @@
# Changelog
All notable changes to this project will be documented in this file.
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.0.0/),
and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html).
## Unreleased
### Added
### Changed
### Fixed
### Removed
## 0.13.0 - 2024-08-29
## 0.12.0 - 2024-07-15
## 0.11.0 - 2024-06-04
## 0.10.0 - 2024-04-18
## 0.9.0 - 2024-03-08
## 0.8.0 - 2024-01-19
## 0.7.0 - 2023-12-12
## 0.6.0 - 2023-10-31
## 0.5.0 - 2023-09-05
## 0.4.0 - 2023-08-10
## 0.3.0 - 2023-07-04
## 0.2.0 - 2023-05-02
## 0.1.0 - 2023-03-27

37
esp-hal-smartled/Cargo.toml Normal file
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@ -0,0 +1,37 @@
[package]
name = "esp-hal-smartled"
version = "0.13.0"
edition = "2021"
rust-version = "1.76.0"
description = "RMT adapter for smartleds"
repository = "https://github.com/esp-rs/esp-hal"
license = "MIT OR Apache-2.0"
[package.metadata.docs.rs]
features = ["esp32c3"]
targets = ["riscv32imc-unknown-none-elf"]
[dependencies]
defmt = { version = "0.3.8", optional = true }
document-features = "0.2.10"
esp-hal = { version = "0.20.0", path = "../esp-hal" }
fugit = "0.3.7"
smart-leds-trait = "0.3.0"
[features]
## Implement `defmt::Format` on certain types.
defmt = ["dep:defmt", "esp-hal/defmt"]
#! ### Chip Support Feature Flags
## Target the ESP32.
esp32 = ["esp-hal/esp32"]
## Target the ESP32-C3.
esp32c3 = ["esp-hal/esp32c3"]
## Target the ESP32-C6.
esp32c6 = ["esp-hal/esp32c6"]
## Target the ESP32-H2.
esp32h2 = ["esp-hal/esp32h2"]
## Target the ESP32-S2.
esp32s2 = ["esp-hal/esp32s2"]
## Target the ESP32-S3.
esp32s3 = ["esp-hal/esp32s3"]

35
esp-hal-smartled/README.md Normal file
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@ -0,0 +1,35 @@
# esp-hal-smartled
[![Crates.io](https://img.shields.io/crates/v/esp-hal-smartled?labelColor=1C2C2E&color=C96329&logo=Rust&style=flat-square)](https://crates.io/crates/esp-hal-smartled)
[![docs.rs](https://img.shields.io/docsrs/esp-hal-smartled?labelColor=1C2C2E&color=C96329&logo=rust&style=flat-square)](https://docs.rs/esp-hal-smartled)
![MSRV](https://img.shields.io/badge/MSRV-1.76-blue?labelColor=1C2C2E&style=flat-square)
![Crates.io](https://img.shields.io/crates/l/esp-hal-smartled?labelColor=1C2C2E&style=flat-square)
[![Matrix](https://img.shields.io/matrix/esp-rs:matrix.org?label=join%20matrix&labelColor=1C2C2E&color=BEC5C9&logo=matrix&style=flat-square)](https://matrix.to/#/#esp-rs:matrix.org)
Allows for the use of an RMT output channel to easily interact with RGB LEDs and use the convenience functions of the [smart-leds] crate.
[smart-leds]: https://crates.io/crates/smart-leds
## [Documentation]
[documentation]: https://docs.rs/esp-hal-smartled/
## Minimum Supported Rust Version (MSRV)
This crate is guaranteed to compile on stable Rust 1.76 and up. It _might_
compile with older versions but that may change in any new patch release.
## License
Licensed under either of:
- Apache License, Version 2.0 ([LICENSE-APACHE](../LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0)
- MIT license ([LICENSE-MIT](../LICENSE-MIT) or http://opensource.org/licenses/MIT)
at your option.
### Contribution
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in
the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without
any additional terms or conditions.

202
esp-hal-smartled/src/lib.rs Normal file
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@ -0,0 +1,202 @@
//! This adapter allows for the use of an RMT output channel to easily interact
//! with RGB LEDs and use the convenience functions of the
//! [`smart-leds`](https://crates.io/crates/smart-leds) crate.
//!
//! This is a simple implementation where every LED is adressed in an
//! individual RMT operation. This is working perfectly fine in blocking mode,
//! but in case this is used in combination with interrupts that might disturb
//! the sequential sending, an alternative implementation (addressing the LEDs
//! in a sequence in a single RMT send operation) might be required!
//!
//! ## Example
//!
//! ```rust,ignore
//! let io = Io::new(peripherals.GPIO, peripherals.IO_MUX);
//! let rmt = Rmt::new(peripherals.RMT, 80.MHz(), &clocks, None).unwrap();
//!
//! let rmt_buffer = smartLedBuffer!(1);
//! let mut led = SmartLedsAdapter::new(rmt.channel0, io.pins.gpio2, rmt_buffer, &clocks);
//! ```
//!
//! ## Feature Flags
#![doc = document_features::document_features!()]
#![doc(html_logo_url = "https://avatars.githubusercontent.com/u/46717278")]
#![deny(missing_docs)]
#![no_std]
use core::{fmt::Debug, slice::IterMut};
use esp_hal::{
clock::Clocks,
gpio::OutputPin,
peripheral::Peripheral,
rmt::{Error as RmtError, PulseCode, TxChannel, TxChannelConfig, TxChannelCreator},
};
use smart_leds_trait::{SmartLedsWrite, RGB8};
const SK68XX_CODE_PERIOD: u32 = 1200;
const SK68XX_T0H_NS: u32 = 320;
const SK68XX_T0L_NS: u32 = SK68XX_CODE_PERIOD - SK68XX_T0H_NS;
const SK68XX_T1H_NS: u32 = 640;
const SK68XX_T1L_NS: u32 = SK68XX_CODE_PERIOD - SK68XX_T1H_NS;
/// All types of errors that can happen during the conversion and transmission
/// of LED commands
#[derive(Debug)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum LedAdapterError {
/// Raised in the event that the provided data container is not large enough
BufferSizeExceeded,
/// Raised if something goes wrong in the transmission,
TransmissionError(RmtError),
}
/// Macro to allocate a buffer sized for a specific number of LEDs to be
/// addressed.
///
/// Attempting to use more LEDs that the buffer is configured for will result in
/// an `LedAdapterError:BufferSizeExceeded` error.
#[macro_export]
macro_rules! smartLedBuffer {
( $buffer_size: literal ) => {
// The size we're assigning here is calculated as following
// (
// Nr. of LEDs
// * channels (r,g,b -> 3)
// * pulses per channel 8)
// ) + 1 additional pulse for the end delimiter
[0u32; $buffer_size * 24 + 1]
};
}
/// Adapter taking an RMT channel and a specific pin and providing RGB LED
/// interaction functionality using the `smart-leds` crate
pub struct SmartLedsAdapter<TX, const BUFFER_SIZE: usize>
where
TX: TxChannel,
{
channel: Option<TX>,
rmt_buffer: [u32; BUFFER_SIZE],
pulses: (u32, u32),
}
impl<'d, TX, const BUFFER_SIZE: usize> SmartLedsAdapter<TX, BUFFER_SIZE>
where
TX: TxChannel,
{
/// Create a new adapter object that drives the pin using the RMT channel.
pub fn new<C, O>(
channel: C,
pin: impl Peripheral<P = O> + 'd,
rmt_buffer: [u32; BUFFER_SIZE],
clocks: &Clocks,
) -> SmartLedsAdapter<TX, BUFFER_SIZE>
where
O: OutputPin + 'd,
C: TxChannelCreator<'d, TX, O>,
{
let config = TxChannelConfig {
clk_divider: 1,
idle_output_level: false,
carrier_modulation: false,
idle_output: true,
..TxChannelConfig::default()
};
let channel = channel.configure(pin, config).unwrap();
// Assume the RMT peripheral is set up to use the APB clock
let src_clock = clocks.apb_clock.to_MHz();
Self {
channel: Some(channel),
rmt_buffer,
pulses: (
u32::from(PulseCode {
level1: true,
length1: ((SK68XX_T0H_NS * src_clock) / 1000) as u16,
level2: false,
length2: ((SK68XX_T0L_NS * src_clock) / 1000) as u16,
}),
u32::from(PulseCode {
level1: true,
length1: ((SK68XX_T1H_NS * src_clock) / 1000) as u16,
level2: false,
length2: ((SK68XX_T1L_NS * src_clock) / 1000) as u16,
}),
),
}
}
fn convert_rgb_to_pulse(
value: RGB8,
mut_iter: &mut IterMut<u32>,
pulses: (u32, u32),
) -> Result<(), LedAdapterError> {
Self::convert_rgb_channel_to_pulses(value.g, mut_iter, pulses)?;
Self::convert_rgb_channel_to_pulses(value.r, mut_iter, pulses)?;
Self::convert_rgb_channel_to_pulses(value.b, mut_iter, pulses)?;
Ok(())
}
fn convert_rgb_channel_to_pulses(
channel_value: u8,
mut_iter: &mut IterMut<u32>,
pulses: (u32, u32),
) -> Result<(), LedAdapterError> {
for position in [128, 64, 32, 16, 8, 4, 2, 1] {
*mut_iter.next().ok_or(LedAdapterError::BufferSizeExceeded)? =
match channel_value & position {
0 => pulses.0,
_ => pulses.1,
}
}
Ok(())
}
}
impl<TX, const BUFFER_SIZE: usize> SmartLedsWrite for SmartLedsAdapter<TX, BUFFER_SIZE>
where
TX: TxChannel,
{
type Error = LedAdapterError;
type Color = RGB8;
/// Convert all RGB8 items of the iterator to the RMT format and
/// add them to internal buffer, then start a singular RMT operation
/// based on that buffer.
fn write<T, I>(&mut self, iterator: T) -> Result<(), Self::Error>
where
T: IntoIterator<Item = I>,
I: Into<Self::Color>,
{
// We always start from the beginning of the buffer
let mut seq_iter = self.rmt_buffer.iter_mut();
// Add all converted iterator items to the buffer.
// This will result in an `BufferSizeExceeded` error in case
// the iterator provides more elements than the buffer can take.
for item in iterator {
Self::convert_rgb_to_pulse(item.into(), &mut seq_iter, self.pulses)?;
}
// Finally, add an end element.
*seq_iter.next().ok_or(LedAdapterError::BufferSizeExceeded)? = 0;
// Perform the actual RMT operation. We use the u32 values here right away.
let channel = self.channel.take().unwrap();
match channel.transmit(&self.rmt_buffer).wait() {
Ok(chan) => {
self.channel = Some(chan);
Ok(())
}
Err((e, chan)) => {
self.channel = Some(chan);
Err(LedAdapterError::TransmissionError(e))
}
}
}
}

1
esp-hal/.clippy.toml
View File

@ -1 +0,0 @@
avoid-breaking-exported-api = false

352
esp-hal/CHANGELOG.md
View File

@ -9,360 +9,17 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
### Added
- ESP32-S3: Added SDMMC signals (#2556)
- Added `set_priority` to the `DmaChannel` trait on GDMA devices (#2403, #2526)
- Added `into_async` and `into_blocking` functions for `ParlIoTxOnly`, `ParlIoRxOnly` (#2526)
- ESP32-C6, H2, S3: Added `split` function to the `DmaChannel` trait. (#2526, #2532)
- DMA: `PeripheralDmaChannel` type aliasses and `DmaChannelFor` traits to improve usability. (#2532)
- `dma::{Channel, ChannelRx, ChannelTx}::set_priority` for GDMA devices (#2403)
- `esp_hal::asynch::AtomicWaker` that does not hold a global critical section (#2555)
- `esp_hal::sync::RawMutex` for embassy-sync. (#2555)
- ESP32-C6, H2, S3: Added `split` function to the `DmaChannel` trait. (#2526)
- Added PSRAM configuration to `esp_hal::Config` if `quad-psram` or `octal-psram` is enabled (#2546)
- Added `esp_hal::psram::psram_raw_parts` (#2546)
- The timer drivers `OneShotTimer` & `PeriodicTimer` have `into_async` and `new_typed` methods (#2586)
- `timer::Timer` trait has three new methods, `wait`, `async_interrupt_handler` and `peripheral_interrupt` (#2586)
- Configuration structs in the I2C, SPI, and UART drivers now implement the Builder Lite pattern (#2614)
- Added `I8080::apply_config`, `DPI::apply_config` and `Camera::apply_config` (#2610)
- Introduced the `unstable` feature which will be used to restrict stable APIs to a subset of esp-hal. (#2628)
- HAL configuration structs now implement the Builder Lite pattern (#2645)
- Added `OutputOpenDrain::unlisten` (#2625)
- Added `{Input, Flex}::wait_for` (#2625)
- Peripheral singletons now implement `Debug` and `defmt::Format` (#2682, #2834)
- `BurstConfig`, a device-specific configuration for configuring DMA transfers in burst mode (#2543)
- `{DmaRxBuf, DmaTxBuf, DmaRxTxBuf}::set_burst_config` (#2543)
- Added `SpiDmaBus::split` for moving between manual & automatic DMA buffers (#2824)
- ESP32-S2: DMA support for AES (#2699)
- Added `transfer_in_place_async` and embedded-hal-async implementation to `Spi` (#2691)
- `InterruptHandler` now implements `Hash` and `defmt::Format` (#2830)
- `uart::ConfigError` now implements `Eq` (#2825)
- `i2c::master::Error` now implements `Eq` and `Hash` (#2825)
- `i2c::master::Operation` now implements `Debug`, `PartialEq`, `Eq`, `Hash`, and `Display` (#2825)
- `i2c::master::Config` now implements `PartialEq`, `Eq`, ans `Hash` (#2825)
- `i2c::master::I2c` now implements `Debug`, `PartialEq`, and `Eq` (#2825)
- `i2c::master::Info` now implements `Debug` (#2825)
- `spi::master::Config` now implements `Hash` (#2823)
- `spi::master` drivers now implement `Debug` and `defmt::Format` (#2823)
- `DmaRxBuf`, `DmaTxBuf` and `DmaRxTxBuf` now implement `Debug` and `defmt::Format` (#2823)
- DMA channels (`AnyGdmaChannel`, `SpiDmaChannel`, `I2sDmaChannel`, `CryptoDmaChannel`) and their RX/TX halves now implement `Debug` and `defmt::Format` (#2823)
- `DmaDescriptor` and `DmaDescriptorFlags` now implement `PartialEq` and `Eq` (#2823)
- `gpio::{Event, WakeEvent, GpioRegisterAccess}` now implement `Debug`, `Eq`, `PartialEq` and `Hash` (#2842)
- `gpio::{Level, Pull, AlternateFunction, RtcFunction}` now implement `Hash` (#2842)
- `gpio::{GpioPin, AnyPin, Io, Output, OutputOpenDrain, Input, Flex}` now implement `Debug`, `defmt::Format` (#2842)
- More interrupts are available in `esp_hal::spi::master::SpiInterrupt`, add `enable_listen`,`interrupts` and `clear_interrupts` for ESP32/ESP32-S2 (#2833)
- The `ExtU64` and `RateExtU32` traits have been added to `esp_hal::time` (#2845)
- Added `AnyPin::steal(pin_number)` (#2854)
- `adc::{AdcCalSource, Attenuation, Resolution}` now implement `Hash` and `defmt::Format` (#2840)
- `rtc_cntl::{RtcFastClock, RtcSlowClock, RtcCalSel}` now implement `PartialEq`, `Eq`, `Hash` and `defmt::Format` (#2840)
- Added `tsens::TemperatureSensor` peripheral for ESP32C6 and ESP32C3 (#2875)
- Added `with_rx()` and `with_tx()` methods to Uart, UartRx, and UartTx ()
- Implement `embedded-hal` output pin traits for `DummyPin` (#2019)
- Added `esp_hal::init` to simplify HAL initialisation (#1970)
### Changed
- Bump MSRV to 1.83 (#2615)
- In addition to taking by value, peripheral drivers can now mutably borrow DMA channel objects. (#2526)
- DMA channel objects are no longer wrapped in `Channel`. The `Channel` drivers are now managed by DMA enabled peripheral drivers. (#2526)
- The `Dpi` driver and `DpiTransfer` now have a `Mode` type parameter. The driver's asyncness is determined by the asyncness of the `Lcd` used to create it. (#2526)
- `dma::{Channel, ChannelRx, ChannelTx}::set_priority` for GDMA devices (#2403)
- `SystemTimer::set_unit_value` & `SystemTimer::configure_unit` (#2576)
- `SystemTimer` no longer uses peripheral ref (#2576)
- `TIMGX` no longer uses peripheral ref (#2581)
- `SystemTimer::now` has been renamed `SystemTimer::unit_value(Unit)` (#2576)
- `SpiDma` transfers now explicitly take a length along with the DMA buffer object (#2587)
- `dma::{Channel, ChannelRx, ChannelTx}::set_priority` for GDMA devices (#2403)
- `SystemTimer`s `Alarm`s are now type erased (#2576)
- `TimerGroup` `Timer`s are now type erased (#2581)
- PSRAM is now initialized automatically if `quad-psram` or `octal-psram` is enabled (#2546)
- DMA channels are now available via the `Peripherals` struct, and have been renamed accordingly. (#2545)
- Moved interrupt related items from lib.rs, moved to the `interrupt` module (#2613)
- The timer drivers `OneShotTimer` & `PeriodicTimer` now have a `Mode` parameter and type erase the underlying driver by default (#2586)
- `timer::Timer` has new trait requirements of `Into<AnyTimer>`, `'static` and `InterruptConfigurable` (#2586)
- `systimer::etm::Event` no longer borrows the alarm indefinitely (#2586)
- A number of public enums and structs in the I2C, SPI, and UART drivers have been marked with `#[non_exhaustive]` (#2614)
- Interrupt handling related functions are only provided for Blocking UART. (#2610)
- Changed how `Spi`, (split or unsplit) `Uart`, `LpUart`, `I8080`, `Camera`, `DPI` and `I2C` drivers are constructed (#2610)
- I8080, camera, DPI: The various standalone configuration options have been merged into `Config` (#2610)
- Dropped GPIO futures stop listening for interrupts (#2625)
- UART driver's `StopBits` enum variants now correctly use UpperCamelCase (#2669)
- The `PeripheralInput` and `PeripheralOutput` traits are now sealed (#2690)
- `esp_hal::sync::Lock` has been renamed to RawMutex (#2684)
- Updated `esp-pacs` with support for Wi-Fi on the ESP32 and made the peripheral non virtual
- `SpiBitOrder`, `SpiDataMode`, `SpiMode` were renamed to `BitOder`, `DataMode` and `Mode` (#2828)
- `crate::Mode` was renamed to `crate::DriverMode` (#2828)
- `Spi::with_miso` has been overloaded into `Spi::with_miso` and `Spi::with_sio1` (#2557)
- Renamed some I2C error variants (#2844)
- I2C: Replaced potential panics with errors. (#2831)
- UART: Make `AtCmdConfig` and `ConfigError` non-exhaustive (#2851)
- UART: Make `AtCmdConfig` use builder-lite pattern (#2851)
- UART: Fix naming violations for `DataBits`, `Parity`, and `StopBits` enum variants (#2893)
- UART: Remove blocking version of `read_bytes` and rename `drain_fifo` to `read_bytes` instead (#2895)
- Renamed variants of `CpuClock`, made the enum non-exhaustive (#2899)
- SPI: Fix naming violations for `Mode` enum variants (#2902)
- SPI: Fix naming violations for `Address` and `Command` enum variants (#2906)
- `ClockSource` enums are now `#[non_exhaustive]` (#2912)
- `gpio::{Input, Flex}::wakeup_enable` now returns an error instead of panicking. (#2916)
- Removed the `I` prefix from `DriveStrength` enum variants. (#2922)
- Removed the `Attenuation` prefix from `Attenuation` enum variants. (#2922)
### Fixed
- Xtensa devices now correctly enable the `esp-hal-procmacros/rtc-slow` feature (#2594)
- User-bound GPIO interrupt handlers should no longer interfere with async pins. (#2625)
- `spi::master::Spi::{into_async, into_blocking}` are now correctly available on the typed driver, to. (#2674)
- It is no longer possible to safely conjure `GpioPin` instances (#2688)
- UART: Public API follows `C-WORD_ORDER` Rust API standard (`VerbObject` order) (#2851)
- `DmaRxStreamBuf` now correctly resets the descriptors the next time it's used (#2890)
### Removed
- Remove more examples. Update doctests. (#2547)
- The `configure` and `configure_for_async` DMA channel functions has been removed (#2403)
- The DMA channel objects no longer have `tx` and `rx` fields. (#2526)
- `SysTimerAlarms` has been removed, alarms are now part of the `SystemTimer` struct (#2576)
- `FrozenUnit`, `AnyUnit`, `SpecificUnit`, `SpecificComparator`, `AnyComparator` have been removed from `systimer` (#2576)
- Remove Dma[Rx|Tx]Buffer::length (#2587)
- `esp_hal::psram::psram_range` (#2546)
- The `Dma` structure has been removed. (#2545)
- Removed `embedded-hal 0.2.x` impls and deps from `esp-hal` (#2593)
- Removed `Camera::set_` functions (#2610)
- `DmaTxBuf::{compute_chunk_size, compute_descriptor_count, new_with_block_size}` (#2543)
- The `prelude` module has been removed (#2845)
- Removed all peripheral instance type parameters and `new_typed` constructors (#2907)
## [0.22.0] - 2024-11-20
### Added
- A new config option `PLACE_SWITCH_TABLES_IN_RAM` to improve performance (especially for interrupts) at the cost of slightly more RAM usage (#2331)
- A new config option `PLACE_ANON_IN_RAM` to improve performance (especially for interrupts) at the cost of RAM usage (#2331)
- Add burst transfer support to DMA buffers (#2336)
- `AnyPin` now implements `From<GpioPin<N>>`. (#2326)
- Added `AnySpi` and `AnySpiDmaChannel`. (#2334)
- Added `AnyI2s` and `AnyI2sDmaChannel`. (#2367)
- Added `AnyTwai`. (#2359)
- Added `AnyUart`. (#2381)
- `Pins::steal()` to unsafely obtain GPIO. (#2335)
- `I2c::with_timeout` (#2361)
- `Spi::half_duplex_read` and `Spi::half_duplex_write` (#2373)
- Add RGB/DPI driver (#2415)
- Add `DmaLoopBuf` (#2415)
- `Cpu::COUNT` and `Cpu::current()` (#2411)
- `UartInterrupt` and related functions (#2406)
- I2S Parallel output driver for ESP32. (#2348, #2436, #2472)
- Add an option to configure `WDT` action (#2330)
- `DmaDescriptor` is now `Send` (#2456)
- `into_async` and `into_blocking` functions for most peripherals (#2430, #2461)
- API mode type parameter (currently always `Blocking`) to `master::Spi` and `slave::Spi` (#2430)
- `gpio::{GpioPin, AnyPin, Flex, Output, OutputOpenDrain}::split()` to obtain peripheral interconnect signals. (#2418)
- `gpio::Input::{split(), into_peripheral_output()}` when used with output pins. (#2418)
- `gpio::Output::peripheral_input()` (#2418)
- `{Uart, UartRx, UartTx}::apply_config()` (#2449)
- `{Uart, UartRx, UartTx}` now implement `embassy_embedded_hal::SetConfig` (#2449)
- GPIO ETM tasks and events now accept `InputSignal` and `OutputSignal` (#2427)
- `spi::master::Config` and `{Spi, SpiDma, SpiDmaBus}::apply_config` (#2448)
- `embassy_embedded_hal::SetConfig` is now implemented for `spi::master::{Spi, SpiDma, SpiDmaBus}`, `i2c::master::I2c` (#2448, #2477)
- `slave::Spi::{with_mosi(), with_miso(), with_sclk(), with_cs()}` functions (#2485)
- I8080: Added `set_8bits_order()` to set the byte order in 8-bit mode (#2487)
- `I2c::{apply_config(), with_sda(), with_scl()}` (#2477)
- ESP32-S2: Added missing GPIO alternate functions (#2512)
### Changed
- Peripheral type erasure for SPI (#2334)
- Peripheral type erasure for I2S (#2367)
- Peripheral type erasure for I2C (#2361)
- Peripheral type erasure for TWAI (#2359)
- The SPI driver has been rewritten to allow using half-duplex and full-duplex functionality on the same bus. See the migration guide for details. (#2373)
- Renamed `SpiDma` functions: `dma_transfer` to `transfer`, `dma_write` to `write`, `dma_read` to `read`. (#2373)
- Peripheral type erasure for UART (#2381)
- Changed listening for UART events (#2406)
- Circular DMA transfers now correctly error, `available` returns `Result<usize,DmaError>` now (#2409)
- Interrupt listen/unlisten/clear functions now accept any type that converts into `EnumSet` (i.e. single interrupt flags). (#2442)
- SPI interrupt listening is now only available in Blocking mode. The `set_interrupt_handler` is available via `InterruptConfigurable` (#2442)
- Allow users to create DMA `Preparation`s (#2455)
- The `rmt::asynch::RxChannelAsync` and `rmt::asynch::TxChannelAsync` traits have been moved to `rmt` (#2430)
- Calling `AnyPin::output_signals` on an input-only pin (ESP32 GPIO 34-39) will now result in a panic. (#2418)
- UART configuration types have been moved to `esp_hal::uart` (#2449)
- `spi::master::Spi::new()` no longer takes `frequency` and `mode` as a parameter. (#2448)
- Peripheral interconnections via GPIO pins now use the GPIO matrix. (#2419)
- The I2S driver has been moved to `i2s::master` (#2472)
- `slave::Spi` constructors no longer take pins (#2485)
- The `I2c` master driver has been moved from `esp_hal::i2c` to `esp_hal::i2c::master`. (#2476)
- `I2c` SCL timeout is now defined in bus clock cycles. (#2477)
- Trying to send a single-shot RMT transmission will result in an error now, `RMT` deals with `u32` now, `PulseCode` is a convenience trait now (#2463)
- Removed `get_` prefixes from functions (#2528)
- The `Camera` and `I8080` drivers' constructors now only accepts blocking-mode DMA channels. (#2519)
- Many peripherals are now disabled by default and also get disabled when the driver is dropped (#2544)
- Config: Crate prefixes and configuration keys are now separated by `_CONFIG_` (#2848)
### Fixed
- Fix conflict between `RtcClock::get_xtal_freq` and `Rtc::disable_rom_message_printing` (#2360)
- Fixed an issue where interrupts enabled before `esp_hal::init` were disabled. This issue caused the executor created by `#[esp_hal_embassy::main]` to behave incorrectly in multi-core applications. (#2377)
- Fixed `TWAI::transmit_async`: bus-off state is not reached when CANH and CANL are shorted. (#2421)
- ESP32: added UART-specific workaround for https://docs.espressif.com/projects/esp-chip-errata/en/latest/esp32/03-errata-description/esp32/cpu-subsequent-access-halted-when-get-interrupted.html (#2441)
- Fixed some SysTimer race conditions and panics (#2451)
- TWAI: accept all messages by default (#2467)
- I8080: `set_byte_order()` now works correctly in 16-bit mode (#2487)
- ESP32-C6/ESP32-H2: Make higher LEDC frequencies work (#2520)
### Removed
- The `i2s::{I2sWrite, I2sWriteDma, I2sRead, I2sReadDma, I2sWriteDmaAsync, I2sReadDmaAsync}` traits have been removed. (#2316)
- The `ledc::ChannelHW` trait is no longer generic. (#2387)
- The `I2c::new_with_timeout` constructors have been removed (#2361)
- `I2c::new()` no longer takes `frequency` and pins as parameters. (#2477)
- The `spi::master::HalfDuplexReadWrite` trait has been removed. (#2373)
- The `Spi::with_pins` methods have been removed. (#2373)
- The `Spi::new_half_duplex` constructor have been removed. (#2373)
- The `HalfDuplexMode` and `FullDuplexMode` parameters have been removed from `Spi`. (#2373)
- Removed the output pin type parameter from `ledc::{Channel, ChannelIFace}` (#2388)
- Removed the output pin type parameter from `mcpwm::operator::{PwmPin, LinkedPins}` (#2388)
- Removed the output pin type parameter from `parl_io::{ClkOutPin, ClkInPin, RxClkInPin}` (#2388)
- Removed the valid pin type parameter from `parl_io::{TxPinConfigWithValidPin, RxPinConfigWithValidPin}` (#2388)
- Removed the pin type parameters from `parl_io::{TxOneBit, TxTwoBits, TxFourBits, TxEightBits, TxSixteenBits}` (#2388)
- Removed the pin type parameters from `parl_io::{RxOneBit, RxTwoBits, RxFourBits, RxEightBits, RxSixteenBits}` (#2388)
- Removed the pin type parameters from `lcd_cam::lcd::i8080::{TxEightBits, TxSixteenBits}` (#2388)
- Removed the pin type parameters from `lcd_cam::cam::{RxEightBits, RxSixteenBits}` (#2388)
- Most of the async-specific constructors (`new_async`, `new_async_no_transceiver`) have been removed. (#2430)
- The `configure_for_async` DMA functions have been removed (#2430)
- The `Uart::{change_baud, change_stop_bits}` functions have been removed (#2449)
- `gpio::{Input, Output, OutputOpenDrain, Flex, GpioPin}::{peripheral_input, into_peripheral_output}` have been removed. (#2418)
- The `GpioEtm` prefix has been removed from `gpio::etm` types (#2427)
- The `TimerEtm` prefix has been removed from `timer::timg::etm` types (#2427)
- The `SysTimerEtm` prefix has been removed from `timer::systimer::etm` types (#2427)
- The `GpioEtmEventRising`, `GpioEtmEventFalling`, `GpioEtmEventAny` types have been replaced with `Event` (#2427)
- The `TaskSet`, `TaskClear`, `TaskToggle` types have been replaced with `Task` (#2427)
- `{Spi, SpiDma, SpiDmaBus}` configuration methods (#2448)
- `Io::new_with_priority` and `Io::new_no_bind_interrupt`. (#2486)
- `parl_io::{no_clk_pin(), NoClkPin}` (#2531)
- Removed `get_core` function in favour of `Cpu::current` (#2533)
- Removed `uart::Config` setters and `symbol_length`. (#2847)
## [0.21.1]
### Fixed
- Restored blocking `embedded_hal` compatibility for async I2C driver (#2343)
- I2c::transaction is now able to transmit data of arbitrary length (#2481)
## [0.21.0]
### Added
- Introduce traits for the DMA buffer objects (#1976, #2213)
- Implement `embedded-hal` output pin traits for `NoPin` (#2019, #2133)
- Added `esp_hal::init` to simplify HAL initialisation (#1970, #1999)
- Added GpioPin::degrade to create ErasePins easily. Same for AnyPin by accident. (#2075)
- Added missing functions to `Flex`: `unlisten`, `is_interrupt_set`, `wakeup_enable`, `wait_for_high`, `wait_for_low`, `wait_for_rising_edge`, `wait_for_falling_edge`, `wait_for_any_edge`. (#2075)
- `Flex` now implements `Wait`. (#2075)
- Added sleep and wakeup support for esp32c2 (#1922)
- `Input`, `Output`, `OutputOpenDrain` and `Flex` now implement `Peripheral`. (#2094)
- Previously unavailable memory is available via `.dram2_uninit` section (#2079)
- You can now use `Input`, `Output`, `OutputOpenDrain` and `Flex` pins as EXTI and RTCIO wakeup sources (#2095)
- Added `Rtc::set_current_time` to allow setting RTC time, and `Rtc::current_time` to getting RTC time while taking into account boot time (#1883)
- Added APIs to allow connecting signals through the GPIO matrix. (#2128)
- Allow I8080 transfers to be cancelled on the spot (#2191)
- Implement `TryFrom<u32>` for `ledc::timer::config::Duty` (#1984)
- Expose `RtcClock::get_xtal_freq` and `RtcClock::get_slow_freq` publically for all chips (#2183)
- TWAI support for ESP32-H2 (#2199)
- Make `DmaDescriptor` methods public (#2237)
- Added a way to configure watchdogs in `esp_hal::init` (#2180)
- Introduce `DmaRxStreamBuf` (#2242)
- Implement `embedded_hal_async::delay::DelayNs` for `TIMGx` timers (#2084)
- Added `Efuse::read_bit` (#2259)
- Limited SPI slave support for ESP32 (Modes 1 and 3 only) (#2278)
- Added `Rtc::disable_rom_message_printing` (S3 and H2 only) (#2280)
- Added `esp_hal::time::{Duration, Instant}` (#2304)
### Changed
- Make saving and restoring SHA digest state an explicit operation (#2049)
- Reordered RX-TX pairs in all APIs to be consistent (#2074)
- Make saving and restoring SHA digest state an explicit operation (#2049)
- `Delay::new()` is now a `const` function (#1999)
- `Input`, `Output`, `OutputOpenDrain` and `Flex` are now type-erased by default. Use the new `new_typed` constructor to keep using the ZST pin types. (#2075)
- To avoid confusion with the `Rtc::current_time` wall clock time APIs, we've renamed `esp_hal::time::current_time` to `esp_hal::time::now`. (#2091)
- Renamed `touch::Continous` to `touch::Continuous`. (#2094)
- Faster SHA (#2112)
- The (previously undocumented) `ErasedPin` enum has been replaced with the `ErasedPin` struct. (#2094)
- Renamed and merged `Rtc::get_time_us` and `Rtc::get_time_ms` into `Rtc::time_since_boot` (#1883)
- ESP32: Added support for touch sensing on GPIO32 and 33 (#2109)
- Removed gpio pin generics from I8080 driver type. (#2171)
- I8080 driver now decides bus width at transfer time rather than construction time. (#2171)
- Migrate the I8080 driver to a move based API (#2191)
- Replaced `AnyPin` with `InputSignal` and `OutputSignal` and renamed `ErasedPin` to `AnyPin` (#2128)
- Replaced the `ErasedTimer` enum with the `AnyTimer` struct. (#2144)
- `Camera` and `AesDma` now support erasing the DMA channel type (#2258)
- Changed the parameters of `Spi::with_pins` to no longer be optional (#2133)
- Renamed `DummyPin` to `NoPin` and removed all internal logic from it. (#2133)
- The `NO_PIN` constant has been removed. (#2133)
- MSRV bump to 1.79 (#2156)
- Allow handling interrupts while trying to lock critical section on multi-core chips. (#2197)
- Migrate `Camera` to a move based API (#2242).
- Removed the PS-RAM related features, replaced by `quad-psram`/`octal-psram`, `init_psram` takes a configuration parameter, it's now possible to auto-detect PS-RAM size (#2178)
- `EspTwaiFrame` constructors now accept any type that converts into `esp_hal::twai::Id` (#2207)
- Change `DmaTxBuf` to support PSRAM on `esp32s3` (#2161)
- I2c `transaction` is now also available as a inherent function, lift size limit on `write`,`read` and `write_read` (#2262)
- SPI transactions are now cancelled if the transfer object (or async Future) is dropped. (#2216)
- The DMA channel types have been removed from peripherals (#2261)
- `I2C` driver renamed to `I2c` (#2320)
- The GPIO pins are now accessible via `Peripherals` and are no longer part of the `Io` struct (#2508)
- `dma::{ChannelRx, ChannelTx}` now have a `Mode` type parameter (#2519)
### Fixed
- SHA driver can now be safely used in multiple contexts concurrently (#2049)
- Fixed an issue with DMA transfers potentially not waking up the correct async task (#2065)
- Fixed an issue with LCD_CAM i8080 where it would send double the clocks in 16bit mode (#2085)
- Fix i2c embedded-hal transaction (#2028)
- Fix some inconsistencies in DMA interrupt bits (#2169)
- Fix SPI DMA alternating `write` and `read` for ESP32 and ESP32-S2 (#2131)
- Fix I2C ending up in a state when only re-creating the peripheral makes it useable again (#2141)
- Fix `SpiBus::transfer` transferring data twice in some cases (#2159)
- Fixed UART freezing when using `RcFast` clock source on ESP32-C2/C3 (#2170)
- I2S: on ESP32 and ESP32-S2 data is now output to the right (WS=1) channel first. (#2194)
- SPI: Fixed an issue where unexpected data was written outside of the read buffer (#2179)
- SPI: Fixed an issue where `wait` has returned before the DMA has finished writing the memory (#2179)
- SPI: Fixed an issue where repeated calls to `dma_transfer` may end up looping indefinitely (#2179)
- SPI: Fixed an issue that prevented correctly reading the first byte in a transaction (#2179)
- SPI: ESP32: Send address with correct data mode even when no data is sent. (#2231)
- SPI: ESP32: Allow using QSPI mode on SPI3. (#2245)
- PARL_IO: Fixed an issue that caused garbage to be output at the start of some requests (#2211)
- TWAI on ESP32 (#2207)
- TWAI should no longer panic when receiving a non-compliant frame (#2255)
- OneShotTimer: fixed `delay_nanos` behaviour (#2256)
- Fixed unsoundness around `Efuse` (#2259)
- Empty I2C writes to unknown addresses now correctly fail with `AckCheckFailed`. (#2506)
### Removed
- Removed `digest::Digest` implementation from SHA (#2049)
- Removed `NoPinType` in favour of `DummyPin`. (#2068)
- Removed the `async`, `embedded-hal-02`, `embedded-hal`, `embedded-io`, `embedded-io-async`, and `ufmt` features (#2070)
- Removed the `GpioN` type aliasses. Use `GpioPin<N>` instead. (#2073)
- Removed `Peripherals::take`. Use `esp_hal::init` to obtain `Peripherals` (#1999)
- Removed `AnyInputOnlyPin` in favour of `AnyPin`. (#2071)
- Removed the following functions from `GpioPin`: `is_high`, `is_low`, `set_high`, `set_low`, `set_state`, `is_set_high`, `is_set_low`, `toggle`. (#2094)
- Removed `Rtc::get_time_raw` (#1883)
- Removed `_with_default_pins` UART constructors (#2132)
- Removed transfer methods `send`, `send_dma` and `send_dma_async` from `I8080` (#2191)
- Removed `uart::{DefaultRxPin, DefaultTxPin}` (#2132)
- Removed `PcntSource` and `PcntInputConfig`. (#2134)
- Removed the `place-spi-driver-in-ram` feature, this is now enabled via [esp-config](https://docs.rs/esp-config) (#2156)
- Removed `esp_hal::spi::slave::prelude` (#2260)
- Removed `esp_hal::spi::slave::WithDmaSpiN` traits (#2260)
- The `WithDmaAes` trait has been removed (#2261)
- The `I2s::new_i2s1` constructor has been removed (#2261)
- `Peripherals.GPIO` has been removed (#2508)
## [0.20.1] - 2024-08-30
### Fixed
@ -1052,10 +709,7 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
## [0.1.0] - 2022-08-05
[Unreleased]: https://github.com/esp-rs/esp-hal/compare/v0.22.0...HEAD
[0.22.0]: https://github.com/esp-rs/esp-hal/compare/v0.21.1...v0.22.0
[0.21.1]: https://github.com/esp-rs/esp-hal/compare/v0.21.0...v0.21.1
[0.21.0]: https://github.com/esp-rs/esp-hal/compare/v0.20.1...v0.21.0
[Unreleased]: https://github.com/esp-rs/esp-hal/compare/v0.20.1...HEAD
[0.20.1]: https://github.com/esp-rs/esp-hal/compare/v0.20.0...v0.20.1
[0.20.0]: https://github.com/esp-rs/esp-hal/compare/v0.19.0...v0.20.0
[0.19.0]: https://github.com/esp-rs/esp-hal/compare/v0.18.0...v0.19.0

158
esp-hal/Cargo.toml
View File

@ -1,94 +1,89 @@
[package]
name = "esp-hal"
version = "0.22.0"
version = "0.20.1"
edition = "2021"
rust-version = "1.83.0"
rust-version = "1.76.0"
description = "Bare-metal HAL for Espressif devices"
documentation = "https://docs.esp-rs.org/esp-hal/"
keywords = ["embedded", "embedded-hal", "esp32", "espressif", "hal"]
categories = ["embedded", "hardware-support", "no-std"]
repository = "https://github.com/esp-rs/esp-hal"
license = "MIT OR Apache-2.0"
links = "esp-hal"
[package.metadata.docs.rs]
default-target = "riscv32imac-unknown-none-elf"
features = ["esp32c6"]
features = ["embedded-hal", "esp32c6"]
rustdoc-args = ["--cfg", "docsrs"]
[dependencies]
bitflags = "2.6.0"
bytemuck = "1.19.0"
bitfield = "0.17.0"
bytemuck = "1.17.1"
bitfield = "0.16.1"
cfg-if = "1.0.0"
chrono = { version = "0.4.38", default-features = false }
critical-section = "1.2.0"
critical-section = "1.1.3"
defmt = { version = "0.3.8", optional = true }
delegate = "0.13.1"
delegate = "0.12.0"
digest = { version = "0.10.7", default-features = false, optional = true }
document-features = "0.2.10"
embassy-embedded-hal = { version = "0.2.0", optional = true }
embassy-futures = "0.1.1"
embassy-sync = "0.6.1"
embassy-futures = { version = "0.1.1", optional = true }
embassy-sync = { version = "0.6.0", optional = true }
embassy-usb-driver = { version = "0.1.0", optional = true }
embassy-usb-synopsys-otg = { version = "0.2.0", optional = true }
embassy-usb-synopsys-otg = { version = "0.1.0", optional = true }
embedded-can = { version = "0.4.1", optional = true }
embedded-hal = "1.0.0"
embedded-hal-async = "1.0.0"
embedded-hal-nb = "1.0.0"
embedded-hal-02 = { version = "0.2.7", optional = true, features = ["unproven"], package = "embedded-hal" }
embedded-hal = { version = "1.0.0", optional = true }
embedded-hal-async = { version = "1.0.0", optional = true }
embedded-hal-nb = { version = "1.0.0", optional = true }
embedded-io = { version = "0.6.1", optional = true }
embedded-io-async = { version = "0.6.1", optional = true }
enumset = "1.1.5"
esp-build = { version = "0.1.0", path = "../esp-build" }
esp-synopsys-usb-otg = { version = "0.4.2", optional = true, features = ["fs", "esp32sx"] }
fugit = "0.3.7"
instability = "0.3.6"
log = { version = "0.4.22", optional = true }
nb = "1.1.0"
paste = "1.0.15"
portable-atomic = { version = "1.9.0", default-features = false }
procmacros = { version = "0.15.0", package = "esp-hal-procmacros", path = "../esp-hal-procmacros" }
portable-atomic = { version = "1.7.0", default-features = false }
procmacros = { version = "0.13.0", features = ["enum-dispatch", "interrupt", "ram"], package = "esp-hal-procmacros", path = "../esp-hal-procmacros" }
riscv = { version = "0.11.1", optional = true }
strum = { version = "0.26.3", default-features = false, features = ["derive"] }
void = { version = "1.0.2", default-features = false }
usb-device = { version = "0.3.2", optional = true }
rand_core = "0.6.4"
ufmt-write = "0.1.0"
ufmt-write = { version = "0.1.0", optional = true }
xtensa-lx = { version = "0.9.0", optional = true }
# IMPORTANT:
# Each supported device MUST have its PAC included below along with a
# corresponding feature.
esp32 = { version = "0.34.0", features = ["critical-section", "rt"], git = "https://github.com/esp-rs/esp-pacs", rev = "ffbee35069d137ef611097d39fa7734c299ce124", optional = true }
esp32c2 = { version = "0.23.0", features = ["critical-section", "rt"], git = "https://github.com/esp-rs/esp-pacs", rev = "ffbee35069d137ef611097d39fa7734c299ce124", optional = true }
esp32c3 = { version = "0.26.0", features = ["critical-section", "rt"], git = "https://github.com/esp-rs/esp-pacs", rev = "ffbee35069d137ef611097d39fa7734c299ce124", optional = true }
esp32c6 = { version = "0.17.0", features = ["critical-section", "rt"], git = "https://github.com/esp-rs/esp-pacs", rev = "ffbee35069d137ef611097d39fa7734c299ce124", optional = true }
esp32h2 = { version = "0.13.0", features = ["critical-section", "rt"], git = "https://github.com/esp-rs/esp-pacs", rev = "ffbee35069d137ef611097d39fa7734c299ce124", optional = true }
esp32s2 = { version = "0.25.0", features = ["critical-section", "rt"], git = "https://github.com/esp-rs/esp-pacs", rev = "ffbee35069d137ef611097d39fa7734c299ce124", optional = true }
esp32s3 = { version = "0.29.0", features = ["critical-section", "rt"], git = "https://github.com/esp-rs/esp-pacs", rev = "ffbee35069d137ef611097d39fa7734c299ce124", optional = true }
esp32 = { version = "0.33.0", features = ["critical-section", "rt"], optional = true }
esp32c2 = { version = "0.22.0", features = ["critical-section", "rt"], optional = true }
esp32c3 = { version = "0.25.0", features = ["critical-section", "rt"], optional = true }
esp32c6 = { version = "0.16.0", features = ["critical-section", "rt"], optional = true }
esp32h2 = { version = "0.12.0", features = ["critical-section", "rt"], optional = true }
esp32s2 = { version = "0.24.0", features = ["critical-section", "rt"], optional = true }
esp32s3 = { version = "0.28.0", features = ["critical-section", "rt"], optional = true }
[target.'cfg(target_arch = "riscv32")'.dependencies]
riscv = { version = "0.12.1" }
esp-riscv-rt = { version = "0.9.1", path = "../esp-riscv-rt" }
critical-section = { version = "1.2.0", features = ["restore-state-u8"] }
esp-riscv-rt = { version = "0.9.0", path = "../esp-riscv-rt" }
[target.'cfg(target_arch = "xtensa")'.dependencies]
xtensa-lx = { version = "0.9.0", path = "../xtensa-lx" }
xtensa-lx-rt = { version = "0.17.2", path = "../xtensa-lx-rt" }
critical-section = { version = "1.2.0", features = ["restore-state-u32"] }
xtensa-lx-rt = { version = "0.17.0", path = "../xtensa-lx-rt" }
[build-dependencies]
basic-toml = "0.1.9"
cfg-if = "1.0.0"
esp-build = { version = "0.1.0", path = "../esp-build" }
esp-metadata = { version = "0.4.0", path = "../esp-metadata" }
esp-config = { version = "0.2.0", path = "../esp-config", features = ["build"] }
serde = { version = "1.0.215", features = ["derive"] }
esp-metadata = { version = "0.3.0", path = "../esp-metadata" }
serde = { version = "1.0.209", features = ["derive"] }
[features]
default = []
default = ["embedded-hal"]
riscv = ["dep:riscv", "critical-section/restore-state-u8"]
xtensa = ["dep:xtensa-lx", "critical-section/restore-state-u32"]
bluetooth = []
usb-otg = ["dep:embassy-usb-driver", "dep:embassy-usb-synopsys-otg", "dep:esp-synopsys-usb-otg", "dep:usb-device"]
usb-otg = ["esp-synopsys-usb-otg", "usb-device"]
__esp_hal_embassy = []
@ -104,22 +99,24 @@ debug = [
]
## Enable logging output using the `log` crate.
log = ["dep:log"]
## Configuration for placing device drivers in the IRAM for faster access.
place-spi-driver-in-ram = []
# Chip Support Feature Flags
# Target the ESP32.
esp32 = ["dep:esp32", "procmacros/rtc-slow", "xtensa-lx-rt/esp32"]
esp32 = ["dep:esp32", "xtensa", "xtensa-lx/spin", "xtensa-lx-rt/esp32"]
# Target the ESP32-C2.
esp32c2 = ["dep:esp32c2", "portable-atomic/unsafe-assume-single-core"]
esp32c2 = ["dep:esp32c2", "riscv", "portable-atomic/unsafe-assume-single-core"]
# Target the ESP32-C3.
esp32c3 = ["dep:esp32c3", "esp-riscv-rt/rtc-ram", "portable-atomic/unsafe-assume-single-core"]
esp32c3 = ["dep:esp32c3", "riscv", "portable-atomic/unsafe-assume-single-core", "esp-riscv-rt/rtc-ram"]
# Target the ESP32-C6.
esp32c6 = ["dep:esp32c6", "esp-riscv-rt/rtc-ram", "procmacros/has-lp-core"]
esp32c6 = ["dep:esp32c6", "riscv", "procmacros/has-lp-core", "esp-riscv-rt/rtc-ram"]
# Target the ESP32-H2.
esp32h2 = ["dep:esp32h2", "esp-riscv-rt/rtc-ram"]
esp32h2 = ["dep:esp32h2", "riscv", "esp-riscv-rt/rtc-ram"]
# Target the ESP32-S2.
esp32s2 = ["dep:esp32s2", "portable-atomic/critical-section", "procmacros/has-ulp-core", "procmacros/rtc-slow", "usb-otg", "xtensa-lx-rt/esp32s2"]
esp32s2 = ["dep:esp32s2", "xtensa", "portable-atomic/critical-section", "procmacros/has-ulp-core", "xtensa-lx-rt/esp32s2", "usb-otg"]
# Target the ESP32-S3.
esp32s3 = ["dep:esp32s3", "procmacros/has-ulp-core", "procmacros/rtc-slow", "usb-otg", "xtensa-lx-rt/esp32s3"]
esp32s3 = ["dep:esp32s3", "xtensa", "procmacros/has-ulp-core", "xtensa-lx/spin", "xtensa-lx-rt/esp32s3", "usb-otg"]
#! ### RISC-V Exclusive Feature Flags
## Move the stack to start of RAM to get zero-cost stack overflow protection
@ -127,14 +124,27 @@ esp32s3 = ["dep:esp32s3", "procmacros/has-ulp-core", "procmacros/rtc-slow", "usb
flip-link = ["esp-riscv-rt/fix-sp"]
#! ### Trait Implementation Feature Flags
## Enable support for asynchronous operation, with interfaces provided by
## `embedded-hal-async` and `embedded-io-async`.
## Also enables `embassy-usb` support for ESP32-S2 and ESP32-S3.
async = [
"embedded-hal",
"embedded-hal-async",
"embedded-io",
"embedded-io-async",
"embassy-sync",
"embassy-futures",
"embassy-usb-driver",
"embassy-usb-synopsys-otg"
]
## Implement `defmt::Format` on certain types.
defmt = [
"dep:defmt",
"embassy-futures/defmt",
"embassy-sync/defmt",
"embedded-hal/defmt-03",
"embassy-futures?/defmt",
"embassy-sync?/defmt",
"embedded-hal?/defmt-03",
"embedded-io/defmt-03",
"embedded-io-async/defmt-03",
"embedded-io-async?/defmt-03",
"esp32?/defmt",
"esp32c2?/defmt",
"esp32c3?/defmt",
@ -142,31 +152,39 @@ defmt = [
"esp32h2?/defmt",
"esp32s2?/defmt",
"esp32s3?/defmt",
"fugit/defmt",
]
## Implement the traits defined in the `1.0.0` releases of `embedded-hal` and
## `embedded-hal-nb` for the relevant peripherals.
embedded-hal = ["dep:embedded-hal", "dep:embedded-hal-nb", "dep:embedded-can"]
## Implement the traits defined in the `0.2.x` release of `embedded-hal`.
embedded-hal-02 = ["dep:embedded-hal-02"]
## Implement the traits defined in `embedded-io` for certain peripherals.
embedded-io = ["dep:embedded-io"]
## Implement the `ufmt_write::uWrite` trait for certain peripherals.
ufmt = ["dep:ufmt-write"]
#! ### PSRAM Feature Flags
## Use externally connected Quad PSRAM
quad-psram = []
## Use externally connected PSRAM (2MB).
psram-2m = []
## Use externally connected PSRAM (4MB).
psram-4m = []
## Use externally connected PSRAM (8MB).
psram-8m = []
## PSRAM 80Mhz frequency support
psram-80mhz = []
## Use externally connected Octal RAM
octal-psram = []
#! ### Octal RAM Feature Flags
## Use externally connected Octal RAM (2MB).
opsram-2m = []
## Use externally connected Octal RAM (4MB).
opsram-4m = []
## Use externally connected Octal RAM (8MB).
opsram-8m = []
## Use externally connected Octal RAM (16MB).
opsram-16m = []
# This feature is intended for testing; you probably don't want to enable it:
ci = ["defmt", "bluetooth"]
#! ### Unstable APIs
#! Unstable APIs are drivers and features that are not yet ready for general use.
#! They may be incomplete, have bugs, or be subject to change without notice.
#! Unstable APIs are not covered by semver guarantees.
## Enables APIs that are not stable and thus come with no stability guarantees.
unstable = [
"dep:embassy-embedded-hal",
"dep:embedded-can",
"dep:embedded-io",
"dep:embedded-io-async",
]
ci = ["async", "embedded-hal-02", "embedded-io", "ufmt", "defmt", "bluetooth", "place-spi-driver-in-ram"]
[lints.clippy]
mixed_attributes_style = "allow"

335
esp-hal/MIGRATING-0.20.md
View File

@ -1,19 +1,8 @@
# Migration Guide from 0.20.x to v0.21.x
Migration Guide from 0.20.x to vNext
====================================
## Cargo Features
A number of trait implementations which were previously feature-gated are now implemented by default. The following Cargo features have been removed:
- `async`
- `embedded-hal-02`
- `embedded-hal`
- `embedded-io`
- `embedded-io-async`
- `ufmt`
If your project enables any of these features, simply remove them from your Cargo manifest and things should continue to work as expected.
## HAL Initialization
HAL initialsation
-----------------
Instead of manually grabbing peripherals and setting up clocks, you should now call `esp_hal::init`.
@ -24,326 +13,14 @@ Instead of manually grabbing peripherals and setting up clocks, you should now c
prelude::*,
- system::SystemControl,
};
#[entry]
fn main() -> ! {
- let peripherals = Peripherals::take();
- let system = SystemControl::new(peripherals.SYSTEM);
- let clocks = ClockControl::boot_defaults(system.clock_control).freeze();
+ let peripherals = esp_hal::init(esp_hal::Config::default());
+ let (peripherals, clocks) = esp_hal::init(esp_hal::Config::default());
// ...
}
```
## GPIO changes
- The `GpioN` type aliasses are no longer available. You can use `GpioPin<N>` instead.
- The `AnyInputOnlyPin` has been removed. Replace any use with `AnyPin`.
- The `NoPinType` has been removed. You can use `DummyPin` in its place.
### Type-erased GPIO drivers
The `AnyInput`, `AnyOutput`, `AnyOutputOpenDrain` and `AnyFlex` structures have been removed.
Instead, you can use the non-`Any` counterparts. By default, the structures will use `AnyPin` in
their type names, which you don't have to specify.
```diff
-let pin = AnyInput::new(io.gpio0, Pull::Up);
+let pin = Input::new(io.gpio0, Pull::Up); // pin will have the type `Input<'some>` (or `Input<'some, AnyPin>` if you want to be explicit about it)
```
You can use `new_typed` if you want to keep using the typed form:
```rust
let pin = Input::new_typed(io.gpio0, Pull::Up); // pin will have the type `Input<'some, GpioPin<0>>`
```
### Creating an `AnyPin`
Instead of `AnyPin::new`, you can now use the `Pin` trait's `degrade` method to obtain an `AnyPin`.
You can now create an `AnyPin` out of input only pins (like ESP32's IO34), but trying to use such
pins as output (or, generally, trying to use pins in ways they don't support) will panic.
```diff
+ use esp_hal::gpio::Pin;
-let pin = AnyPin::new(io.gpio0);
+let pin = io.gpio0.degrade();
```
### Wakeup using pin drivers
You can now use pin drivers as wakeup sources.
```rust
use esp_hal::peripheral::Peripheral; // needed for `into_ref`
let pin2 = Input::new(io.pins.gpio2, Pull::None);
let mut pin3 = Input::new(io.pins.gpio3, Pull::None);
// ... use pin2 as an input ..
// Ext0
let ext0 = Ext0WakeupSource::new(pin2, WakeupLevel::High);
// Ext1
let mut wakeup_pins: [&mut dyn RtcPin; 2] = [
&mut *pin_0.into_ref(),
&mut io.pins.gpio4, // unconfigured pins continue to work, too!
];
let ext1 = Ext1WakeupSource::new(&mut wakeup_pins, WakeupLevel::High);
```
## RX/TX Order
Previously, our API was pretty inconsistent with the RX/TX ordering, and different peripherals had different order. Now, all
the peripherals use rx-tx. Make sure your methods are expecting the right RX/TX order, for example an SPI DMA app should be updated to:
```diff
- let (tx_buffer, tx_descriptors, rx_buffer, rx_descriptors) = dma_buffers!(4);
+ let (rx_buffer, rx_descriptors, tx_buffer, tx_descriptors) = dma_buffers!(4);
let mut dma_tx_buf = DmaTxBuf::new(tx_descriptors, tx_buffer).unwrap();
let dma_rx_buf = DmaRxBuf::new(rx_descriptors, rx_buffer).unwrap();
...
let transfer = spi
- .dma_transfer(dma_tx_buf, dma_rx_buf)
+ .dma_transfer(dma_rx_buf, dma_tx_buf)
.map_err(|e| e.0)
.unwrap();
```
When using the asymmetric variant of the macro to create DMA buffers and descriptors make sure to swap the order of parameters
```diff
- let (tx_buffer, tx_descriptors, _, _) = dma_buffers!(32000, 0);
+ let (_, _, tx_buffer, tx_descriptors) = dma_buffers!(0, 32000);
```
## Removed constructors
### UART
The `Uart::new_with_default_pins` and `Uart::new_async_with_default_pins` constructors
have been removed. Use `new` or `new_async` instead.
### I2S1
The `I2s::new_i2s1` constructor has been removed. Use `I2s::new` instead.
## Timer changes
### `ErasedTimer` rename
The `ErasedTimer` has been renamed to `AnyTimer`.
### `esp_hal::time::current_time` rename
To avoid confusion with the `Rtc::current_time` wall clock time APIs, we've renamed `esp_hal::time::current_time` to `esp_hal::time::now()`.
### RTC Wall Clock APIs
Instead of the `get_time_ms`, `get_time_us`, and `get_time_raw` functions, the `Rtc` struct now provides the `current_time` function, using `chrono`'s `NaiveDateTime` struct.
```diff
let rtc = Rtc::new(peripherals.LPWR);
- let current_time_ms = rtc.get_time_ms();
+ let current_time_ms = rtc.current_time().and_utc().timestamp_millis(); // assuming UTC
```
## PCNT input config
The `PcntSource` and `PcntInputConfig` have been removed. You can use `Input` or `Flex` instead to
configure an input pin, and pass it to `set_edge_signal` or `set_ctrl_signal`.
```diff
- let mut pin_a = io.pins.gpio4;
- ch0.set_ctrl_signal(PcntSource::from_pin(
- &mut pin_a,
- PcntInputConfig { pull: Pull::Up },
- ));
+ ch0.set_ctrl_signal(Input::new(io.pins.gpio4, Pull::Up));
- let mut pin_b = io.pins.gpio5;
- ch0.set_edge_signal(PcntSource::from_pin(
- &mut pin_b,
- PcntInputConfig { pull: Pull::Down },
- ));
+ ch0.set_edge_signal(Input::new(io.pins.gpio5, Pull::Down));
```
## SPI pins and `NO_PIN`
Use `NoPin` in place of the now-removed `NO_PIN` constant.
SPI pins, when using the `with_pin` function, are no longer optional.
You can pass `NoPin` or `Level` if you don't need a particular pin.
```diff
let spi = Spi::new(peripherals.SPI2, 100.kHz(), SpiMode::Mode0)
- .with_pins(Some(sclk), Some(mosi), NO_PIN, NO_PIN);
+ .with_pins(sclk, mosi, Level::Low, NoPin);
```
## I8080 type definition
The I8080 driver no longer holds on to pins in its type definition.
```diff
- let _: I8080<'a, DmaChannel3, TxEightBits<AnyPin, AnyPin, AnyPin, ....>, Blocking>;
+ let _: I8080<'a, DmaChannel3, Blocking>;
```
## I8080 transfer API changes
- The I8080 driver now decides bus width at transfer time, which means you don't get type inference anymore.
- Starting a transfer moves the driver into the transfer object, allowing you to store it in a `static` or struct.
- The transfer API no longer works with plain slices, it now works with `DmaTxBuffer`s which allow to bring your own DMA data structure and implement efficient queueing of transfers.
- The three transfer methods (`send`, `send_dma`, `send_dma_async`) have been merged into one `send` method.
```diff
let (_, _, tx_buffer, tx_descriptors) = dma_buffers!(0, 32678);
+ let mut dma_buf = DmaTxBuf::new(tx_descriptors, tx_buffer).unwrap();
let mut i8080 = I8080::new(
lcd_cam.lcd,
channel.tx,
- tx_descriptors,
tx_pins,
20.MHz(),
Config::default(),
)
- i8080.send(0x12, 0, &[0, 1, 2, 3, 4]);
+ dma_buf.fill(&[0, 1, 2, 3, 4]);
+ let transfer = i8080.send(0x12u8, 0, dma_buf).unwrap();
+ // transfer.wait_for_done().await;
+ (_, i8080, dma_buf) = transfer.wait();
```
### Placing drivers in RAM is now done via esp-config
We've replaced some usage of features with [esp-config](https://docs.rs/esp-config). Please remove any reference to `place-spi-driver-in-ram` in your `Cargo.toml` and migrate to the `[env]` section of `.cargo/config.toml`.
```diff
# feature in Cargo.toml
- esp-hal = { version = "0.20", features = ["place-spi-driver-in-ram"] }
# key in .cargo/config.toml [env] section
+ ESP_HAL_PLACE_SPI_DRIVER_IN_RAM="true"
```
## `Camera` driver now uses `DmaRxBuffer` and moves the driver into the transfer object.
For one shot transfers.
```diff
let (rx_buffer, rx_descriptors, _, _) = dma_buffers!(32678, 0);
+ let dma_buf = DmaRxBuf::new(rx_descriptors, rx_buffer).unwrap();
let lcd_cam = LcdCam::new(peripherals.LCD_CAM);
let mut camera = Camera::new(
lcd_cam.cam,
channel.rx,
- rx_descriptors,
data_pins,
20u32.MHz(),
);
- let transfer = camera.read_dma(rx_buffer).unwrap();
- transfer.wait();
+ let transfer = camera.receive(dma_buf).unwrap();
+ let (_, camera, buf) = transfer.wait();
```
For circular transfers.
```diff
- let (rx_buffer, rx_descriptors, _, _) = dma_buffers!(32678, 0);
+ let dma_buf = dma_rx_stream_buffer!(32678);
let lcd_cam = LcdCam::new(peripherals.LCD_CAM);
let mut camera = Camera::new(
lcd_cam.cam,
channel.rx,
- rx_descriptors,
data_pins,
20u32.MHz(),
);
- let mut transfer = camera.read_dma_circular(rx_buffer).unwrap();
+ let mut transfer = camera.receive(dma_buf).unwrap();
transfer.pop(&mut [.....]);
transfer.pop(&mut [.....]);
transfer.pop(&mut [.....]);
```
## PS-RAM
Initializing PS-RAM now takes a chip specific config and returns start of the mapped memory and the size.
Example
```rust
let (start, size) = psram::init_psram(peripherals.PSRAM, psram::PsramConfig::default());
```
If you don't specify the size of PS-RAM via `PsramConfig::size` the size of PS-RAM is derived from the RAM-chip id (or via probing in case of ESP32).
`psram::psram_vaddr_start()` and `psram::PSRAM_BYTES` are removed.
The features `psram-Xm` and `opsram-Xm` are removed and replaced by `quad-psram`/`octal-psram`.
The feature `psram-80mhz` is removed and replaced by `PsramConfig`
Diff of the `psram_quad.rs` example
```diff
-//% FEATURES: psram-2m
+//% FEATURES: esp-hal/quad-psram
...
-fn init_psram_heap() {
+fn init_psram_heap(start: *mut u8, size: usize) {
unsafe {
esp_alloc::HEAP.add_region(esp_alloc::HeapRegion::new(
- psram::psram_vaddr_start() as *mut u8,
- psram::PSRAM_BYTES,
+ start,
+ size,
esp_alloc::MemoryCapability::External.into(),
));
}
...
- psram::init_psram(peripherals.PSRAM);
- init_psram_heap();
+ let (start, size) = psram::init_psram(peripherals.PSRAM, psram::PsramConfig::default());
+ init_psram_heap(start, size);
...
```
## eFuse
Calling `Efuse::read_field_le::<bool>()` no longer compiles. Use `Efuse::read_bit()` instead.
## DMA
The DMA channel types have been removed from peripherals.
A non-exhausitve list demonstrating this change:
```diff
-I2sTx<'static, I2S0, DmaChannel0, Async>
+I2sTx<'static, I2S0, Async>
-SpiDma<'static, esp_hal::peripherals::SPI2, DmaChannel0, HalfDuplexMode, Blocking>
+SpiDma<'static, esp_hal::peripherals::SPI2, HalfDuplexMode, Blocking>
```
## `I2C` driver renamed to `I2c`
To firstly match the naming in `embedded-hal`, but also because types should be `UpperCamelCase`.

471
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@ -1,471 +0,0 @@
# Migration Guide from 0.21.x to v0.22.x
## IO changes
### GPIO pins are now accessible via `Peripherals`
```diff
let peripherals = esp_hal::init(Default::default());
-let io = Io::new(peripherals.GPIO, peripherals.IOMUX);
-let pin = io.pins.gpio5;
+let pin = peripherals.GPIO5;
```
### `Io` constructor changes
- `new_with_priority` and `new_no_bind_interrupts` have been removed.
Use `set_priority` to configure the GPIO interrupt priority.
We no longer overwrite interrupt handlers set by user code during initialization.
- `new` no longer takes `peripherals.GPIO`
## Removed `async`-specific constructors
The following async-specific constuctors have been removed:
- `configure_for_async` DMA channel constructors
- `TwaiConfiguration::new_async` and `TwaiConfiguration::new_async_no_transceiver`
- `I2c::new_async`
- `LcdCam::new_async`
- `UsbSerialJtag::new_async`
- `Rsa::new_async`
- `Rmt::new_async`
- `Uart::new_async`, `Uart::new_async_with_config`
- `UartRx::new_async`, `UartRx::new_async_with_config`
- `UartTx::new_async`, `UartTx::new_async_with_config`
You can use the blocking counterparts, then call `into_async` on the returned peripheral instead.
```diff
-let mut config = twai::TwaiConfiguration::new_async(
+let mut config = twai::TwaiConfiguration::new(
peripherals.TWAI0,
loopback_pin.peripheral_input(),
loopback_pin,
twai::BaudRate::B1000K,
TwaiMode::SelfTest,
-);
+).into_async();
```
Some drivers were implicitly configured to the asyncness of the DMA channel used to construct them.
This is no longer the case, and the following drivers will always be created in blocking mode:
- `i2s::master::I2s`
- `spi::master::SpiDma` and `spi::master::SpiDmaBus`
## Peripheral types are now optional
You no longer have to specify the peripheral instance in the driver's type for the following
peripherals:
- SPI (both master and slave)
- I2S
- I2C
- TWAI
- UART
```diff
-Spi<'static, SPI2, FullDuplexMode>
+Spi<'static, FullDuplexMode>
-SpiDma<'static, SPI2, HalfDuplexMode, Blocking>
+SpiDma<'static, HalfDuplexMode, Blocking>
-I2sTx<'static, I2S0, Async>
+I2sTx<'static, Async>
```
Note that you may still specify the instance if you need to. To do this, we provide `_typed`
versions of the constructors (for example: `new_typed`, `new_half_duplex_typed`). Please note that
the peripheral instance has been moved to the last generic parameter position.
```rust
let spi: Spi<'static, FullDuplexMode, SPI2> = Spi::new_typed(peripherals.SPI2, 1.MHz(), SpiMode::Mode0);
```
## I2C changes
The I2C master driver and related types have been moved to `esp_hal::i2c::master`.
The `with_timeout` constructors have been removed. `new` and `new_typed` now take a `Config` struct
with the available configuration options.
- The default configuration is now:
- bus frequency: 100 kHz
- timeout: about 10 bus clock cycles
The constructors no longer take pins. Use `with_sda` and `with_scl` instead.
```diff
-use esp_hal::i2c::I2c;
+use esp_hal::i2c::{Config, I2c};
-let i2c = I2c::new_with_timeout(peripherals.I2C0, sda, scl, 100.kHz(), timeout);
+let i2c = I2c::new(
+ peripherals.I2C0,
+ {
+ let mut config = Config::default();
+ config.frequency = 100.kHz();
+ config.timeout = timeout;
+ config
+ },
+)
+.with_sda(sda)
+.with_scl(scl);
```
### The calculation of I2C timeout has changed
Previously, I2C timeouts were counted in increments of I2C peripheral clock cycles. This meant that
the configure value meant different lengths of time depending on the device. With this update, the
I2C configuration now expects the timeout value in number of bus clock cycles, which is consistent
between devices.
ESP32 and ESP32-S2 use an exact number of clock cycles for its timeout. Other MCUs, however, use
the `2^timeout` value internally, and the HAL rounds up the timeout to the next appropriate value.
## Changes to half-duplex SPI
The `HalfDuplexMode` and `FullDuplexMode` type parameters have been removed from SPI master and slave
drivers. It is now possible to execute half-duplex and full-duplex operations on the same SPI bus.
### Driver construction
- The `Spi::new_half_duplex` constructor has been removed. Use `new` (or `new_typed`) instead.
- The `with_pins` methods have been removed. Use the individual `with_*` functions instead.
- The `with_mosi` and `with_miso` functions now take input-output peripheral signals to support half-duplex mode.
```diff
- let mut spi = Spi::new_half_duplex(peripherals.SPI2, 100.kHz(), SpiMode::Mode0)
- .with_pins(sck, mosi, miso, sio2, sio3, cs);
+ let mut spi = Spi::new(peripherals.SPI2) // or new_with_config
+ .with_sck(sck)
+ .with_cs(cs)
+ .with_mosi(mosi)
+ .with_miso(miso)
+ .with_sio2(sio2)
+ .with_sio3(sio3);
```
### Transfer functions
The `Spi<'_, SPI, HalfDuplexMode>::read` and `Spi<'_, SPI, HalfDuplexMode>::write` functions have been replaced by
`half_duplex_read` and `half_duplex_write`.
```diff
let mut data = [0u8; 2];
let transfer = spi
- .read(
+ .half_duplex_read(
SpiDataMode::Single,
Command::Command8(0x90, SpiDataMode::Single),
Address::Address24(0x000000, SpiDataMode::Single),
0,
&mut data,
)
.unwrap();
let transfer = spi
- .write(
+ .half_duplex_write(
SpiDataMode::Quad,
Command::Command8(write as u16, command_data_mode),
Address::Address24(
write as u32 | (write as u32) << 8 | (write as u32) << 16,
SpiDataMode::Quad,
),
0,
dma_tx_buf,
)
.unwrap();
```
## Slave-mode SPI
### Driver construction
The constructors no longer accept pins. Use the `with_pin_name` setters instead.
```diff
let mut spi = Spi::new(
peripherals.SPI2,
- sclk,
- mosi,
- miso,
- cs,
SpiMode::Mode0,
-);
+)
+.with_sclk(sclk)
+.with_mosi(mosi)
+.with_miso(miso)
+.with_cs(cs);
```
## UART event listening
The following functions have been removed:
- `listen_at_cmd`
- `unlisten_at_cmd`
- `listen_tx_done`
- `unlisten_tx_done`
- `listen_rx_fifo_full`
- `unlisten_rx_fifo_full`
- `at_cmd_interrupt_set`
- `tx_done_interrupt_set`
- `rx_fifo_full_interrupt_set`
- `reset_at_cmd_interrupt`
- `reset_tx_done_interrupt`
- `reset_rx_fifo_full_interrupt`
You can now use the `UartInterrupt` enum and the corresponding `listen`, `unlisten`, `interrupts` and `clear_interrupts` functions.
Use `interrupts` in place of `<INTERRUPT>_interrupt_set` and `clear_interrupts` in place of the old `reset_` functions.
`UartInterrupt`:
- `AtCmd`
- `TxDone`
- `RxFifoFull`
Checking interrupt bits is now done using APIs provided by [enumset](https://docs.rs/enumset/1.1.5/enumset/index.html). For example, to see if
a particular interrupt bit is set, use `contains`:
```diff
-serial.at_cmd_interrupt_set()
+serial.interupts().contains(UartInterrupt::AtCmd)
```
You can now listen/unlisten multiple interrupt bits at once:
```diff
-uart0.listen_at_cmd();
-uart0.listen_rx_fifo_full();
+uart0.listen(UartInterrupt::AtCmd | UartConterrupt::RxFifoFull);
```
## I2S changes
### The I2S driver has been moved to `i2s::master`
```diff
-use esp_hal::i2s::{DataFormat, I2s, Standard};
+use esp_hal::i2s::master::{DataFormat, I2s, Standard};
```
### Removed `i2s` traits
The following traits have been removed:
- `I2sWrite`
- `I2sWriteDma`
- `I2sRead`
- `I2sReadDma`
- `I2sWriteDmaAsync`
- `I2sReadDmaAsync`
You no longer have to import these to access their respective APIs. If you used these traits
in your functions as generic parameters, you can use the `I2s` type directly instead.
For example:
```diff
-fn foo(i2s: &mut impl I2sWrite) {
+fn foo(i2s: &mut I2s<'_, I2S0, Blocking>) {
// ...
}
```
## DMA related changes
### Circular DMA transfer's `available` returns `Result<usize, DmaError>` now
In case of any error you should drop the transfer and restart it.
```diff
loop {
- let avail = transfer.available();
+ let avail = match transfer.available() {
+ Ok(avail) => avail,
+ Err(_) => {
+ core::mem::drop(transfer);
+ transfer = i2s_tx.write_dma_circular(&tx_buffer).unwrap();
+ continue;
+ },
+ };
```
### Channel, ChannelRx and ChannelTx types have changed
- `Channel`'s `Async`/`Blocking` mode has been moved before the channel instance parameter.
- `ChannelRx` and `ChannelTx` have gained a new `Async`/`Blocking` mode parameter.
```diff
-Channel<'d, DmaChannel0, Async>
+Channel<'d, Async, DmaChannel0>
-ChannelRx<'d, DmaChannel0>
+ChannelRx<'d, Async, DmaChannel0>
-ChannelTx<'d, DmaChannel0>
+ChannelTx<'d, Async, DmaChannel0>
```
## Removed `peripheral_input` and `into_peripheral_output` from GPIO pin types
Creating peripheral interconnect signals now consume the GPIO pin used for the connection.
The previous signal function have been replaced by `split`. This change affects the following APIs:
- `GpioPin`
- `AnyPin`
```diff
-let input_signal = gpioN.peripheral_input();
-let output_signal = gpioN.into_peripheral_output();
+let (input_signal, output_signal) = gpioN.split();
```
`into_peripheral_output`, `split` (for output pins only) and `peripheral_input` have been added to
the GPIO drivers (`Input`, `Output`, `OutputOpenDrain` and `Flex`) instead.
## ETM changes
- The types are no longer prefixed with `GpioEtm`, `TimerEtm` or `SysTimerEtm`. You can still use
import aliasses in case you need to differentiate due to name collisions
(e.g. `use esp_hal::gpio::etm::Event as GpioEtmEvent`).
- The old task and event types have been replaced by `Task` and `Event`.
- GPIO tasks and events are no longer generic.
## Changes to peripheral configuration
### The `uart::config` module has been removed
The module's contents have been moved into `uart`.
```diff
-use esp_hal::uart::config::Config;
+use esp_hal::uart::Config;
```
If you work with multiple configurable peripherals, you may want to import the `uart` module and
refer to the `Config` struct as `uart::Config`.
### SPI drivers can now be configured using `spi::master::Config`
- The old methods to change configuration have been removed.
- The `new` and `new_typed` constructor no longer takes `frequency` and `mode`.
- The default configuration is now:
- bus frequency: 1 MHz
- bit order: MSB first
- mode: SPI mode 0
- There are new constructors (`new_with_config`, `new_typed_with_config`) and a new `apply_config` method to apply custom configuration.
```diff
-use esp_hal::spi::{master::Spi, SpiMode};
+use esp_hal::spi::{master::{Config, Spi}, SpiMode};
-Spi::new(SPI2, 100.kHz(), SpiMode::Mode1);
+Spi::new_with_config(
+ SPI2,
+ Config {
+ frequency: 100.kHz(),
+ mode: SpiMode::Mode0,
+ ..Config::default()
+ },
+)
```
## LCD_CAM changes
### I8080 driver split `set_byte_order()` into `set_8bits_order()` and `set_byte_order()`.
If you were using an 8-bit bus.
```diff
- i8080.set_byte_order(ByteOrder::default());
+ i8080.set_8bits_order(ByteOrder::default());
```
If you were using an 16-bit bus, you don't need to change anything, `set_byte_order()` now works correctly.
If you were sharing the bus between an 8-bit and 16-bit device, you will have to call the corresponding method when
you switch between devices. Be sure to read the documentation of the new methods.
### Mixed mode constructors
It is no longer possible to construct `I8080` or `Camera` with an async-mode DMA channel.
Convert the DMA channel into blocking before passing it to these constructors.
```diff
let lcd_cam = LcdCam::new(peripherals.LCD_CAM);
let channel = ctx
.dma
.channel0
- .configure(false, DmaPriority::Priority0)
- .into_async();
+ .configure(false, DmaPriority::Priority0);
let i8080 = I8080::new(
lcd_cam.lcd,
channel.tx,
pins,
20.MHz(),
Config::default(),
);
```
## `rmt::Channel::transmit` now returns `Result`, `PulseCode` is now `u32`
When trying to send a one-shot transmission will fail if it doesn't end with an end-marker.
```diff
- let mut data = [PulseCode {
- level1: true,
- length1: 200,
- level2: false,
- length2: 50,
- }; 20];
-
- data[data.len() - 2] = PulseCode {
- level1: true,
- length1: 3000,
- level2: false,
- length2: 500,
- };
- data[data.len() - 1] = PulseCode::default();
+ let mut data = [PulseCode::new(true, 200, false, 50); 20];
+ data[data.len() - 2] = PulseCode::new(true, 3000, false, 500);
+ data[data.len() - 1] = PulseCode::empty();
- let transaction = channel.transmit(&data);
+ let transaction = channel.transmit(&data).unwrap();
```
## The `parl_io::NoClkPin` and `no_clk_pin()` have been removed
You can use `gpio::NoPin` instead.
```diff
use esp_hal:: {
- parl_io::no_clk_pin,
+ gpio::NoPin,
}
-parl_io.rx.with_config(&mut rx_pins, no_clk_pin(), BitPackOrder::Msb, Some(0xfff))
+let mut rx_clk_pin = NoPin;
+parl_io.rx.with_config(&mut rx_pins, &mut rx_clk_pin, BitPackOrder::Msb, Some(0xfff))
```
## `get_` prefixes have been removed from functions
In order to better comply with the Rust API Guidelines [getter names convention], we have removed the `get_` prefixes from all functions which previously had it. Due to the number of changes it's not practical to list all changes here, however if a function previous began with `get_`, you can simply remove this prefix.
[getter names convention]: https://rust-lang.github.io/api-guidelines/naming.html#c-getter
## The `get_core()` function has been removed in favour of `Cpu::current()`
```diff
- let core = esp_hal::get_core();
+ let core = esp_hal::Cpu::current();
```

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@ -1,478 +0,0 @@
# Migration Guide from 0.22.x to v1.0.0-beta.0
Starting with this release, unstable parts of esp-hal will be gated behind the `unstable` feature.
The `unstable` feature itself is unstable, we might change the way we hide APIs without notice.
Unstable APIs are not covered by semver guarantees, they may break even between patch releases.
Please refer to the documentation to see which APIs are marked as unstable.
## DMA changes
### Accessing channel objects
DMA channels are now available through the `Peripherals` struct, which is returned
by `esp_hal::init()`. The channels themselves have been renamed to match other peripheral singletons.
- ESP32-C2, C3, C6, H2 and S3: `channelX -> DMA_CHX`
- ESP32 and S2: `spiXchannel -> DMA_SPIX`, `i2sXchannel -> DMA_I2SX`
```diff
-let dma = Dma::new(peripherals.DMA);
-let channel = dma.channel2;
+let channel = peripherals.DMA_CH2;
```
### Channel configuration changes
- `configure_for_async` and `configure` have been removed
- PDMA devices (ESP32, ESP32-S2) provide no channel configurability
- GDMA devices provide `set_priority` to change DMA in/out channel priority
```diff
let mut spi = Spi::new_with_config(
peripherals.SPI2,
Config::default(),
)
// other setup
-.with_dma(dma_channel.configure(false, DmaPriority::Priority0));
+.with_dma(dma_channel);
```
```diff
+dma_channel.set_priority(DmaPriority::Priority1);
let mut spi = Spi::new_with_config(
peripherals.SPI2,
Config::default(),
)
// other setup
-.with_dma(dma_channel.configure(false, DmaPriority::Priority1));
+.with_dma(dma_channel);
```
### Burst mode configuration
Burst mode is now a property of buffers, instead of DMA channels. Configuration can be done by
calling `set_burst_config` on buffers that support it. The configuration options and the
corresponding `BurstConfig` type are device specfic.
### Usability changes affecting applications
Individual channels are no longer wrapped in `Channel`, but they implement the `DmaChannel` trait.
This means that if you want to split them into an `rx` and a `tx` half (which is only supported on
the H2, C6 and S3 currently), you can't move out of the channel but instead you need to call
the `split` method.
```diff
-let tx = channel.tx;
+use esp_hal::dma::DmaChannel;
+let (rx, tx) = channel.split();
```
The `Channel` types remain available for use in peripheral drivers.
It is now simpler to work with DMA channels in generic contexts. esp-hal now provides convenience
traits and type aliasses to specify peripheral compatibility. The `ChannelCreator` types have been
removed, further simplifying use.
For example, previously you may have needed to write something like this to accept a DMA channel
in a generic function:
```rust
fn new_foo<'d, T>(
dma_channel: ChannelCreator<2>, // It wasn't possible to accept a generic ChannelCreator.
peripheral: impl Peripheral<P = T> + 'd,
)
where
T: SomePeripheralInstance,
ChannelCreator<2>: DmaChannelConvert<<T as DmaEligible>::Dma>,
{
let dma_channel = dma_channel.configure_for_async(false, DmaPriority::Priority0);
let driver = PeripheralDriver::new(peripheral, config).with_dma(dma_channel);
// ...
}
```
From now on a similar, but more flexible implementation may look like:
```rust
fn new_foo<'d, T, CH>(
dma_channel: impl Peripheral<P = CH> + 'd,
peripheral: impl Peripheral<P = T> + 'd,
)
where
T: SomePeripheralInstance,
CH: DmaChannelFor<T>,
{
// Optionally: dma_channel.set_priority(DmaPriority::Priority2);
let driver = PeripheralDriver::new(peripheral, config).with_dma(dma_channel);
// ...
}
```
### Usability changes affecting third party peripheral drivers
If you are writing a driver and need to store a channel in a structure, you can use one of the
`ChannelFor` type aliasses.
```diff
struct Aes<'d> {
- channel: ChannelTx<'d, Blocking, <AES as DmaEligible>::Dma>,
+ channel: ChannelTx<'d, Blocking, PeripheralTxChannel<AES>>,
}
```
## Timer changes
The low level timers, `SystemTimer` and `TimerGroup` are now "dumb". They contain no logic for operating modes or trait implementations (except the low level `Timer` trait).
### Timer drivers - `OneShotTimer` & `PeriodicTimer`
Both drivers now have a `Mode` parameter. Both also type erase the underlying driver by default, call `new_typed` to retain the type.
```diff
- OneShotTimer<'static, systimer::Alarm>;
+ OneShotTimer<'static, Blocking>;
- PeriodicTimer<'static, systimer::Alarm>;
+ PeriodicTimer<'static, Blocking>;
```
### SystemTimer
```diff
let systimer = SystemTimer::new(peripherals.SYSTIMER);
- static UNIT0: StaticCell<SpecificUnit<'static, 0>> = StaticCell::new();
- let unit0 = UNIT0.init(systimer.unit0);
- let frozen_unit = FrozenUnit::new(unit0);
- let alarm0 = Alarm::new(systimer.comparator0, &frozen_unit);
- alarm0.set_period(1u32.secs());
+ let alarm0 = systimer.alarm0;
+ let mut timer = PeriodicTimer::new(alarm0);
+ timer.start(1u64.secs());
```
### TIMG
Timer group timers have been type erased.
```diff
- timg::Timer<timg::Timer0<crate::peripherals::TIMG0>, Blocking>
+ timg::Timer
```
### ETM usage has changed
Timer dependant ETM events should be created _prior_ to initializing the timer with the chosen driver.
```diff
let task = ...; // ETM task
let syst = SystemTimer::new(peripherals.SYSTIMER);
let alarm0 = syst.alarm0;
- alarm0.load_value(1u64.millis()).unwrap();
- alarm0.start();
- let event = Event::new(&mut alarm0);
+ let event = Event::new(&alarm0);
+ let timer = OneShotTimer::new(alarm0);
+ timer.schedule(1u64.millis()).unwrap();
let _configured_channel = channel0.setup(&event, &task);
```
## PSRAM is now initialized automatically
Calling `esp_hal::initialize` will now configure PSRAM if either the `quad-psram` or `octal-psram`
is enabled. To retrieve the address and size of the initialized external memory, use
`esp_hal::psram::psram_raw_parts`, which returns a pointer and a length.
```diff
-let peripherals = esp_hal::init(esp_hal::Config::default());
-let (start, size) = esp_hal::psram::init_psram(peripherals.PSRAM, psram_config);
+let peripherals = esp_hal::init({
+ let mut config = esp_hal::Config::default();
+ config.psram = psram_config;
+ config
+});
+let (start, size) = esp_hal::psram::psram_raw_parts(&peripherals.PSRAM, psram);
```
The usage of `esp_alloc::psram_allocator!` remains unchanged.
## embedded-hal 0.2.\* is not supported anymore.
As per https://github.com/rust-embedded/embedded-hal/pull/640, our driver no longer implements traits from `embedded-hal 0.2.x`.
Analogs of all traits from the above mentioned version are available in `embedded-hal 1.x.x`
```diff
- use embedded_hal_02::can::Frame;
+ use embedded_can::Frame;
```
```diff
- use embedded_hal_02::digital::v2::OutputPin;
- use embedded_hal_02::digital::v2::ToggleableOutputPin;
+ use embedded_hal::digital::OutputPin;
+ use embedded_hal::digital::StatefulOutputPin;
```
```diff
- use embedded_hal_02::serial::{Read, Write};
+ use embedded_hal_nb::serial::{Read, Write};
```
You might also want to check the full official `embedded-hal` migration guide:
https://github.com/rust-embedded/embedded-hal/blob/master/docs/migrating-from-0.2-to-1.0.md
## Interrupt related reshuffle
```diff
- use esp_hal::InterruptConfigurable;
- use esp_hal::DEFAULT_INTERRUPT_HANDLER;
+ use esp_hal::interrupt::InterruptConfigurable;
+ use esp_hal::interrupt::DEFAULT_INTERRUPT_HANDLER;
```
## Driver constructors now take a configuration and are fallible
The old `new_with_config` constructor have been removed, and `new` constructors now always take
a configuration structure. They have also been updated to return a `ConfigError` if the configuration
is not compatible with the hardware.
```diff
-let mut spi = Spi::new_with_config(
+let mut spi = Spi::new(
peripherals.SPI2,
Config {
frequency: 100.kHz(),
mode: SpiMode::_0,
..Config::default()
},
-);
+)
+.unwrap();
```
```diff
let mut spi = Spi::new(
peripherals.SPI2,
+ Config::default(),
-);
+)
+.unwrap();
```
## Peripheral instance type parameters and `new_typed` constructors have been removed
Call `new` instead and remove the type parameters if you've used them.
```diff
-let mut spi: Spi<'lt, SPI2> = Spi::new_typed(..).unwrap();
+let mut spi: Spi<'lt> = Spi::new(..).unwrap();
```
## LCD_CAM configuration changes
- `cam` now has a `Config` strurct that contains frequency, bit/byte order, VSync filter options.
- DPI, I8080: `frequency` has been moved into `Config`.
```diff
+let mut cam_config = cam::Config::default();
+cam_config.frequency = 1u32.MHz();
cam::Camera::new(
lcd_cam.cam,
dma_rx_channel,
pins,
- 1u32.MHz(),
+ cam_config,
)
```
## SpiDma now requires you specify the transfer length explicitly
```diff
dma_tx_buf.set_length(5 /* or greater */);
- spi_dma.write(dma_tx_buf);
+ spi_dma.write(5, dma_tx_buf);
```
```diff
dma_rx_buf.set_length(5 /* or greater */);
- spi_dma.read(dma_rx_buf);
+ spi_dma.read(5, dma_rx_buf);
```
```diff
dma_rx_buf.set_length(5 /* or greater */);
dma_tx_buf.set_length(5 /* or greater */);
- spi_dma.transfer(dma_rx_buf, dma_tx_buf);
+ spi_dma.transfer(5, dma_rx_buf, 5, dma_tx_buf);
```
## I2C Error changes
To avoid abbreviations and contractions (as per the esp-hal guidelines), some error variants have changed
```diff
- Error::ExecIncomplete
+ Error::ExecutionIncomplete
- Error::CommandNrExceeded
+ Error::CommandNumberExceeded
- Error::ExceedingFifo
+ Error::FifoExceeded
- Error::TimeOut
+ Error::Timeout
- Error::InvalidZeroLength
+ Error::ZeroLengthInvalid
```
## The crate prelude has been removed
The reexports that were previously part of the prelude are available through other paths:
- `nb` is no longer re-exported. Please import the `nb` crate if you need it.
- `ExtU64` and `RateExtU32` have been moved to `esp_hal::time`
- `Clock` and `CpuClock`: `esp_hal::clock::{Clock, CpuClock}`
- The following traits need to be individually imported when needed:
- `esp_hal::analog::dac::Instance`
- `esp_hal::gpio::Pin`
- `esp_hal::ledc::channel::ChannelHW`
- `esp_hal::ledc::channel::ChannelIFace`
- `esp_hal::ledc::timer::TimerHW`
- `esp_hal::ledc::timer::TimerIFace`
- `esp_hal::timer::timg::TimerGroupInstance`
- `esp_hal::timer::Timer`
- `esp_hal::interrupt::InterruptConfigurable`
- The `entry` macro can be imported as `esp_hal::entry`, while other macros are found under `esp_hal::macros`
## `AtCmdConfig` now uses builder-lite pattern
```diff
- uart0.set_at_cmd(AtCmdConfig::new(None, None, None, b'#', None));
+ uart0.set_at_cmd(AtCmdConfig::default().with_cmd_char(b'#'));
```
## Crate configuration changes
To prevent ambiguity between configurations, we had to change the naming format of configuration
keys. Before, we used `{prefix}_{key}`, which meant that esp-hal and esp-hal-\* configuration keys
were impossible to tell apart. To fix this issue, we are changing the separator from one underscore
character to `_CONFIG_`. This also means that users will have to change their `config.toml`
configurations to match the new format.
```diff
[env]
-ESP_HAL_PLACE_SPI_DRIVER_IN_RAM="true"
+ESP_HAL_CONFIG_PLACE_SPI_DRIVER_IN_RAM="true"
```
## UART changes
The `Config` struct's setters are now prefixed with `with_`. `parity_none`, `parity_even`,
`parity_odd` have been replaced by `with_parity` that takes a `Parity` parameter.
```diff
let config = Config::default()
- .rx_fifo_full_threshold(30)
+ .with_rx_fifo_full_threshold(30)
- .parity_even();
+ .with_parity(Parity::Even);
```
The `DataBits`, `Parity`, and `StopBits` enum variants are no longer prefixed with the name of the enum.
e.g.
```diff
- DataBits::DataBits8
+ DataBits::_8
- Parity::ParityNone
+ Parity::None
- StopBits::Stop1
+ StopBits::_1
```
The previous blocking implementation of `read_bytes` has been removed, and the non-blocking `drain_fifo` has instead been renamed to `read_bytes` in its place.
Any code which was previously using `read_bytes` to fill a buffer in a blocking manner will now need to implement the necessary logic to block until the buffer is filled in their application instead.
The `Error` enum variant uses object+verb naming.
e.g.
```diff
- RxGlichDetected
+ GlitchOccurred
```
RX/TX pin assignment moved from constructors to builder functions.
e.g.
```diff
let mut uart1 = Uart::new(
peripherals.UART1,
- Config::default(),
- peripherals.GPIO1,
- peripherals.GPIO2,
- ).unwrap();
+ Config::default())
+ .unwrap()
+ .with_rx(peripherals.GPIO1)
+ .with_tx(peripherals.GPIO2);
```
## Spi `with_miso` has been split
Previously, `with_miso` set up the provided pin as an input and output, which was necessary for half duplex.
Full duplex does not require this, and it also creates an artificial restriction.
If you were using half duplex SPI with `with_miso`,
you should now use `with_sio1` instead to get the previous behavior.
## CPU Clocks
The specific CPU clock variants are renamed from e.g. `Clock80MHz` to `_80MHz`.
```diff
- CpuClock::Clock80MHz
+ CpuClock::_80MHz
```
Additionally the enum is marked as non-exhaustive.
## SPI Changes
The SPI mode variants are renamed from e.g. `Mode0` to `_0`.
```diff
- Mode::Mode0
+ Mode::_0
```
The Address and Command enums have similarly had their variants changed from e.g. `Address1` to `_1Bit` and `Command1` to `_1Bit` respectively:
```diff
- Address::Address1
+ Address::_1Bit
- Command::Command1
+ Command::_1Bit
```
## GPIO Changes
The GPIO drive strength variants are renamed from e.g. `I5mA` to `_5mA`.
```diff
-DriveStrength::I5mA
+DriveStrength::_5mA
```
## ADC Changes
The ADC attenuation variants are renamed from e.g. `Attenuation0dB` to `_0dB`.
```diff
-Attenuation::Attenuation0dB
+Attenuation::_0dB
```

8
esp-hal/README.md
View File

@ -2,7 +2,7 @@
[![Crates.io](https://img.shields.io/crates/v/esp-hal?labelColor=1C2C2E&color=C96329&logo=Rust&style=flat-square)](https://crates.io/crates/esp-hal)
[![docs.rs](https://img.shields.io/docsrs/esp-hal?labelColor=1C2C2E&color=C96329&logo=rust&style=flat-square)](https://docs.esp-rs.org/esp-hal)
![MSRV](https://img.shields.io/badge/MSRV-1.83-blue?labelColor=1C2C2E&style=flat-square)
![MSRV](https://img.shields.io/badge/MSRV-1.76-blue?labelColor=1C2C2E&style=flat-square)
![Crates.io](https://img.shields.io/crates/l/esp-hal?labelColor=1C2C2E&style=flat-square)
[![Matrix](https://img.shields.io/matrix/esp-rs:matrix.org?label=join%20matrix&labelColor=1C2C2E&color=BEC5C9&logo=matrix&style=flat-square)](https://matrix.to/#/#esp-rs:matrix.org)
@ -46,13 +46,9 @@ For help getting started with this HAL, please refer to [The Rust on ESP Book] a
[s2-trm]: https://www.espressif.com/sites/default/files/documentation/esp32-s2_technical_reference_manual_en.pdf
[s3-trm]: https://www.espressif.com/sites/default/files/documentation/esp32-s3_technical_reference_manual_en.pdf
## `unstable` feature
The stable feature set is designed to remain consistent and reliable. Other parts guarded by the `unstable` feature, however, are still under active development and may undergo breaking changes and are disabled by default.
## Minimum Supported Rust Version (MSRV)
This crate is guaranteed to compile on stable Rust 1.83 and up. It _might_
This crate is guaranteed to compile on stable Rust 1.76 and up. It _might_
compile with older versions but that may change in any new patch release.
## License

83
esp-hal/build.rs
View File

@ -8,17 +8,18 @@ use std::{
};
use esp_build::assert_unique_used_features;
use esp_config::{generate_config, Value};
use esp_metadata::{Chip, Config};
fn main() -> Result<(), Box<dyn Error>> {
println!("cargo:rustc-check-cfg=cfg(is_debug_build)");
if let Ok(level) = std::env::var("OPT_LEVEL") {
if level == "0" || level == "1" {
println!("cargo:rustc-cfg=is_debug_build");
}
}
#[cfg(debug_assertions)]
esp_build::warning! {"
WARNING: use --release
We *strongly* recommend using release profile when building esp-hal.
The dev profile can potentially be one or more orders of magnitude
slower than release, and may cause issues with timing-senstive
peripherals and/or devices.
"}
fn main() -> Result<(), Box<dyn Error>> {
// NOTE: update when adding new device support!
// Ensure that exactly one chip has been specified:
assert_unique_used_features!(
@ -56,67 +57,27 @@ fn main() -> Result<(), Box<dyn Error>> {
let config = Config::for_chip(&chip);
// Check PSRAM features are only given if the target supports PSRAM:
if !config.contains(&String::from("psram")) && cfg!(feature = "quad-psram") {
if !config.contains(&String::from("psram"))
&& (cfg!(feature = "psram-2m") || cfg!(feature = "psram-4m") || cfg!(feature = "psram-8m"))
{
panic!("The target does not support PSRAM");
}
if !config.contains(&String::from("octal_psram")) && cfg!(feature = "octal-psram") {
panic!("The target does not support Octal PSRAM");
}
// Define all necessary configuration symbols for the configured device:
config.define_symbols();
// Place all linker scripts in `OUT_DIR`, and instruct Cargo how to find these
// files:
let out = PathBuf::from(env::var_os("OUT_DIR").unwrap());
println!("cargo:rustc-link-search={}", out.display());
// emit config
let cfg = generate_config(
"esp_hal",
&[
(
"place-spi-driver-in-ram",
"Places the SPI driver in RAM for better performance",
Value::Bool(false),
None
),
(
"spi-address-workaround",
"(ESP32 only) Enables a workaround for the issue where SPI in half-duplex mode incorrectly transmits the address on a single line if the data buffer is empty.",
Value::Bool(true),
None
),
(
"place-switch-tables-in-ram",
"Places switch-tables, some lookup tables and constants related to interrupt handling into RAM - resulting in better performance but slightly more RAM consumption.",
Value::Bool(true),
None
),
(
"place-anon-in-ram",
"Places anonymous symbols into RAM - resulting in better performance at the cost of significant more RAM consumption. Best to be combined with `place-switch-tables-in-ram`.",
Value::Bool(false),
None
),
],
true,
);
// RISC-V and Xtensa devices each require some special handling and processing
// of linker scripts:
#[allow(unused_mut)]
let mut config_symbols = config.all().collect::<Vec<_>>();
#[cfg(feature = "flip-link")]
config_symbols.push("flip-link");
for (key, value) in &cfg {
if let Value::Bool(true) = value {
config_symbols.push(key);
}
}
// Place all linker scripts in `OUT_DIR`, and instruct Cargo how to find these
// files:
let out = PathBuf::from(env::var_os("OUT_DIR").unwrap());
println!("cargo:rustc-link-search={}", out.display());
// RISC-V and Xtensa devices each require some special handling and processing
// of linker scripts:
if cfg!(feature = "esp32") || cfg!(feature = "esp32s2") || cfg!(feature = "esp32s3") {
// Xtensa devices:
@ -253,7 +214,11 @@ fn generate_memory_extras() -> Vec<u8> {
#[cfg(feature = "esp32s2")]
fn generate_memory_extras() -> Vec<u8> {
let reserved_cache = if cfg!(feature = "quad-psram") {
let reserved_cache = if cfg!(any(
feature = "psram-2m",
feature = "psram-4m",
feature = "psram-8m"
)) {
"0x4000"
} else {
"0x2000"

8
esp-hal/ld/README.md
View File

@ -1,8 +0,0 @@
# ROM functions
Files in the `rom` subdirectories are taken from esp-idf
- DON'T include any `*newlib*` functions
- systimer, wdt and mbedtls shouldn't be included
- make sure to align the version you take the files from with esp-wifi-sys - NEVER randomly sync the files with other versions
- some additional functions are needed from ROM - see `additional.ld` (these are usually defined in the `*newlib*` files)

12
esp-hal/ld/esp32/esp32.x
View File

@ -19,16 +19,22 @@ INCLUDE "fixups/rtc_fast_rwdata_dummy.x"
/* END ESP32 fixups */
/* Shared sections - ordering matters */
INCLUDE "rwtext.x"
INCLUDE "text.x"
INCLUDE "rwdata.x"
INCLUDE "rodata.x"
INCLUDE "rwtext.x"
INCLUDE "rwdata.x"
INCLUDE "rtc_fast.x"
INCLUDE "rtc_slow.x"
INCLUDE "stack.x"
INCLUDE "dram2.x"
/* End of Shared sections */
/* an uninitialized section for use as the wifi-heap in esp-wifi */
SECTIONS {
.dram2_uninit (NOLOAD) : ALIGN(4) {
*(.dram2_uninit)
} > dram2_seg
}
EXTERN(DefaultHandler);
EXTERN(WIFI_EVENT); /* Force inclusion of WiFi libraries */

41
esp-hal/ld/esp32/rom-functions.x
View File

@ -1,9 +1,34 @@
INCLUDE "rom/esp32.rom.api.ld"
INCLUDE "rom/esp32.rom.eco3.ld"
INCLUDE "rom/esp32.rom.ld"
INCLUDE "rom/esp32.rom.libgcc.ld"
INCLUDE "rom/esp32.rom.redefined.ld"
INCLUDE "rom/esp32.rom.spiflash_legacy.ld"
INCLUDE "rom/esp32.rom.syscalls.ld"
PROVIDE(ets_delay_us = 0x40008534);
PROVIDE(ets_update_cpu_frequency_rom = 0x40008550);
PROVIDE(rom_i2c_writeReg = 0x400041a4);
PROVIDE(rom_i2c_writeReg_Mask = 0x400041fc);
PROVIDE(rtc_get_reset_reason = 0x400081d4);
PROVIDE(software_reset = 0x4000824c);
PROVIDE(software_reset_cpu = 0x40008264);
INCLUDE "rom/additional.ld"
PROVIDE ( ets_efuse_get_spiconfig = 0x40008658 );
PROVIDE ( esp_rom_efuse_get_flash_gpio_info = ets_efuse_get_spiconfig );
PROVIDE ( esp_rom_gpio_connect_out_signal = gpio_matrix_out );
PROVIDE ( gpio_matrix_out = 0x40009f0c );
PROVIDE ( gpio_matrix_in = 0x40009edc );
PROVIDE ( esp_rom_gpio_connect_in_signal = gpio_matrix_in );
PROVIDE ( esp_rom_spiflash_config_clk = 0x40062bc8 );
PROVIDE ( g_rom_spiflash_dummy_len_plus = 0x3ffae290 );
PROVIDE ( g_rom_flashchip = 0x3ffae270 );
PROVIDE ( cache_sram_mmu_set_rom = 0x400097f4 );
PROVIDE (esp_rom_crc32_be = 0x4005d024);
PROVIDE (esp_rom_crc16_be = 0x4005d09c);
PROVIDE (esp_rom_crc8_be = 0x4005d114);
PROVIDE (esp_rom_crc32_le = 0x4005cfec);
PROVIDE (esp_rom_crc16_le = 0x4005d05c);
PROVIDE (esp_rom_crc8_le = 0x4005d0e0);
PROVIDE (esp_rom_md5_init = 0x4005da7c);
PROVIDE (esp_rom_md5_update = 0x4005da9c);
PROVIDE (esp_rom_md5_final = 0x4005db1c);
memcmp = 0x4000c260;
memcpy = 0x4000c2c8;
memmove = 0x4000c3c0;
memset = 0x4000c44c;

20
esp-hal/ld/esp32/rom/additional.ld
View File

@ -1,20 +0,0 @@
memcmp = 0x4000c260;
memcpy = 0x4000c2c8;
memmove = 0x4000c3c0;
memset = 0x4000c44c;
PROVIDE ( strcpy = 0x400013ac );
PROVIDE ( abs = 0x40056340 );
PROVIDE ( strncpy = 0x400015d4 );
PROVIDE ( strncmp = 0x4000c5f4 );
PROVIDE ( bzero = 0x4000c1f4 );
PROVIDE ( strcat = 0x4000c518 );
PROVIDE ( strcmp = 0x40001274 );
PROVIDE ( strchr = 0x4000c53c );
PROVIDE ( strlcpy = 0x4000c584 );
PROVIDE ( strstr = 0x4000c674 );
PROVIDE ( strcasecmp = 0x400011cc );
PROVIDE ( memchr = 0x4000c244 );

62
esp-hal/ld/esp32/rom/esp32.rom.api.ld
View File

@ -1,62 +0,0 @@
/**
* ROM APIs
*/
PROVIDE ( esp_rom_crc32_le = crc32_le );
PROVIDE ( esp_rom_crc16_le = crc16_le );
PROVIDE ( esp_rom_crc8_le = crc8_le );
PROVIDE ( esp_rom_crc32_be = crc32_be );
PROVIDE ( esp_rom_crc16_be = crc16_be );
PROVIDE ( esp_rom_crc8_be = crc8_be );
PROVIDE ( esp_rom_gpio_pad_select_gpio = gpio_pad_select_gpio );
PROVIDE ( esp_rom_gpio_pad_pullup_only = gpio_pad_pullup );
PROVIDE ( esp_rom_gpio_pad_set_drv = gpio_pad_set_drv );
PROVIDE ( esp_rom_gpio_pad_unhold = gpio_pad_unhold );
PROVIDE ( esp_rom_gpio_connect_in_signal = gpio_matrix_in );
PROVIDE ( esp_rom_gpio_connect_out_signal = gpio_matrix_out );
PROVIDE ( esp_rom_efuse_mac_address_crc8 = esp_crc8 );
PROVIDE ( esp_rom_efuse_get_flash_gpio_info = ets_efuse_get_spiconfig );
PROVIDE ( esp_rom_efuse_is_secure_boot_enabled = ets_efuse_secure_boot_enabled );
PROVIDE ( esp_rom_uart_flush_tx = uart_tx_flush );
PROVIDE ( esp_rom_uart_tx_one_char = uart_tx_one_char );
PROVIDE ( esp_rom_uart_tx_wait_idle = uart_tx_wait_idle );
PROVIDE ( esp_rom_uart_rx_one_char = uart_rx_one_char );
PROVIDE ( esp_rom_uart_rx_string = UartRxString );
PROVIDE ( esp_rom_uart_set_as_console = uart_tx_switch );
PROVIDE ( esp_rom_uart_putc = ets_write_char_uart );
PROVIDE ( esp_rom_uart_switch_buffer = uart_buff_switch );
PROVIDE ( esp_rom_output_flush_tx = uart_tx_flush );
PROVIDE ( esp_rom_output_tx_one_char = uart_tx_one_char );
PROVIDE ( esp_rom_output_tx_wait_idle = uart_tx_wait_idle );
PROVIDE ( esp_rom_output_rx_one_char = uart_rx_one_char );
PROVIDE ( esp_rom_output_rx_string = UartRxString );
PROVIDE ( esp_rom_output_set_as_console = uart_tx_switch );
PROVIDE ( esp_rom_output_putc = ets_write_char_uart );
PROVIDE ( esp_rom_output_switch_buffer = uart_buff_switch );
/* wpa_supplicant re-implements the MD5 functions: MD5Init, MD5Update, MD5Final */
/* so here we directly assign the symbols with the ROM API address */
PROVIDE ( esp_rom_md5_init = 0x4005da7c );
PROVIDE ( esp_rom_md5_update = 0x4005da9c );
PROVIDE ( esp_rom_md5_final = 0x4005db1c );
PROVIDE ( esp_rom_software_reset_system = software_reset );
PROVIDE ( esp_rom_software_reset_cpu = software_reset_cpu );
PROVIDE ( esp_rom_printf = ets_printf );
PROVIDE ( esp_rom_delay_us = ets_delay_us );
PROVIDE ( esp_rom_install_uart_printf = ets_install_uart_printf );
PROVIDE ( esp_rom_get_reset_reason = rtc_get_reset_reason );
PROVIDE ( esp_rom_route_intr_matrix = intr_matrix_set );
PROVIDE ( esp_rom_get_cpu_ticks_per_us = ets_get_cpu_frequency );
PROVIDE ( esp_rom_spiflash_set_bp = esp_rom_spiflash_lock );
PROVIDE ( esp_rom_spiflash_write_enable = SPI_write_enable);
PROVIDE ( esp_rom_regi2c_read = rom_i2c_readReg );
PROVIDE ( esp_rom_regi2c_read_mask = rom_i2c_readReg_Mask );
PROVIDE ( esp_rom_regi2c_write = rom_i2c_writeReg );
PROVIDE ( esp_rom_regi2c_write_mask = rom_i2c_writeReg_Mask );

10
esp-hal/ld/esp32/rom/esp32.rom.eco3.ld
View File

@ -1,10 +0,0 @@
/*
ESP32 ECO3 ROM address table
Secure Boot Version 2 API's imported from the ROM
*/
PROVIDE ( ets_secure_boot_verify_signature = 0x4006543c);
PROVIDE ( ets_secure_boot_verify_boot_bootloader = 0x400655ec);
PROVIDE ( ets_use_secure_boot_v2 = 0x4000f8d4);
PROVIDE ( ets_rsa_pss_verify = 0x40065310);
PROVIDE ( ets_mgf1_sha256 = 0x400651a8);
PROVIDE ( ets_emsa_pss_verify = 0x4006520c);

1635
esp-hal/ld/esp32/rom/esp32.rom.ld
View File

File diff suppressed because it is too large Load Diff

94
esp-hal/ld/esp32/rom/esp32.rom.libgcc.ld
View File

@ -1,94 +0,0 @@
/* Unlike other ROM functions which are exported using PROVIDE, which declares
weak symbols, these libgcc functions are exported using assignment,
which declares strong symbols. This is done so that ROM functions are always
used instead of the ones provided by libgcc.a.
*/
__absvdi2 = 0x4006387c;
__absvsi2 = 0x40063868;
__adddf3 = 0x40002590;
__addsf3 = 0x400020e8;
__addvdi3 = 0x40002cbc;
__addvsi3 = 0x40002c98;
__ashldi3 = 0x4000c818;
__ashrdi3 = 0x4000c830;
__bswapdi2 = 0x40064b08;
__bswapsi2 = 0x40064ae0;
__clrsbdi2 = 0x40064b7c;
__clrsbsi2 = 0x40064b64;
__clzdi2 = 0x4000ca50;
__clzsi2 = 0x4000c7e8;
__cmpdi2 = 0x40063820;
__ctzdi2 = 0x4000ca64;
__ctzsi2 = 0x4000c7f0;
__divdc3 = 0x400645a4;
__divdf3 = 0x40002954;
__divdi3 = 0x4000ca84;
__divsi3 = 0x4000c7b8;
__eqdf2 = 0x400636a8;
__eqsf2 = 0x40063374;
__extendsfdf2 = 0x40002c34;
__ffsdi2 = 0x4000ca2c;
__ffssi2 = 0x4000c804;
__fixdfdi = 0x40002ac4;
__fixdfsi = 0x40002a78;
__fixsfdi = 0x4000244c;
__fixsfsi = 0x4000240c;
__fixunsdfsi = 0x40002b30;
__fixunssfdi = 0x40002504;
__fixunssfsi = 0x400024ac;
__floatdidf = 0x4000c988;
__floatdisf = 0x4000c8c0;
__floatsidf = 0x4000c944;
__floatsisf = 0x4000c870;
__floatundidf = 0x4000c978;
__floatundisf = 0x4000c8b0;
__floatunsidf = 0x4000c938;
__floatunsisf = 0x4000c864;
__gcc_bcmp = 0x40064a70;
__gedf2 = 0x40063768;
__gesf2 = 0x4006340c;
__gtdf2 = 0x400636dc;
__gtsf2 = 0x400633a0;
__ledf2 = 0x40063704;
__lesf2 = 0x400633c0;
__lshrdi3 = 0x4000c84c;
__ltdf2 = 0x40063790;
__ltsf2 = 0x4006342c;
__moddi3 = 0x4000cd4c;
__modsi3 = 0x4000c7c0;
__muldc3 = 0x40063c90;
__muldf3 = 0x4006358c;
__muldi3 = 0x4000c9fc;
__mulsf3 = 0x400632c8;
__mulsi3 = 0x4000c7b0;
__mulvdi3 = 0x40002d78;
__mulvsi3 = 0x40002d60;
__nedf2 = 0x400636a8;
__negdf2 = 0x400634a0;
__negdi2 = 0x4000ca14;
__negsf2 = 0x400020c0;
__negvdi2 = 0x40002e98;
__negvsi2 = 0x40002e78;
__nesf2 = 0x40063374;
__nsau_data = 0x3ff96544;
__paritysi2 = 0x40002f3c;
__popcount_tab = 0x3ff96544;
__popcountdi2 = 0x40002ef8;
__popcountsi2 = 0x40002ed0;
__powidf2 = 0x400638e4;
__subdf3 = 0x400026e4;
__subsf3 = 0x400021d0;
__subvdi3 = 0x40002d20;
__subvsi3 = 0x40002cf8;
__truncdfsf2 = 0x40002b90;
__ucmpdi2 = 0x40063840;
__udiv_w_sdiv = 0x40064bec;
__udivdi3 = 0x4000cff8;
__udivmoddi4 = 0x40064bf4;
__udivsi3 = 0x4000c7c8;
__umoddi3 = 0x4000d280;
__umodsi3 = 0x4000c7d0;
__umulsidi3 = 0x4000c7d8;
__unorddf2 = 0x400637f4;
__unordsf2 = 0x40063478;

38
esp-hal/ld/esp32/rom/esp32.rom.redefined.ld
View File

@ -1,38 +0,0 @@
/*
ROM Functions defined in this file are not used in ESP-IDF as is,
and different definitions for functions with the same names are provided.
This file is not used when linking ESP-IDF and is intended for reference only
*/
PROVIDE ( abort = 0x4000bba4 );
PROVIDE ( aes_128_cbc_decrypt = 0x4005cc7c );
PROVIDE ( aes_128_cbc_encrypt = 0x4005cc18 );
PROVIDE ( aes_unwrap = 0x4005ccf0 );
PROVIDE ( base64_decode = 0x4005ced8 );
PROVIDE ( base64_encode = 0x4005cdbc );
PROVIDE ( ets_isr_mask = 0x400067fc );
PROVIDE ( ets_isr_unmask = 0x40006808 );
PROVIDE ( ets_timer_arm = 0x40008368 );
PROVIDE ( ets_timer_arm_us = 0x400083ac );
PROVIDE ( ets_timer_disarm = 0x400083ec );
PROVIDE ( ets_timer_done = 0x40008428 );
PROVIDE ( ets_timer_init = 0x400084e8 );
PROVIDE ( ets_timer_handler_isr = 0x40008454 );
PROVIDE ( ets_timer_setfn = 0x40008350 );
PROVIDE ( hmac_md5 = 0x4005d264 );
PROVIDE ( hmac_md5_vector = 0x4005d17c );
PROVIDE ( hmac_sha1 = 0x40060acc );
PROVIDE ( hmac_sha1_vector = 0x400609e4 );
PROVIDE ( hmac_sha256 = 0x40060d58 );
PROVIDE ( hmac_sha256_vector = 0x40060c84 );
PROVIDE ( MD5Final = 0x4005db1c );
PROVIDE ( MD5Init = 0x4005da7c );
PROVIDE ( MD5Update = 0x4005da9c );
PROVIDE ( md5_vector = 0x4005db80 );
PROVIDE ( pbkdf2_sha1 = 0x40060ba4 );
PROVIDE ( rc4_skip = 0x40060928 );
PROVIDE ( sha1_prf = 0x40060ae8 );
PROVIDE ( sha1_vector = 0x40060b64 );
PROVIDE ( sha256_prf = 0x40060d70 );
PROVIDE ( sha256_vector = 0x40060e08 );
PROVIDE ( uart_tx_wait_idle = 0x40009278 );

29
esp-hal/ld/esp32/rom/esp32.rom.spiflash_legacy.ld
View File

@ -1,29 +0,0 @@
/*
* SPDX-FileCopyrightText: 2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
/*
Address table for SPI driver functions in ESP32 ROM.
These functions are only linked from ROM when SPI_FLASH_ROM_DRIVER_PATCH is not set in configuration.
*/
PROVIDE ( esp_rom_spiflash_write_encrypted = 0x40062e78 );
PROVIDE ( esp_rom_spiflash_erase_area = 0x400631ac );
PROVIDE ( esp_rom_spiflash_erase_block = 0x40062c4c );
PROVIDE ( esp_rom_spiflash_erase_chip = 0x40062c14 );
PROVIDE ( esp_rom_spiflash_erase_sector = 0x40062ccc );
PROVIDE ( esp_rom_spiflash_attach = 0x40062a6c );
PROVIDE ( esp_rom_spiflash_lock = 0x400628f0 );
PROVIDE ( esp_rom_spiflash_read = 0x40062ed8 );
PROVIDE ( esp_rom_spiflash_config_readmode = 0x40062b64 ); /* SPIMasterReadModeCnfig */
PROVIDE ( esp_rom_spiflash_read_status = 0x4006226c );
PROVIDE ( esp_rom_spiflash_read_statushigh = 0x40062448 );
PROVIDE ( esp_rom_spiflash_write = 0x40062d50 );
PROVIDE ( esp_rom_spiflash_enable_write = 0x40062320 );
PROVIDE ( esp_rom_spiflash_write_status = 0x400622f0 );
/* always using patched versions of these functions
PROVIDE ( esp_rom_spiflash_wait_idle = 0x400622c0 );
PROVIDE ( esp_rom_spiflash_unlock = 0x400????? );
*/

66
esp-hal/ld/esp32/rom/esp32.rom.syscalls.ld
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@ -1,66 +0,0 @@
/* These ROM functions call respective entries in the syscall table.
They are called by other ROM functions (mostly from newlib).
We don't link to them directly, since in IDF there are actual
implementations of these functions, with same names.
I.e.:
times (in ROM) -> _times_r (in ROM) -> syscall table entry _times_r -> _times_r (in IDF)
Hence the following entries are provided only for reference
and commented out.
*/
/* <--- the following lines are commented out
PROVIDE ( calloc = 0x4000bee4 );
PROVIDE ( free = 0x4000beb8 );
PROVIDE ( _free_r = 0x4000bbcc );
PROVIDE ( _getpid_r = 0x4000bcfc );
PROVIDE ( __getreent = 0x4000be8c );
PROVIDE ( _gettimeofday_r = 0x4000bc58 );
PROVIDE ( _kill_r = 0x4000bd10 );
PROVIDE ( _lock_acquire = 0x4000be14 );
PROVIDE ( _lock_acquire_recursive = 0x4000be28 );
PROVIDE ( _lock_close = 0x4000bdec );
PROVIDE ( _lock_close_recursive = 0x4000be00 );
PROVIDE ( _lock_init = 0x4000bdc4 );
PROVIDE ( _lock_init_recursive = 0x4000bdd8 );
PROVIDE ( _lock_release = 0x4000be64 );
PROVIDE ( _lock_release_recursive = 0x4000be78 );
PROVIDE ( _lock_try_acquire = 0x4000be3c );
PROVIDE ( _lock_try_acquire_recursive = 0x4000be50 );
PROVIDE ( malloc = 0x4000bea0 );
PROVIDE ( _malloc_r = 0x4000bbb4 );
PROVIDE ( _raise_r = 0x4000bc70 );
PROVIDE ( realloc = 0x4000becc );
PROVIDE ( _realloc_r = 0x4000bbe0 );
PROVIDE ( _sbrk_r = 0x4000bce4 );
PROVIDE ( _system_r = 0x4000bc10 );
PROVIDE ( _times_r = 0x4000bc40 );
PROVIDE ( _close_r = 0x4000bd3c );
PROVIDE ( _exit_r = 0x4000bd28 );
PROVIDE ( _fstat_r = 0x4000bccc );
PROVIDE ( _link_r = 0x4000bc9c );
PROVIDE ( _lseek_r = 0x4000bd8c );
PROVIDE ( _open_r = 0x4000bd54 );
PROVIDE ( _read_r = 0x4000bda8 );
PROVIDE ( _rename_r = 0x4000bc28 );
PROVIDE ( _unlink_r = 0x4000bc84 );
PROVIDE ( _write_r = 0x4000bd70 );
---> end commented out block
*/
/* These are the non-reentrant versions of syscalls present in the ROM.
They call the reentrant versions, passing the pointer returned by __getreent
as the first argument.
*/
close = 0x40001778;
open = 0x4000178c;
read = 0x400017dc;
sbrk = 0x400017f4;
times = 0x40001808;
write = 0x4000181c;

5
esp-hal/ld/esp32c2/esp32c2.x
View File

@ -80,12 +80,11 @@ PROVIDE(__global_pointer$ = _data_start + 0x800);
/* end of esp32c2 fixups */
/* Shared sections - ordering matters */
INCLUDE "rwtext.x"
INCLUDE "text.x"
INCLUDE "rwdata.x"
INCLUDE "rodata.x"
INCLUDE "rwtext.x"
INCLUDE "rwdata.x"
INCLUDE "stack.x"
INCLUDE "dram2.x"
/* End of Shared sections */
INCLUDE "debug.x"

10
esp-hal/ld/esp32c2/memory.x
View File

@ -12,14 +12,12 @@ MEMORY
[0x4037C000, 0x403C0000, "IRAM"]]
*/
ICACHE : ORIGIN = 0x4037C000, LENGTH = 16K
/* 272K of on soc RAM, 16K reserved for cache */
ICACHE : ORIGIN = 0x4037C000, LENGTH = 16K
/* Instruction RAM */
IRAM : ORIGIN = 0x4037C000 + LENGTH(ICACHE), LENGTH = 186k
IRAM : ORIGIN = 0x4037C000 + 16K, LENGTH = 272K - 16K
/* Data RAM */
DRAM : ORIGIN = 0x3FCA0000, LENGTH = 186k
/* memory available after the 2nd stage bootloader is finished */
dram2_seg ( RW ) : ORIGIN = ORIGIN(DRAM) + LENGTH(DRAM), len = 0x3fcdeb70 - (ORIGIN(DRAM) + LENGTH(DRAM))
DRAM : ORIGIN = 0x3FCA0000, LENGTH = 0x30000
/* External flash */
/* Instruction ROM */

29
esp-hal/ld/esp32c2/rom-functions.x
View File

@ -1,8 +1,23 @@
INCLUDE "rom/esp32c2.rom.api.ld"
INCLUDE "rom/esp32c2.rom.heap.ld"
INCLUDE "rom/esp32c2.rom.ld"
INCLUDE "rom/esp32c2.rom.libgcc.ld"
INCLUDE "rom/esp32c2.rom.rvfp.ld"
INCLUDE "rom/esp32c2.rom.version.ld"
PROVIDE(ets_delay_us = 0x40000044);
PROVIDE(ets_update_cpu_frequency_rom = 0x40000774);
PROVIDE(rom_i2c_writeReg = 0x400022f4);
PROVIDE(rom_i2c_writeReg_Mask = 0x400022fc);
PROVIDE(rtc_get_reset_reason = 0x40000018);
PROVIDE(software_reset = 0x40000088);
PROVIDE(software_reset_cpu = 0x4000008c);
INCLUDE "rom/additional.ld"
PROVIDE(esp_rom_crc32_be = 0x40000808);
PROVIDE(esp_rom_crc16_be = 0x4000080c);
PROVIDE(esp_rom_crc8_be = 0x40000810);
PROVIDE(esp_rom_crc32_le = 0x400007fc);
PROVIDE(esp_rom_crc16_le = 0x40000800);
PROVIDE(esp_rom_crc8_le = 0x40000804);
PROVIDE(esp_rom_mbedtls_md5_starts_ret = 0x40002be4);
PROVIDE(esp_rom_mbedtls_md5_update_ret = 0x40002be8);
PROVIDE(esp_rom_mbedtls_md5_finish_ret = 0x40002bec);
memset = 0x40000488;
memcpy = 0x4000048c;
memmove = 0x40000490;
memcmp = 0x40000494;

15
esp-hal/ld/esp32c2/rom/additional.ld
View File

@ -1,15 +0,0 @@
memset = 0x40000488;
memcpy = 0x4000048c;
memmove = 0x40000490;
memcmp = 0x40000494;
strcpy = 0x40000498;
strncpy = 0x4000049c;
strncmp = 0x400004a4;
PROVIDE ( strcat = 0x4000050c );
PROVIDE ( strcmp = 0x400004a0 );
PROVIDE ( strchr = 0x40000514 );
PROVIDE ( strlcpy = 0x40000524 );
PROVIDE ( strstr = 0x400004ac );
PROVIDE ( strcasecmp = 0x40000504 );

69
esp-hal/ld/esp32c2/rom/esp32c2.rom.api.ld
View File

@ -1,69 +0,0 @@
/*
* SPDX-FileCopyrightText: 2021-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
/** ROM APIs
*/
PROVIDE ( esp_rom_crc32_le = crc32_le );
PROVIDE ( esp_rom_crc16_le = crc16_le );
PROVIDE ( esp_rom_crc8_le = crc8_le );
PROVIDE ( esp_rom_crc32_be = crc32_be );
PROVIDE ( esp_rom_crc16_be = crc16_be );
PROVIDE ( esp_rom_crc8_be = crc8_be );
PROVIDE ( esp_rom_gpio_pad_select_gpio = gpio_pad_select_gpio );
PROVIDE ( esp_rom_gpio_pad_pullup_only = gpio_pad_pullup );
PROVIDE ( esp_rom_gpio_pad_set_drv = gpio_pad_set_drv );
PROVIDE ( esp_rom_gpio_pad_unhold = gpio_pad_unhold );
PROVIDE ( esp_rom_gpio_connect_in_signal = gpio_matrix_in );
PROVIDE ( esp_rom_gpio_connect_out_signal = gpio_matrix_out );
PROVIDE ( esp_rom_efuse_mac_address_crc8 = esp_crc8 );
PROVIDE ( esp_rom_efuse_is_secure_boot_enabled = ets_efuse_secure_boot_enabled );
PROVIDE ( esp_rom_uart_flush_tx = uart_tx_flush );
PROVIDE ( esp_rom_uart_tx_one_char = uart_tx_one_char );
PROVIDE ( esp_rom_uart_tx_wait_idle = uart_tx_wait_idle );
PROVIDE ( esp_rom_uart_rx_one_char = uart_rx_one_char );
PROVIDE ( esp_rom_uart_rx_string = UartRxString );
PROVIDE ( esp_rom_uart_set_as_console = uart_tx_switch );
PROVIDE ( esp_rom_uart_putc = ets_write_char_uart );
PROVIDE ( esp_rom_output_flush_tx = uart_tx_flush );
PROVIDE ( esp_rom_output_tx_one_char = uart_tx_one_char );
PROVIDE ( esp_rom_output_tx_wait_idle = uart_tx_wait_idle );
PROVIDE ( esp_rom_output_rx_one_char = uart_rx_one_char );
PROVIDE ( esp_rom_output_rx_string = UartRxString );
PROVIDE ( esp_rom_output_set_as_console = uart_tx_switch );
PROVIDE ( esp_rom_output_putc = ets_write_char_uart );
PROVIDE ( esp_rom_mbedtls_md5_starts_ret = mbedtls_md5_starts_ret );
PROVIDE ( esp_rom_mbedtls_md5_update_ret = mbedtls_md5_update_ret );
PROVIDE ( esp_rom_mbedtls_md5_finish_ret = mbedtls_md5_finish_ret );
PROVIDE ( esp_rom_software_reset_system = software_reset );
PROVIDE ( esp_rom_software_reset_cpu = software_reset_cpu );
PROVIDE ( esp_rom_printf = ets_printf );
PROVIDE ( esp_rom_install_uart_printf = ets_install_uart_printf );
PROVIDE ( esp_rom_delay_us = ets_delay_us );
PROVIDE ( esp_rom_get_reset_reason = rtc_get_reset_reason );
PROVIDE ( esp_rom_route_intr_matrix = intr_matrix_set );
PROVIDE ( esp_rom_get_cpu_ticks_per_us = ets_get_cpu_frequency );
PROVIDE ( esp_rom_set_cpu_ticks_per_us = ets_update_cpu_frequency );
PROVIDE ( esp_rom_spiflash_attach = spi_flash_attach );
PROVIDE ( esp_rom_spiflash_clear_bp = esp_rom_spiflash_unlock );
PROVIDE ( esp_rom_spiflash_write_enable = SPI_write_enable);
PROVIDE ( esp_rom_spiflash_erase_area = SPIEraseArea );
PROVIDE ( esp_rom_spiflash_fix_dummylen = spi_dummy_len_fix );
PROVIDE ( esp_rom_spiflash_set_drvs = SetSpiDrvs);
PROVIDE ( esp_rom_spiflash_select_padsfunc = SelectSpiFunction );
PROVIDE ( esp_rom_spiflash_common_cmd = SPI_Common_Command );
PROVIDE ( esp_rom_regi2c_read = rom_i2c_readReg );
PROVIDE ( esp_rom_regi2c_read_mask = rom_i2c_readReg_Mask );
PROVIDE ( esp_rom_regi2c_write = rom_i2c_writeReg );
PROVIDE ( esp_rom_regi2c_write_mask = rom_i2c_writeReg_Mask );

75
esp-hal/ld/esp32c2/rom/esp32c2.rom.heap.ld
View File

@ -1,75 +0,0 @@
/*
* SPDX-FileCopyrightText: 2022-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
/***************************************
Group heap
***************************************/
/* Functions */
PROVIDE( tlsf_create = 0x400002dc );
PROVIDE( tlsf_create_with_pool = 0x400002e0 );
PROVIDE( tlsf_get_pool = 0x400002e4 );
PROVIDE( tlsf_add_pool = 0x400002e8 );
PROVIDE( tlsf_remove_pool = 0x400002ec );
PROVIDE( tlsf_malloc = 0x400002f0 );
PROVIDE( tlsf_memalign = 0x400002f4 );
PROVIDE( tlsf_memalign_offs = 0x400002f8 );
PROVIDE( tlsf_realloc = 0x400002fc );
PROVIDE( tlsf_free = 0x40000300 );
PROVIDE( tlsf_block_size = 0x40000304 );
PROVIDE( tlsf_size = 0x40000308 );
PROVIDE( tlsf_align_size = 0x4000030c );
PROVIDE( tlsf_block_size_min = 0x40000310 );
PROVIDE( tlsf_block_size_max = 0x40000314 );
PROVIDE( tlsf_pool_overhead = 0x40000318 );
PROVIDE( tlsf_alloc_overhead = 0x4000031c );
PROVIDE( tlsf_walk_pool = 0x40000320 );
PROVIDE( tlsf_check = 0x40000324 );
PROVIDE( tlsf_check_pool = 0x40000328 );
PROVIDE( tlsf_poison_fill_pfunc_set = 0x4000032c );
PROVIDE( multi_heap_get_block_address_impl = 0x40000330 );
PROVIDE( multi_heap_get_allocated_size_impl = 0x40000334 );
PROVIDE( multi_heap_register_impl = 0x40000338 );
PROVIDE( multi_heap_set_lock = 0x4000033c );
PROVIDE( multi_heap_os_funcs_init = 0x40000340 );
PROVIDE( multi_heap_internal_lock = 0x40000344 );
PROVIDE( multi_heap_internal_unlock = 0x40000348 );
PROVIDE( multi_heap_get_first_block = 0x4000034c );
PROVIDE( multi_heap_get_next_block = 0x40000350 );
PROVIDE( multi_heap_is_free = 0x40000354 );
PROVIDE( multi_heap_malloc_impl = 0x40000358 );
PROVIDE( multi_heap_free_impl = 0x4000035c );
PROVIDE( multi_heap_realloc_impl = 0x40000360 );
PROVIDE( multi_heap_aligned_alloc_impl_offs = 0x40000364 );
PROVIDE( multi_heap_aligned_alloc_impl = 0x40000368 );
PROVIDE( multi_heap_check = 0x4000036c );
PROVIDE( multi_heap_dump = 0x40000370 );
PROVIDE( multi_heap_free_size_impl = 0x40000374 );
PROVIDE( multi_heap_minimum_free_size_impl = 0x40000378 );
PROVIDE( multi_heap_get_info_impl = 0x4000037c );
/* Data (.data, .bss, .rodata) */
PROVIDE( heap_tlsf_table_ptr = 0x3fcdffec );
/**
* Multi heap function
*/
PROVIDE (multi_heap_malloc = multi_heap_malloc_impl);
PROVIDE (multi_heap_free = multi_heap_free_impl);
PROVIDE (multi_heap_realloc = multi_heap_realloc_impl);
PROVIDE (multi_heap_get_allocated_size = multi_heap_get_allocated_size_impl);
PROVIDE (multi_heap_register = multi_heap_register_impl);
PROVIDE (multi_heap_get_info = multi_heap_get_info_impl);
PROVIDE (multi_heap_free_size = multi_heap_free_size_impl);
PROVIDE (multi_heap_minimum_free_size = multi_heap_minimum_free_size_impl);
PROVIDE (multi_heap_get_block_address = multi_heap_get_block_address_impl);
PROVIDE (multi_heap_aligned_alloc = multi_heap_aligned_alloc_impl);
PROVIDE (multi_heap_aligned_free = multi_heap_aligned_free_impl);
PROVIDE (multi_heap_check = multi_heap_check);
PROVIDE (multi_heap_set_lock = multi_heap_set_lock);
PROVIDE (multi_heap_internal_lock = multi_heap_internal_lock);
PROVIDE (multi_heap_internal_unlock = multi_heap_internal_unlock);

2237
esp-hal/ld/esp32c2/rom/esp32c2.rom.ld
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File diff suppressed because it is too large Load Diff

113
esp-hal/ld/esp32c2/rom/esp32c2.rom.libgcc.ld
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@ -1,113 +0,0 @@
/*
* SPDX-FileCopyrightText: 2021-2022 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
/* ROM function interface esp32c2.rom.libgcc.ld for esp32c2
*
*
* Generated from ./interface-esp32c2.yml md5sum c679b6ed5e9f0a9c3e7b93e5e0f2a1a3
*
* Compatible with ROM where ECO version equal or greater to 1.
*
* THIS FILE WAS AUTOMATICALLY GENERATED. DO NOT EDIT.
*/
/***************************************
Group libgcc
***************************************/
/* Functions */
__absvdi2 = 0x400008a8;
__absvsi2 = 0x400008ac;
__adddf3 = 0x400008b0;
__addsf3 = 0x400008b4;
__addvdi3 = 0x400008b8;
__addvsi3 = 0x400008bc;
__ashldi3 = 0x400008c0;
__ashrdi3 = 0x400008c4;
__bswapdi2 = 0x400008c8;
__bswapsi2 = 0x400008cc;
__clear_cache = 0x400008d0;
__clrsbdi2 = 0x400008d4;
__clrsbsi2 = 0x400008d8;
__clzdi2 = 0x400008dc;
__clzsi2 = 0x400008e0;
__cmpdi2 = 0x400008e4;
__ctzdi2 = 0x400008e8;
__ctzsi2 = 0x400008ec;
__divdc3 = 0x400008f0;
__divdf3 = 0x400008f4;
__divdi3 = 0x400008f8;
__divsc3 = 0x400008fc;
__divsf3 = 0x40000900;
__divsi3 = 0x40000904;
__eqdf2 = 0x40000908;
__eqsf2 = 0x4000090c;
__extendsfdf2 = 0x40000910;
__ffsdi2 = 0x40000914;
__ffssi2 = 0x40000918;
__fixdfdi = 0x4000091c;
__fixdfsi = 0x40000920;
__fixsfdi = 0x40000924;
__fixsfsi = 0x40000928;
__fixunsdfsi = 0x4000092c;
__fixunssfdi = 0x40000930;
__fixunssfsi = 0x40000934;
__floatdidf = 0x40000938;
__floatdisf = 0x4000093c;
__floatsidf = 0x40000940;
__floatsisf = 0x40000944;
__floatundidf = 0x40000948;
__floatundisf = 0x4000094c;
__floatunsidf = 0x40000950;
__floatunsisf = 0x40000954;
__gcc_bcmp = 0x40000958;
__gedf2 = 0x4000095c;
__gesf2 = 0x40000960;
__gtdf2 = 0x40000964;
__gtsf2 = 0x40000968;
__ledf2 = 0x4000096c;
__lesf2 = 0x40000970;
__lshrdi3 = 0x40000974;
__ltdf2 = 0x40000978;
__ltsf2 = 0x4000097c;
__moddi3 = 0x40000980;
__modsi3 = 0x40000984;
__muldc3 = 0x40000988;
__muldf3 = 0x4000098c;
__muldi3 = 0x40000990;
__mulsc3 = 0x40000994;
__mulsf3 = 0x40000998;
__mulsi3 = 0x4000099c;
__mulvdi3 = 0x400009a0;
__mulvsi3 = 0x400009a4;
__nedf2 = 0x400009a8;
__negdf2 = 0x400009ac;
__negdi2 = 0x400009b0;
__negsf2 = 0x400009b4;
__negvdi2 = 0x400009b8;
__negvsi2 = 0x400009bc;
__nesf2 = 0x400009c0;
__paritysi2 = 0x400009c4;
__popcountdi2 = 0x400009c8;
__popcountsi2 = 0x400009cc;
__powidf2 = 0x400009d0;
__powisf2 = 0x400009d4;
__subdf3 = 0x400009d8;
__subsf3 = 0x400009dc;
__subvdi3 = 0x400009e0;
__subvsi3 = 0x400009e4;
__truncdfsf2 = 0x400009e8;
__ucmpdi2 = 0x400009ec;
__udivdi3 = 0x400009f0;
__udivmoddi4 = 0x400009f4;
__udivsi3 = 0x400009f8;
__udiv_w_sdiv = 0x400009fc;
__umoddi3 = 0x40000a00;
__umodsi3 = 0x40000a04;
__unorddf2 = 0x40000a08;
__unordsf2 = 0x40000a0c;
__extenddftf2 = 0x40000a10;
__trunctfdf2 = 0x40000a14;

118
esp-hal/ld/esp32c2/rom/esp32c2.rom.rvfp.ld
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@ -1,118 +0,0 @@
/*
* SPDX-FileCopyrightText: 2022 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
/* ROM function interface esp32c2.rom.rvfp.ld esp32c2
*
*
* Generated from ./interface-esp32c2.yml md5sum c679b6ed5e9f0a9c3e7b93e5e0f2a1a3
*
* Compatible with ROM where ECO version equal or greater to 1.
*
* THIS FILE WAS AUTOMATICALLY GENERATED. DO NOT EDIT.
*/
/***************************************
Group rvfplib
***************************************/
/* Functions */
__adddf3 = 0x40000a18;
__addsf3 = 0x40000a1c;
__divsf3 = 0x40000a20;
__eqdf2 = 0x40000a24;
__eqsf2 = 0x40000a28;
__extendsfdf2 = 0x40000a2c;
__fixdfdi = 0x40000a30;
__fixdfsi = 0x40000a34;
__fixsfdi = 0x40000a38;
__fixsfsi = 0x40000a3c;
__fixunsdfsi = 0x40000a40;
__fixunssfdi = 0x40000a44;
__fixunssfsi = 0x40000a48;
__floatdidf = 0x40000a4c;
__floatdisf = 0x40000a50;
__floatsidf = 0x40000a54;
__floatsisf = 0x40000a58;
__floatundidf = 0x40000a5c;
__floatundisf = 0x40000a60;
__floatunsidf = 0x40000a64;
__floatunsisf = 0x40000a68;
__gedf2 = 0x40000a6c;
__gesf2 = 0x40000a70;
__gtdf2 = 0x40000a74;
__gtsf2 = 0x40000a78;
__ledf2 = 0x40000a7c;
__lesf2 = 0x40000a80;
__ltdf2 = 0x40000a84;
__ltsf2 = 0x40000a88;
__muldf3 = 0x40000a8c;
__mulsf3 = 0x40000a90;
__nedf2 = 0x40000a94;
__nesf2 = 0x40000a98;
__subdf3 = 0x40000a9c;
__subsf3 = 0x40000aa0;
__truncdfsf2 = 0x40000aa4;
/***************************************
Group libgcc
***************************************/
/* Functions */
__absvdi2 = 0x400008a8;
__absvsi2 = 0x400008ac;
__addvdi3 = 0x400008b8;
__addvsi3 = 0x400008bc;
__ashldi3 = 0x400008c0;
__ashrdi3 = 0x400008c4;
__bswapdi2 = 0x400008c8;
__bswapsi2 = 0x400008cc;
__clear_cache = 0x400008d0;
__clrsbdi2 = 0x400008d4;
__clrsbsi2 = 0x400008d8;
__clzdi2 = 0x400008dc;
__clzsi2 = 0x400008e0;
__cmpdi2 = 0x400008e4;
__ctzdi2 = 0x400008e8;
__ctzsi2 = 0x400008ec;
__divdc3 = 0x400008f0;
__divdf3 = 0x400008f4;
__divdi3 = 0x400008f8;
__divsc3 = 0x400008fc;
__divsi3 = 0x40000904;
__ffsdi2 = 0x40000914;
__ffssi2 = 0x40000918;
__gcc_bcmp = 0x40000958;
__lshrdi3 = 0x40000974;
__moddi3 = 0x40000980;
__modsi3 = 0x40000984;
__muldc3 = 0x40000988;
__muldi3 = 0x40000990;
__mulsc3 = 0x40000994;
__mulsi3 = 0x4000099c;
__mulvdi3 = 0x400009a0;
__mulvsi3 = 0x400009a4;
__negdf2 = 0x400009ac;
__negdi2 = 0x400009b0;
__negsf2 = 0x400009b4;
__negvdi2 = 0x400009b8;
__negvsi2 = 0x400009bc;
__paritysi2 = 0x400009c4;
__popcountdi2 = 0x400009c8;
__popcountsi2 = 0x400009cc;
__powidf2 = 0x400009d0;
__powisf2 = 0x400009d4;
__subvdi3 = 0x400009e0;
__subvsi3 = 0x400009e4;
__ucmpdi2 = 0x400009ec;
__udivdi3 = 0x400009f0;
__udivmoddi4 = 0x400009f4;
__udivsi3 = 0x400009f8;
__udiv_w_sdiv = 0x400009fc;
__umoddi3 = 0x40000a00;
__umodsi3 = 0x40000a04;
__unorddf2 = 0x40000a08;
__unordsf2 = 0x40000a0c;
__extenddftf2 = 0x40000a10;
__trunctfdf2 = 0x40000a14;

14
esp-hal/ld/esp32c2/rom/esp32c2.rom.version.ld
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@ -1,14 +0,0 @@
/*
* SPDX-FileCopyrightText: 2021-2022 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
/* ROM version variables for esp32c2
*
* These addresses should be compatible with any ROM version for this chip.
*
* THIS FILE WAS AUTOMATICALLY GENERATED. DO NOT EDIT.
*/
_rom_chip_id = 0x40000010;
_rom_eco_version = 0x40000014;

5
esp-hal/ld/esp32c3/esp32c3.x
View File

@ -80,13 +80,12 @@ PROVIDE(__global_pointer$ = _data_start + 0x800);
/* end of esp32c3 fixups */
/* Shared sections - ordering matters */
INCLUDE "rwtext.x"
INCLUDE "text.x"
INCLUDE "rwdata.x"
INCLUDE "rodata.x"
INCLUDE "rwtext.x"
INCLUDE "rwdata.x"
INCLUDE "rtc_fast.x"
INCLUDE "stack.x"
INCLUDE "dram2.x"
/* End of Shared sections */
INCLUDE "debug.x"

9
esp-hal/ld/esp32c3/memory.x
View File

@ -13,15 +13,14 @@ MEMORY
[0x50000000, 0x50002000, "RTC_IRAM"],
[0x50000000, 0x50002000, "RTC_DRAM"],
[0x600FE000, 0x60100000, "MEM_INTERNAL2"]]
*/
/* 400K of on soc RAM, 16K reserved for cache */
ICACHE : ORIGIN = 0x4037C000, LENGTH = 0x4000
/* Instruction RAM */
IRAM : ORIGIN = 0x4037C000 + 0x4000, LENGTH = 313K - 0x4000
IRAM : ORIGIN = 0x4037C000 + 0x4000, LENGTH = 400K - 0x4000
/* Data RAM */
DRAM : ORIGIN = 0x3FC80000, LENGTH = 313K
DRAM : ORIGIN = 0x3FC80000, LENGTH = 0x50000
/* memory available after the 2nd stage bootloader is finished */
dram2_seg ( RW ) : ORIGIN = ORIGIN(DRAM) + LENGTH(DRAM), len = 0x3fcde710 - (ORIGIN(DRAM) + LENGTH(DRAM))
/* External flash */
/* Instruction ROM */

38
esp-hal/ld/esp32c3/rom-functions.x
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@ -1,10 +1,30 @@
INCLUDE "rom/esp32c3.rom.api.ld"
INCLUDE "rom/esp32c3.rom.eco3.ld"
/* TODO
INCLUDE "rom/esp32c3.rom.eco7.ld"
*/
INCLUDE "rom/esp32c3.rom.ld"
INCLUDE "rom/esp32c3.rom.libgcc.ld"
INCLUDE "rom/esp32c3.rom.version.ld"
ets_printf = 0x40000040;
PROVIDE(esp_rom_printf = ets_printf);
PROVIDE(cache_invalidate_icache_all = 0x400004d8);
PROVIDE(cache_suspend_icache = 0x40000524);
PROVIDE(cache_resume_icache = 0x40000528);
PROVIDE(cache_ibus_mmu_set = 0x40000560);
PROVIDE(cache_dbus_mmu_set = 0x40000564);
PROVIDE(ets_delay_us = 0x40000050);
PROVIDE(ets_update_cpu_frequency_rom = 0x40000588);
PROVIDE(rom_i2c_writeReg = 0x4000195c);
PROVIDE(rom_i2c_writeReg_Mask = 0x40001960);
PROVIDE(rtc_get_reset_reason = 0x40000018);
PROVIDE(software_reset = 0x40000090);
PROVIDE(software_reset_cpu = 0x40000094);
INCLUDE "rom/additional.ld"
PROVIDE(esp_rom_crc32_be = 0x4000062c);
PROVIDE(esp_rom_crc16_be = 0x40000634);
PROVIDE(esp_rom_crc8_be = 0x4000063c);
PROVIDE(esp_rom_crc32_le = 0x40000628);
PROVIDE(esp_rom_crc16_le = 0x40000630);
PROVIDE(esp_rom_crc8_le = 0x40000638);
PROVIDE(esp_rom_md5_init = 0x40000614);
PROVIDE(esp_rom_md5_update = 0x40000618);
PROVIDE(esp_rom_md5_final = 0x4000061c);
memset = 0x40000354;
memcpy = 0x40000358;
memmove = 0x4000035c;
memcmp = 0x40000360;

21
esp-hal/ld/esp32c3/rom/additional.ld
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@ -1,21 +0,0 @@
memset = 0x40000354;
memcpy = 0x40000358;
memmove = 0x4000035c;
memcmp = 0x40000360;
strncmp = 0x40000370;
strncpy = 0x40000368;
strcpy = 0x40000364;
abs = 0x40000424;
PROVIDE(cache_dbus_mmu_set = 0x40000564);
PROVIDE( strcat = 0x400003d8 );
PROVIDE( strcmp = 0x4000036c );
PROVIDE( strchr = 0x400003e0 );
PROVIDE( strlcpy = 0x400003f0 );
PROVIDE( strstr = 0x40000378 );
PROVIDE( strcasecmp = 0x400003d0 );
PROVIDE( memchr = 0x400003c8 );

61
esp-hal/ld/esp32c3/rom/esp32c3.rom.api.ld
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@ -1,61 +0,0 @@
/**
* ROM APIs
*/
PROVIDE ( esp_rom_crc32_le = crc32_le );
PROVIDE ( esp_rom_crc16_le = crc16_le );
PROVIDE ( esp_rom_crc8_le = crc8_le );
PROVIDE ( esp_rom_crc32_be = crc32_be );
PROVIDE ( esp_rom_crc16_be = crc16_be );
PROVIDE ( esp_rom_crc8_be = crc8_be );
PROVIDE ( esp_rom_gpio_pad_select_gpio = gpio_pad_select_gpio );
PROVIDE ( esp_rom_gpio_pad_pullup_only = gpio_pad_pullup );
PROVIDE ( esp_rom_gpio_pad_set_drv = gpio_pad_set_drv );
PROVIDE ( esp_rom_gpio_pad_unhold = gpio_pad_unhold );
PROVIDE ( esp_rom_gpio_connect_in_signal = gpio_matrix_in );
PROVIDE ( esp_rom_gpio_connect_out_signal = gpio_matrix_out );
PROVIDE ( esp_rom_efuse_mac_address_crc8 = esp_crc8 );
PROVIDE ( esp_rom_efuse_get_flash_gpio_info = ets_efuse_get_spiconfig );
PROVIDE ( esp_rom_efuse_is_secure_boot_enabled = ets_efuse_secure_boot_enabled );
PROVIDE ( esp_rom_efuse_get_flash_wp_gpio = ets_efuse_get_wp_pad );
PROVIDE ( esp_rom_uart_flush_tx = uart_tx_flush );
PROVIDE ( esp_rom_uart_tx_one_char = uart_tx_one_char );
PROVIDE ( esp_rom_uart_tx_wait_idle = uart_tx_wait_idle );
PROVIDE ( esp_rom_uart_rx_one_char = uart_rx_one_char );
PROVIDE ( esp_rom_uart_rx_string = UartRxString );
PROVIDE ( esp_rom_output_flush_tx = uart_tx_flush );
PROVIDE ( esp_rom_output_tx_one_char = uart_tx_one_char );
PROVIDE ( esp_rom_output_tx_wait_idle = uart_tx_wait_idle );
PROVIDE ( esp_rom_output_rx_one_char = uart_rx_one_char );
PROVIDE ( esp_rom_output_rx_string = UartRxString );
PROVIDE ( esp_rom_md5_init = MD5Init );
PROVIDE ( esp_rom_md5_update = MD5Update );
PROVIDE ( esp_rom_md5_final = MD5Final );
PROVIDE ( esp_rom_software_reset_system = software_reset );
PROVIDE ( esp_rom_software_reset_cpu = software_reset_cpu );
PROVIDE ( esp_rom_printf = ets_printf );
PROVIDE ( esp_rom_delay_us = ets_delay_us );
PROVIDE ( esp_rom_get_reset_reason = rtc_get_reset_reason );
PROVIDE ( esp_rom_route_intr_matrix = intr_matrix_set );
PROVIDE ( esp_rom_get_cpu_ticks_per_us = ets_get_cpu_frequency );
PROVIDE ( esp_rom_set_cpu_ticks_per_us = ets_update_cpu_frequency );
PROVIDE ( esp_rom_spiflash_clear_bp = esp_rom_spiflash_unlock );
PROVIDE ( esp_rom_spiflash_write_enable = SPI_write_enable );
PROVIDE ( esp_rom_spiflash_erase_area = SPIEraseArea );
PROVIDE ( esp_rom_spiflash_fix_dummylen = spi_dummy_len_fix );
PROVIDE ( esp_rom_spiflash_set_drvs = SetSpiDrvs);
PROVIDE ( esp_rom_spiflash_select_padsfunc = SelectSpiFunction );
PROVIDE ( esp_rom_spiflash_common_cmd = SPI_Common_Command );
PROVIDE ( esp_rom_regi2c_read = rom_i2c_readReg );
PROVIDE ( esp_rom_regi2c_read_mask = rom_i2c_readReg_Mask );
PROVIDE ( esp_rom_regi2c_write = rom_i2c_writeReg );
PROVIDE ( esp_rom_regi2c_write_mask = rom_i2c_writeReg_Mask );

129
esp-hal/ld/esp32c3/rom/esp32c3.rom.eco3.ld
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@ -1,129 +0,0 @@
/*
ESP32C3 ECO3 ROM address table
Version 3 API's imported from the ROM
*/
/*esf_buf_alloc_dynamic = 0x400015c0;*/
/*esf_buf_recycle = 0x400015c4;*/
/*lmacTxDone = 0x4000162c;*/
/*ppMapTxQueue = 0x400016d8;*/
/*rcGetSched = 0x40001764;*/
wDevCheckBlockError = 0x400017b4;
/*ppProcTxDone = 0x40001804;*/
/*sta_input = rom_sta_input;*/
/***************************************
Group rom_phy
***************************************/
/* Functions */
rom_index_to_txbbgain = 0x40001964;
rom_pbus_xpd_tx_on = 0x400019b0;
rom_set_tx_dig_gain = 0x400019f0;
rom_set_txcap_reg = 0x400019f4;
rom_txbbgain_to_index = 0x40001a0c;
rom_agc_reg_init = 0x40001a54;
rom_bb_reg_init = 0x40001a58;
rom_set_pbus_reg = 0x40001a70;
rom_phy_xpd_rf = 0x40001a78;
rom_write_txrate_power_offset = 0x40001a8c;
rom_temp_to_power = 0x40001ab4;
rom_open_i2c_xpd = 0x40001af8;
rom_tsens_read_init = 0x40001b00;
rom_tsens_code_read = 0x40001b04;
rom_tsens_dac_cal = 0x40001b10;
rom_pll_vol_cal = 0x40001b28;
/***************************************
Group eco3_wifi
***************************************/
/* Functions */
wdev_is_data_in_rxlist = 0x40001b2c;
ppProcTxCallback = 0x40001b30;
ieee80211_gettid = 0x40001b34;
/***************************************
Group eco3_bluetooth
***************************************/
/* Functions */
r_lld_legacy_adv_dynamic_pti_get = 0x40001b38;
r_lld_legacy_adv_dynamic_pti_process = 0x40001b3c;
r_lld_ext_adv_dynamic_pti_get = 0x40001b40;
r_lld_ext_adv_dynamic_aux_pti_process = 0x40001b44;
r_lld_ext_adv_dynamic_pti_process = 0x40001b48;
r_lld_adv_ext_pkt_prepare_set = 0x40001b4c;
r_lld_adv_ext_chain_connectable_construct = 0x40001b54;
r_lld_adv_pkt_rx_connect_post = 0x40001b5c;
r_lld_adv_start_init_evt_param = 0x40001b60;
r_lld_adv_start_set_cs = 0x40001b64;
/* r_lld_adv_start_update_filter_policy = 0x40001b68; */
r_lld_adv_start_schedule_asap = 0x40001b6c;
r_lld_con_tx_prog_new_packet_coex = 0x40001b70;
r_lld_per_adv_dynamic_pti_get = 0x40001b78;
r_lld_per_adv_evt_start_chm_upd = 0x40001b7c;
r_lld_ext_scan_dynamic_pti_get = 0x40001b80;
r_lld_sync_insert = 0x40001b88;
r_sch_prog_ble_push = 0x40001b8c;
r_sch_prog_bt_push = 0x40001b90;
r_lld_init_evt_end_type_set = 0x40001b94;
r_lld_init_evt_end_type_get = 0x40001b98;
r_lld_adv_direct_adv_use_rpa_addr_state_set = 0x40001b9c;
r_lld_adv_direct_adv_use_rpa_addr_state_get = 0x40001ba0;
r_lld_init_evt_end_type_check_state_set = 0x40001ba4;
r_lld_init_evt_end_type_check_state_get = 0x40001ba8;
/***************************************
Group eco3_phy
***************************************/
/* Functions */
rom_wrtie_pll_cap = 0x40001bac;
rom_set_tx_gain_mem = 0x40001bb0;
rom_bt_tx_dig_gain = 0x40001bb4;
rom_bt_get_tx_gain = 0x40001bb8;
rom_get_chan_target_power = 0x40001bbc;
rom_get_tx_gain_value = 0x40001bc0;
rom_wifi_tx_dig_gain = 0x40001bc4;
rom_wifi_get_tx_gain = 0x40001bc8;
rom_fe_i2c_reg_renew = 0x40001bcc;
rom_wifi_agc_sat_gain = 0x40001bd0;
rom_i2c_master_reset = 0x40001bd4;
rom_bt_filter_reg = 0x40001bd8;
rom_phy_bbpll_cal = 0x40001bdc;
rom_i2c_sar2_init_code = 0x40001be0;
rom_phy_param_addr = 0x40001be4;
rom_phy_reg_init = 0x40001be8;
rom_set_chan_reg = 0x40001bec;
rom_phy_wakeup_init = 0x40001bf0;
rom_phy_i2c_init1 = 0x40001bf4;
rom_tsens_temp_read = 0x40001bf8;
rom_bt_track_pll_cap = 0x40001bfc;
rom_wifi_track_pll_cap = 0x40001c00;
rom_wifi_set_tx_gain = 0x40001c04;
rom_txpwr_cal_track = 0x40001c08;
rom_tx_pwctrl_background = 0x40001c0c;
rom_bt_set_tx_gain = 0x40001c10;
rom_noise_check_loop = 0x40001c14;
rom_phy_close_rf = 0x40001c18;
rom_phy_xpd_tsens = 0x40001c1c;
rom_phy_freq_mem_backup = 0x40001c20;
rom_phy_ant_init = 0x40001c24;
rom_bt_track_tx_power = 0x40001c28;
rom_wifi_track_tx_power = 0x40001c2c;
rom_phy_dig_reg_backup = 0x40001c30;
chip726_phyrom_version_num = 0x40001c34;
/* Data (.data, .bss, .rodata) */
phy_param_rom = 0x3fcdf830;
/***************************************
Group eco3_esp_flash
***************************************/
/* Functions */
PROVIDE( esp_flash_read_chip_id = 0x40001c38 );
PROVIDE( detect_spi_flash_chip = 0x40001c3c );
PROVIDE( esp_rom_spiflash_write_disable = 0x40001c40 );

240
esp-hal/ld/esp32c3/rom/esp32c3.rom.eco7.ld
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@ -1,240 +0,0 @@
/*
* SPDX-FileCopyrightText: 2023-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
esf_buf_alloc = 0x400015bc;
esf_buf_alloc_dynamic = 0x400015c0;
esf_buf_recycle = 0x400015c4;
/*hal_mac_tx_set_ppdu = 0x400015d4;*/
ic_mac_deinit = 0x400015dc;
lmacDiscardMSDU = 0x400015f4;
/*lmacSetTxFrame = 0x40001628;*/
lmacTxDone = 0x4000162c;
lmacTxFrame = 0x40001630;
mac_tx_set_htsig = 0x40001638;
mac_tx_set_plcp1 = 0x40001640;
pm_check_state = 0x40001648;
/*pm_on_beacon_rx = 0x4000167c;*/
/*pm_parse_beacon = 0x40001688;*/
pm_process_tim = 0x4000168c;
pm_rx_beacon_process = 0x40001690;
pm_rx_data_process = 0x40001694;
/* pm_sleep = 0x40001698;*/
/* pm_tbtt_process = 0x400016a0;*/
ppMapTxQueue = 0x400016d8;
ppProcTxSecFrame = 0x400016dc;
/*ppRxFragmentProc = 0x40001704;*/
/* rcGetSched = 0x40001764;*/
rcTxUpdatePer = 0x40001770;
rcUpdateTxDone = 0x4000177c;
wDevCheckBlockError = 0x400017b4;
/* wDev_IndicateFrame = 0x400017c8;*/
wDev_ProcessFiq = 0x400017f0;
/*wDev_ProcessRxSucData = 0x400017f4;*/
/*ppProcTxDone = 0x40001804;*/
/*pm_tx_data_done_process = 0x40001808;*/
ppMapWaitTxq = 0x40001810;
/*ieee80211_encap_esfbuf = 0x4000185c;*/
/*sta_input = 0x40001870;*/
ieee80211_crypto_decap = 0x4000189c;
ieee80211_decap = 0x400018a0;
/*coex_core_timer_idx_get = 0x400018d0;*/
rom1_chip_i2c_readReg = 0x40001924;
rom1_chip_i2c_writeReg = 0x40001928;
rom_index_to_txbbgain = 0x40001964;
rom_pbus_xpd_tx_on = 0x400019b0;
rom1_set_noise_floor = 0x400019e8;
rom_set_tx_dig_gain = 0x400019f0;
rom_set_txcap_reg = 0x400019f4;
rom_txbbgain_to_index = 0x40001a0c;
rom1_disable_wifi_agc = 0x40001a1c;
rom1_enable_wifi_agc = 0x40001a20;
rom1_tx_paon_set = 0x40001a44;
rom_agc_reg_init = 0x40001a54;
rom_bb_reg_init = 0x40001a58;
rom1_set_pbus_reg = 0x40001a70;
rom_phy_xpd_rf = 0x40001a78;
rom_write_txrate_power_offset = 0x40001a8c;
rom1_get_rate_fcc_index = 0x40001a90;
rom1_read_sar2_code = 0x40001aa4;
rom2_temp_to_power1 = 0x40001ab4;
rom1_get_i2c_hostid = 0x40001ac8;
rom_open_i2c_xpd = 0x40001af8;
rom2_tsens_read_init1 = 0x40001b00;
rom_tsens_code_read = 0x40001b04;
rom_tsens_dac_cal = 0x40001b10;
rom1_phy_en_hw_set_freq = 0x40001b20;
rom1_phy_dis_hw_set_freq = 0x40001b24;
rom_pll_vol_cal = 0x40001b28;
rom1_bt_get_tx_gain = 0x40001bb8;
rom1_get_chan_target_power = 0x40001bbc;
rom2_get_tx_gain_value1 = 0x40001bc0;
rom1_wifi_tx_dig_gain = 0x40001bc4;
rom1_wifi_get_tx_gain = 0x40001bc8;
rom1_fe_i2c_reg_renew = 0x40001bcc;
rom1_i2c_master_reset = 0x40001bd4;
rom1_phy_wakeup_init = 0x40001bf0;
rom1_phy_i2c_init1 = 0x40001bf4;
rom1_tsens_temp_read = 0x40001bf8;
rom1_bt_track_pll_cap = 0x40001bfc;
rom1_wifi_set_tx_gain = 0x40001c04;
rom1_txpwr_cal_track = 0x40001c08;
rom1_bt_set_tx_gain = 0x40001c10;
rom1_phy_close_rf = 0x40001c18;
/***************************************
Group eco7_uart
***************************************/
/* Functions */
uart_tx_switch = 0x40001c44;
/***************************************
Group eco7_bluetooth
***************************************/
/* Functions */
r_lld_con_count_get = 0x40001c48;
r_lld_update_con_offset = 0x40001c4c;
r_lld_con_update_last_clock = 0x40001c50;
r_lld_con_llcp_ind_info_clear = 0x40001c54;
r_lld_con_update_terminte_info_init = 0x40001c58;
r_lld_con_terminate_max_evt_update = 0x40001c5c;
r_llc_pref_param_compute_eco = 0x40001ce8;
r_llc_hci_con_upd_info_send_eco = 0x40001cec;
r_llc_rem_encrypt_proc_continue_eco = 0x40001cf0;
r_llc_start_eco = 0x40001cf8;
r_lld_ext_adv_dynamic_aux_pti_process_eco = 0x40001cfc;
r_lld_adv_start_eco = 0x40001d04;
r_lld_con_evt_canceled_cbk_eco = 0x40001d08;
r_lld_con_evt_time_update_eco = 0x40001d0c;
r_lld_con_start_eco = 0x40001d10;
r_lld_con_frm_isr_eco = 0x40001d14;
r_lld_con_tx_eco = 0x40001d18;
r_lld_ext_scan_dynamic_pti_process_eco = 0x40001d28;
r_lld_scan_frm_eof_isr_eco = 0x40001d2c;
r_lld_sync_start_eco = 0x40001d30;
r_lld_sync_insert_eco = 0x40001d34;
r_llm_adv_rep_flow_control_update_eco = 0x40001d38;
r_llm_env_adv_dup_filt_init_eco = 0x40001d3c;
r_llm_env_adv_dup_filt_deinit_eco = 0x40001d40;
r_llm_adv_rep_flow_control_check_eco = 0x40001d44;
r_llm_scan_start_eco = 0x40001d48;
r_llm_update_duplicate_scan_count = 0x40001d4c;
r_llc_hci_command_handler_pre = 0x40001d50;
r_llc_hci_command_handler_get = 0x40001d54;
r_llc_hci_command_handler_search = 0x40001d58;
r_llc_llcp_pdu_handler_get_overwrite = 0x40001d5c;
r_llc_llcp_pdu_handler_pre = 0x40001d60;
r_llc_llcp_pdu_handler_end = 0x40001d64;
r_llc_con_conflict_check = 0x40001d6c;
r_sch_prog_hw_reset_try = 0x40001d70;
r_sch_prog_et_state_reset = 0x40001d74;
r_sch_prog_end_isr_handler = 0x40001d78;
r_sch_plan_conflict_check = 0x40001d7c;
r_rwble_isr_hw_fixed = 0x40001d80;
r_bt_bb_recorrect_is_dead = 0x40001d84;
r_bt_bb_restart_hw_recorrect = 0x40001d88;
r_ke_task_handler_pre = 0x40001da0;
r_ke_task_handler_end = 0x40001da4;
r_lld_scan_frm_skip_isr_eco = 0x40001db0;
r_lld_ext_scan_dynamic_pti_reset = 0x40001db4;
r_llc_rem_phy_upd_proc_continue_eco = 0x40001db8;
r_llm_get_preferred_phys = 0x40001dbc;
r_lld_hw_cca_isr_eco = 0x40001dc0;
r_lld_sw_cca_isr_eco = 0x40001dc4;
r_lld_cca_chan_prn_e = 0x40001dc8;
r_lld_cca_chan_prn_s = 0x40001dcc;
r_lld_cca_chan_sel_remap = 0x40001dd0;
r_lld_cca_chan_sel_1 = 0x40001dd4;
r_lld_cca_chan_sel_2 = 0x40001dd8;
r_lld_cca_set_thresh = 0x40001ddc;
r_lld_cca_con_start = 0x40001de0;
r_lld_cca_con_end = 0x40001de4;
r_lld_cca_chm_restore = 0x40001de8;
r_lld_cca_chan_unused_check = 0x40001dec;
r_lld_cca_chm_update_check = 0x40001df0;
r_lld_cca_busy_mode_handle = 0x40001df4;
r_lld_cca_lbt_handle = 0x40001df8;
r_lld_cca_scst_timeout_check = 0x40001dfc;
r_lld_cca_chan_avl_timeout_check = 0x40001e00;
r_lld_con_start_hook = 0x40001ca8;
/* ble Functions eco */
r_bt_bb_isr = 0x40000b9c;
r_bt_rf_coex_conn_phy_coded_data_time_limit_en_get = 0x40000ba8;
r_bt_rtp_get_txpwr_idx_by_act = 0x40000c00;
r_btdm_task_post = 0x40000c14;
r_btdm_task_post_from_isr = 0x40000c18;
r_btdm_task_recycle = 0x40000c1c;
r_hci_register_vendor_desc_tab = 0x40000d9c;
r_ke_task_schedule = 0x40000e80;
r_llc_hci_command_handler = 0x40000ef0;
r_llc_loc_con_upd_proc_continue = 0x40000f60;
r_llc_loc_phy_upd_proc_continue = 0x40000f78;
r_llc_rem_con_upd_proc_continue = 0x40000fb4;
r_lld_con_sched = 0x40001118;
r_lld_con_stop = 0x40001124;
r_lld_llcp_rx_ind_handler = 0x400011b0;
r_lld_per_adv_sched = 0x400011f8;
r_lld_scan_process_pkt_rx_adv_rep = 0x40001284;
r_register_esp_vendor_cmd_handler = 0x40001400;
r_rf_txpwr_cs_get = 0x40001428;
r_rf_txpwr_dbm_get = 0x4000142c;
r_sch_arb_event_start_isr = 0x400014f8;
r_sch_plan_set = 0x40001534;
r_sch_prog_end_isr = 0x40001538;
r_lld_adv_ext_chain_scannable_construct = 0x40001b58;
r_lld_scan_process_pkt_rx = 0x40001280;
r_llm_le_features_get = 0x400013b0;
/* ble functions rename */
r_lld_init_start_hack = 0x400011a4;
/* ble functions disable */
/*
r_lld_adv_frm_isr_eco = 0x40001d00;
r_lld_res_list_clear = 0x40004638;
r_lld_res_list_rem = 0x40004680;
r_lld_adv_start_hook = 0x40001c80;
r_lld_con_evt_start_cbk_eco = 0x40001d1c;
r_lld_con_tx_prog_new_packet = 0x40001b74;
r_lld_adv_ext_chain_none_construct = 0x40001b50;
r_llc_llcp_send_eco = 0x40001cf4;
r_llc_llcp_channel_map_ind_ack = 0x40001d68;
r_rwble_isr = 0x40001464;
r_lld_scan_start_eco = 0x40001d24;
r_lld_scan_try_sched_eco = 0x40001dac;
r_lld_scan_start_hook = 0x40001c74;
r_lld_init_start_hook = 0x40001cb8;
r_lld_scan_evt_start_cbk_eco = 0x40001d20;
r_ke_task_handler_get_overwrite = 0x40001da8;
*/
/***************************************
Group eco7_phy
***************************************/
/* Functions */
rom2_pll_cap_mem_update = 0x40001e04;
rom2_phy_i2c_enter_critical = 0x40001e08;
rom2_phy_i2c_exit_critical = 0x40001e0c;
rom2_rfpll_cap_correct = 0x40001e10;
rom2_write_pll_cap = 0x40001e14;
rom2_read_pll_cap = 0x40001e18;
rom2_tester_wifi_cali = 0x40001e1c;
rom2_wait_hw_freq_busy = 0x40001e20;
rom2_rfpll_cap_track = 0x40001e24;
rom2_ulp_code_track = 0x40001e28;
rom2_ulp_ext_code_set = 0x40001e2c;
rom2_phy_set_tsens_power = 0x40001e30;
rom2_phy_get_tsens_value = 0x40001e34;
rom_mac_tx_chan_offset = 0x40001e38;
rom_rx_gain_force = 0x40001e3c;

1932
esp-hal/ld/esp32c3/rom/esp32c3.rom.ld
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File diff suppressed because it is too large Load Diff

105
esp-hal/ld/esp32c3/rom/esp32c3.rom.libgcc.ld
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@ -1,105 +0,0 @@
/* ROM function interface esp32c3.rom.libgcc.ld for esp32c3
*
*
* Generated from ./interface-esp32c3.yml md5sum 93b28a9e1fe42d212018eb4336849208
*
* Compatible with ROM where ECO version equal or greater to 0.
*
* THIS FILE WAS AUTOMATICALLY GENERATED. DO NOT EDIT.
*/
/***************************************
Group libgcc
***************************************/
/* Functions */
__absvdi2 = 0x40000764;
__absvsi2 = 0x40000768;
__adddf3 = 0x4000076c;
__addsf3 = 0x40000770;
__addvdi3 = 0x40000774;
__addvsi3 = 0x40000778;
__ashldi3 = 0x4000077c;
__ashrdi3 = 0x40000780;
__bswapdi2 = 0x40000784;
__bswapsi2 = 0x40000788;
__clear_cache = 0x4000078c;
__clrsbdi2 = 0x40000790;
__clrsbsi2 = 0x40000794;
__clzdi2 = 0x40000798;
__clzsi2 = 0x4000079c;
__cmpdi2 = 0x400007a0;
__ctzdi2 = 0x400007a4;
__ctzsi2 = 0x400007a8;
__divdc3 = 0x400007ac;
__divdf3 = 0x400007b0;
__divdi3 = 0x400007b4;
__divsc3 = 0x400007b8;
__divsf3 = 0x400007bc;
__divsi3 = 0x400007c0;
__eqdf2 = 0x400007c4;
__eqsf2 = 0x400007c8;
__extendsfdf2 = 0x400007cc;
__ffsdi2 = 0x400007d0;
__ffssi2 = 0x400007d4;
__fixdfdi = 0x400007d8;
__fixdfsi = 0x400007dc;
__fixsfdi = 0x400007e0;
__fixsfsi = 0x400007e4;
__fixunsdfsi = 0x400007e8;
__fixunssfdi = 0x400007ec;
__fixunssfsi = 0x400007f0;
__floatdidf = 0x400007f4;
__floatdisf = 0x400007f8;
__floatsidf = 0x400007fc;
__floatsisf = 0x40000800;
__floatundidf = 0x40000804;
__floatundisf = 0x40000808;
__floatunsidf = 0x4000080c;
__floatunsisf = 0x40000810;
__gcc_bcmp = 0x40000814;
__gedf2 = 0x40000818;
__gesf2 = 0x4000081c;
__gtdf2 = 0x40000820;
__gtsf2 = 0x40000824;
__ledf2 = 0x40000828;
__lesf2 = 0x4000082c;
__lshrdi3 = 0x40000830;
__ltdf2 = 0x40000834;
__ltsf2 = 0x40000838;
__moddi3 = 0x4000083c;
__modsi3 = 0x40000840;
__muldc3 = 0x40000844;
__muldf3 = 0x40000848;
__muldi3 = 0x4000084c;
__mulsc3 = 0x40000850;
__mulsf3 = 0x40000854;
__mulsi3 = 0x40000858;
__mulvdi3 = 0x4000085c;
__mulvsi3 = 0x40000860;
__nedf2 = 0x40000864;
__negdf2 = 0x40000868;
__negdi2 = 0x4000086c;
__negsf2 = 0x40000870;
__negvdi2 = 0x40000874;
__negvsi2 = 0x40000878;
__nesf2 = 0x4000087c;
__paritysi2 = 0x40000880;
__popcountdi2 = 0x40000884;
__popcountsi2 = 0x40000888;
__powidf2 = 0x4000088c;
__powisf2 = 0x40000890;
__subdf3 = 0x40000894;
__subsf3 = 0x40000898;
__subvdi3 = 0x4000089c;
__subvsi3 = 0x400008a0;
__truncdfsf2 = 0x400008a4;
__ucmpdi2 = 0x400008a8;
__udivdi3 = 0x400008ac;
__udivmoddi4 = 0x400008b0;
__udivsi3 = 0x400008b4;
__udiv_w_sdiv = 0x400008b8;
__umoddi3 = 0x400008bc;
__umodsi3 = 0x400008c0;
__unorddf2 = 0x400008c4;
__unordsf2 = 0x400008c8;

8
esp-hal/ld/esp32c3/rom/esp32c3.rom.version.ld
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@ -1,8 +0,0 @@
/* ROM version variables for esp32c3
*
* These addresses should be compatible with any ROM version for this chip.
*
* THIS FILE WAS AUTOMATICALLY GENERATED. DO NOT EDIT.
*/
_rom_chip_id = 0x40000010;
_rom_eco_version = 0x40000014;

5
esp-hal/ld/esp32c6/esp32c6.x
View File

@ -72,13 +72,12 @@ INSERT BEFORE .rodata;
/* end of esp32c6 fixups */
/* Shared sections - ordering matters */
INCLUDE "rwtext.x"
INCLUDE "text.x"
INCLUDE "rwdata.x"
INCLUDE "rwtext.x"
INCLUDE "rodata.x"
INCLUDE "rwdata.x"
INCLUDE "rtc_fast.x"
INCLUDE "stack.x"
INCLUDE "dram2.x"
/* End of Shared sections */
INCLUDE "debug.x"

3
esp-hal/ld/esp32c6/memory.x
View File

@ -21,9 +21,6 @@ MEMORY
*/
RAM : ORIGIN = 0x40800000 , LENGTH = 0x6E610
/* memory available after the 2nd stage bootloader is finished */
dram2_seg ( RW ) : ORIGIN = ORIGIN(RAM) + LENGTH(RAM), len = 0x4087e610 - (ORIGIN(RAM) + LENGTH(RAM))
/* External flash */
/* Instruction and Data ROM */
ROM : ORIGIN = 0x42000000 + 0x20, LENGTH = 0x400000 - 0x20

38
esp-hal/ld/esp32c6/rom-functions.x
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@ -1,13 +1,27 @@
INCLUDE "rom/esp32c6.rom.api.ld"
INCLUDE "rom/esp32c6.rom.coexist.ld"
INCLUDE "rom/esp32c6.rom.heap.ld"
INCLUDE "rom/esp32c6.rom.ld"
INCLUDE "rom/esp32c6.rom.libgcc.ld"
INCLUDE "rom/esp32c6.rom.net80211.ld"
INCLUDE "rom/esp32c6.rom.phy.ld"
INCLUDE "rom/esp32c6.rom.pp.ld"
INCLUDE "rom/esp32c6.rom.rvfp.ld"
INCLUDE "rom/esp32c6.rom.spiflash.ld"
INCLUDE "rom/esp32c6.rom.version.ld"
ets_printf = 0x40000028;
PROVIDE(esp_rom_printf = ets_printf);
PROVIDE(cache_invalidate_icache_all = 0x4000064c);
PROVIDE(cache_suspend_icache = 0x40000698);
PROVIDE(cache_resume_icache = 0x4000069c);
PROVIDE(ets_delay_us = 0x40000040);
PROVIDE(ets_update_cpu_frequency_rom = 0x40000048);
PROVIDE(rtc_get_reset_reason = 0x40000018);
ets_update_cpu_frequency = 0x40000048;
PROVIDE(software_reset = 0x40000090);
PROVIDE(software_reset_cpu = 0x40000094);
INCLUDE "rom/additional.ld"
PROVIDE(esp_rom_crc32_be = 0x40000764);
PROVIDE(esp_rom_crc16_be = 0x40000768);
PROVIDE(esp_rom_crc8_be = 0x4000076c);
PROVIDE(esp_rom_crc32_le = 0x40000758);
PROVIDE(esp_rom_crc16_le = 0x4000075c);
PROVIDE(esp_rom_crc8_le = 0x40000760);
PROVIDE(esp_rom_md5_init = 0x4000074c);
PROVIDE(esp_rom_md5_update = 0x40000750);
PROVIDE(esp_rom_md5_final = 0x40000754);
memset = 0x400004a8;
memcpy = 0x400004ac;
memmove = 0x400004b0;
memcmp = 0x400004b4;

17
esp-hal/ld/esp32c6/rom/additional.ld
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@ -1,17 +0,0 @@
memset = 0x400004a8;
memcpy = 0x400004ac;
memmove = 0x400004b0;
memcmp = 0x400004b4;
strncmp = 0x400004c4;
strncpy = 0x400004bc;
strcpy = 0x400004b8;
abs = 0x40000578;
PROVIDE(strcat = 0x4000052c);
PROVIDE(strcmp = 0x400004c0);
PROVIDE(strchr = 0x40000534);
PROVIDE(strlcpy = 0x40000544);
PROVIDE(strstr = 0x400004cc);
PROVIDE(strcasecmp = 0x40000524);

65
esp-hal/ld/esp32c6/rom/esp32c6.rom.api.ld
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@ -1,65 +0,0 @@
/*
* SPDX-FileCopyrightText: 2022-2024 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
/** ROM APIs
*/
PROVIDE ( esp_rom_crc32_le = crc32_le );
PROVIDE ( esp_rom_crc16_le = crc16_le );
PROVIDE ( esp_rom_crc8_le = crc8_le );
PROVIDE ( esp_rom_crc32_be = crc32_be );
PROVIDE ( esp_rom_crc16_be = crc16_be );
PROVIDE ( esp_rom_crc8_be = crc8_be );
PROVIDE ( esp_rom_gpio_pad_select_gpio = gpio_pad_select_gpio );
PROVIDE ( esp_rom_gpio_pad_pullup_only = gpio_pad_pullup );
PROVIDE ( esp_rom_gpio_pad_set_drv = gpio_pad_set_drv );
PROVIDE ( esp_rom_gpio_pad_unhold = gpio_pad_unhold );
PROVIDE ( esp_rom_gpio_connect_in_signal = gpio_matrix_in );
PROVIDE ( esp_rom_gpio_connect_out_signal = gpio_matrix_out );
PROVIDE ( esp_rom_efuse_mac_address_crc8 = esp_crc8 );
PROVIDE ( esp_rom_efuse_is_secure_boot_enabled = ets_efuse_secure_boot_enabled );
PROVIDE ( esp_rom_uart_flush_tx = uart_tx_flush );
PROVIDE ( esp_rom_uart_tx_one_char = uart_tx_one_char2 );
PROVIDE ( esp_rom_uart_tx_wait_idle = uart_tx_wait_idle );
PROVIDE ( esp_rom_uart_rx_one_char = uart_rx_one_char );
PROVIDE ( esp_rom_uart_rx_string = UartRxString );
PROVIDE ( esp_rom_uart_set_as_console = uart_tx_switch );
PROVIDE ( esp_rom_uart_putc = ets_write_char_uart );
PROVIDE ( esp_rom_output_flush_tx = uart_tx_flush );
PROVIDE ( esp_rom_output_tx_one_char = uart_tx_one_char );
PROVIDE ( esp_rom_output_tx_wait_idle = uart_tx_wait_idle );
PROVIDE ( esp_rom_output_rx_one_char = uart_rx_one_char );
PROVIDE ( esp_rom_output_rx_string = UartRxString );
PROVIDE ( esp_rom_output_set_as_console = uart_tx_switch );
PROVIDE ( esp_rom_output_putc = ets_write_char_uart );
PROVIDE ( esp_rom_md5_init = MD5Init );
PROVIDE ( esp_rom_md5_update = MD5Update );
PROVIDE ( esp_rom_md5_final = MD5Final );
PROVIDE ( esp_rom_software_reset_system = software_reset );
PROVIDE ( esp_rom_software_reset_cpu = software_reset_cpu );
PROVIDE ( esp_rom_printf = ets_printf );
PROVIDE ( esp_rom_install_uart_printf = ets_install_uart_printf );
PROVIDE ( esp_rom_delay_us = ets_delay_us );
PROVIDE ( esp_rom_get_reset_reason = rtc_get_reset_reason );
PROVIDE ( esp_rom_route_intr_matrix = intr_matrix_set );
PROVIDE ( esp_rom_get_cpu_ticks_per_us = ets_get_cpu_frequency );
PROVIDE ( esp_rom_set_cpu_ticks_per_us = ets_update_cpu_frequency );
PROVIDE ( esp_rom_spiflash_attach = spi_flash_attach );
PROVIDE ( esp_rom_spiflash_clear_bp = esp_rom_spiflash_unlock );
PROVIDE ( esp_rom_spiflash_write_enable = SPI_write_enable );
PROVIDE ( esp_rom_spiflash_erase_area = SPIEraseArea );
PROVIDE ( esp_rom_spiflash_fix_dummylen = spi_dummy_len_fix );
PROVIDE ( esp_rom_spiflash_set_drvs = SetSpiDrvs);
PROVIDE ( esp_rom_spiflash_select_padsfunc = SelectSpiFunction );
PROVIDE ( esp_rom_spiflash_common_cmd = SPI_Common_Command );

47
esp-hal/ld/esp32c6/rom/esp32c6.rom.coexist.ld
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@ -1,47 +0,0 @@
/*
* SPDX-FileCopyrightText: 2022 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
/* ROM function interface esp32c6.rom.coexist.ld for esp32c6
*
*
* Generated from ./target/esp32c6/interface-esp32c6.yml md5sum 06c13e133e0743d09b87aba30d3e213b
*
* Compatible with ROM where ECO version equal or greater to 0.
*
* THIS FILE WAS AUTOMATICALLY GENERATED. DO NOT EDIT.
*/
/***************************************
Group rom_coexist
***************************************/
/* Functions */
esp_coex_rom_version_get = 0x40000afc;
coex_bt_release = 0x40000b00;
coex_bt_request = 0x40000b04;
coex_core_ble_conn_dyn_prio_get = 0x40000b08;
/*coex_core_event_duration_get = 0x40000b0c;*/
coex_core_pti_get = 0x40000b10;
coex_core_release = 0x40000b14;
coex_core_request = 0x40000b18;
coex_core_status_get = 0x40000b1c;
/*coex_core_timer_idx_get = 0x40000b20;*/
coex_event_duration_get = 0x40000b24;
coex_hw_timer_disable = 0x40000b28;
coex_hw_timer_enable = 0x40000b2c;
coex_hw_timer_set = 0x40000b30;
coex_schm_interval_set = 0x40000b34;
coex_schm_lock = 0x40000b38;
coex_schm_unlock = 0x40000b3c;
coex_status_get = 0x40000b40;
coex_wifi_release = 0x40000b44;
esp_coex_ble_conn_dynamic_prio_get = 0x40000b48;
/* Data (.data, .bss, .rodata) */
coex_env_ptr = 0x4087ffc4;
coex_pti_tab_ptr = 0x4087ffc0;
coex_schm_env_ptr = 0x4087ffbc;
coexist_funcs = 0x4087ffb8;
g_coa_funcs_p = 0x4087ffb4;
g_coex_param_ptr = 0x4087ffb0;

80
esp-hal/ld/esp32c6/rom/esp32c6.rom.heap.ld
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@ -1,80 +0,0 @@
/*
* SPDX-FileCopyrightText: 2022 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
/* ROM function interface esp32c6.rom.heap.ld for esp32c6
*
*
* Generated from ./target/esp32c6/interface-esp32c6.yml md5sum 06c13e133e0743d09b87aba30d3e213b
*
* Compatible with ROM where ECO version equal or greater to 0.
*
* THIS FILE WAS AUTOMATICALLY GENERATED. DO NOT EDIT.
*/
/***************************************
Group heap
***************************************/
/* Functions */
tlsf_create = 0x400003fc;
tlsf_create_with_pool = 0x40000400;
tlsf_get_pool = 0x40000404;
tlsf_add_pool = 0x40000408;
tlsf_remove_pool = 0x4000040c;
tlsf_malloc = 0x40000410;
tlsf_memalign = 0x40000414;
tlsf_memalign_offs = 0x40000418;
tlsf_realloc = 0x4000041c;
tlsf_free = 0x40000420;
tlsf_block_size = 0x40000424;
tlsf_size = 0x40000428;
tlsf_align_size = 0x4000042c;
tlsf_block_size_min = 0x40000430;
tlsf_block_size_max = 0x40000434;
tlsf_pool_overhead = 0x40000438;
tlsf_alloc_overhead = 0x4000043c;
tlsf_walk_pool = 0x40000440;
tlsf_check = 0x40000444;
tlsf_poison_fill_pfunc_set = 0x4000044c;
tlsf_poison_check_pfunc_set = 0x40000450;
multi_heap_get_block_address_impl = 0x40000454;
multi_heap_get_allocated_size_impl = 0x40000458;
multi_heap_register_impl = 0x4000045c;
multi_heap_set_lock = 0x40000460;
multi_heap_mutex_init = 0x40000464;
multi_heap_internal_lock = 0x40000468;
multi_heap_internal_unlock = 0x4000046c;
multi_heap_get_first_block = 0x40000470;
multi_heap_get_next_block = 0x40000474;
multi_heap_is_free = 0x40000478;
multi_heap_malloc_impl = 0x4000047c;
multi_heap_free_impl = 0x40000480;
multi_heap_realloc_impl = 0x40000484;
multi_heap_aligned_alloc_impl_offs = 0x40000488;
multi_heap_aligned_alloc_impl = 0x4000048c;
multi_heap_check = 0x40000490;
multi_heap_dump = 0x40000494;
multi_heap_free_size_impl = 0x40000498;
multi_heap_minimum_free_size_impl = 0x4000049c;
multi_heap_get_info_impl = 0x400004a0;
/* Data (.data, .bss, .rodata) */
heap_tlsf_table_ptr = 0x4087ffd8;
PROVIDE (multi_heap_malloc = multi_heap_malloc_impl);
PROVIDE (multi_heap_free = multi_heap_free_impl);
PROVIDE (multi_heap_realloc = multi_heap_realloc_impl);
PROVIDE (multi_heap_get_allocated_size = multi_heap_get_allocated_size_impl);
PROVIDE (multi_heap_register = multi_heap_register_impl);
PROVIDE (multi_heap_get_info = multi_heap_get_info_impl);
PROVIDE (multi_heap_free_size = multi_heap_free_size_impl);
PROVIDE (multi_heap_minimum_free_size = multi_heap_minimum_free_size_impl);
PROVIDE (multi_heap_get_block_address = multi_heap_get_block_address_impl);
PROVIDE (multi_heap_aligned_alloc = multi_heap_aligned_alloc_impl);
PROVIDE (multi_heap_aligned_free = multi_heap_aligned_free_impl);
PROVIDE (multi_heap_check = multi_heap_check);
PROVIDE (multi_heap_set_lock = multi_heap_set_lock);
PROVIDE (multi_heap_os_funcs_init = multi_heap_mutex_init);
PROVIDE (multi_heap_internal_lock = multi_heap_internal_lock);
PROVIDE (multi_heap_internal_unlock = multi_heap_internal_unlock);

439
esp-hal/ld/esp32c6/rom/esp32c6.rom.ld
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@ -1,439 +0,0 @@
/*
* SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
/* ROM function interface esp32c6.rom.ld for esp32c6
*
*
* Generated from ./target/esp32c6/interface-esp32c6.yml md5sum 06c13e133e0743d09b87aba30d3e213b
*
* Compatible with ROM where ECO version equal or greater to 0.
*
* THIS FILE WAS AUTOMATICALLY GENERATED. DO NOT EDIT.
*/
/***************************************
Group common
***************************************/
/* Functions */
rtc_get_reset_reason = 0x40000018;
analog_super_wdt_reset_happened = 0x4000001c;
rtc_get_wakeup_cause = 0x40000020;
rtc_unhold_all_pads = 0x40000024;
ets_printf = 0x40000028;
ets_install_putc1 = 0x4000002c;
ets_install_putc2 = 0x40000030;
ets_install_uart_printf = 0x40000034;
ets_install_usb_printf = 0x40000038;
ets_get_printf_channel = 0x4000003c;
ets_delay_us = 0x40000040;
ets_get_cpu_frequency = 0x40000044;
ets_update_cpu_frequency = 0x40000048;
ets_install_lock = 0x4000004c;
UartRxString = 0x40000050;
UartGetCmdLn = 0x40000054;
uart_tx_one_char = 0x40000058;
uart_tx_one_char2 = 0x4000005c;
uart_rx_one_char = 0x40000060;
uart_rx_one_char_block = 0x40000064;
uart_rx_intr_handler = 0x40000068;
uart_rx_readbuff = 0x4000006c;
uartAttach = 0x40000070;
uart_tx_flush = 0x40000074;
uart_tx_wait_idle = 0x40000078;
uart_div_modify = 0x4000007c;
ets_write_char_uart = 0x40000080;
uart_tx_switch = 0x40000084;
roundup2 = 0x40000088;
multofup = 0x4000008c;
software_reset = 0x40000090;
software_reset_cpu = 0x40000094;
ets_clk_assist_debug_clock_enable = 0x40000098;
clear_super_wdt_reset_flag = 0x4000009c;
disable_default_watchdog = 0x400000a0;
esp_rom_set_rtc_wake_addr = 0x400000a4;
esp_rom_get_rtc_wake_addr = 0x400000a8;
send_packet = 0x400000ac;
recv_packet = 0x400000b0;
GetUartDevice = 0x400000b4;
UartDwnLdProc = 0x400000b8;
GetSecurityInfoProc = 0x400000bc;
Uart_Init = 0x400000c0;
ets_set_user_start = 0x400000c4;
/* Data (.data, .bss, .rodata) */
ets_rom_layout_p = 0x4004fffc;
ets_ops_table_ptr = 0x4087fff8;
g_saved_pc = 0x4087fffc;
/***************************************
Group miniz
***************************************/
/* Functions */
mz_adler32 = 0x400000c8;
mz_free = 0x400000cc;
tdefl_compress = 0x400000d0;
tdefl_compress_buffer = 0x400000d4;
tdefl_compress_mem_to_heap = 0x400000d8;
tdefl_compress_mem_to_mem = 0x400000dc;
tdefl_compress_mem_to_output = 0x400000e0;
tdefl_get_adler32 = 0x400000e4;
tdefl_get_prev_return_status = 0x400000e8;
tdefl_init = 0x400000ec;
tdefl_write_image_to_png_file_in_memory = 0x400000f0;
tdefl_write_image_to_png_file_in_memory_ex = 0x400000f4;
tinfl_decompress = 0x400000f8;
tinfl_decompress_mem_to_callback = 0x400000fc;
tinfl_decompress_mem_to_heap = 0x40000100;
tinfl_decompress_mem_to_mem = 0x40000104;
/***************************************
Group tjpgd
***************************************/
/* Functions */
jd_prepare = 0x40000108;
jd_decomp = 0x4000010c;
/***************************************
Group spiflash_legacy
***************************************/
/* Functions */
esp_rom_spiflash_wait_idle = 0x40000110;
esp_rom_spiflash_write_encrypted = 0x40000114;
esp_rom_spiflash_write_encrypted_dest = 0x40000118;
esp_rom_spiflash_write_encrypted_enable = 0x4000011c;
esp_rom_spiflash_write_encrypted_disable = 0x40000120;
esp_rom_spiflash_erase_chip = 0x40000124;
_esp_rom_spiflash_erase_sector = 0x40000128;
_esp_rom_spiflash_erase_block = 0x4000012c;
_esp_rom_spiflash_write = 0x40000130;
_esp_rom_spiflash_read = 0x40000134;
_esp_rom_spiflash_unlock = 0x40000138;
_SPIEraseArea = 0x4000013c;
_SPI_write_enable = 0x40000140;
esp_rom_spiflash_erase_sector = 0x40000144;
esp_rom_spiflash_erase_block = 0x40000148;
esp_rom_spiflash_write = 0x4000014c;
esp_rom_spiflash_read = 0x40000150;
esp_rom_spiflash_unlock = 0x40000154;
SPIEraseArea = 0x40000158;
SPI_write_enable = 0x4000015c;
esp_rom_spiflash_config_param = 0x40000160;
esp_rom_spiflash_read_user_cmd = 0x40000164;
esp_rom_spiflash_select_qio_pins = 0x40000168;
esp_rom_spi_flash_auto_sus_res = 0x4000016c;
esp_rom_spi_flash_send_resume = 0x40000170;
esp_rom_spi_flash_update_id = 0x40000174;
esp_rom_spiflash_config_clk = 0x40000178;
esp_rom_spiflash_config_readmode = 0x4000017c;
esp_rom_spiflash_read_status = 0x40000180;
esp_rom_spiflash_read_statushigh = 0x40000184;
esp_rom_spiflash_write_status = 0x40000188;
spi_cache_mode_switch = 0x4000018c;
spi_common_set_dummy_output = 0x40000190;
spi_common_set_flash_cs_timing = 0x40000194;
esp_rom_spi_set_address_bit_len = 0x40000198;
SPILock = 0x4000019c;
SPIMasterReadModeCnfig = 0x400001a0;
SPI_Common_Command = 0x400001a4;
SPI_WakeUp = 0x400001a8;
SPI_block_erase = 0x400001ac;
SPI_chip_erase = 0x400001b0;
SPI_init = 0x400001b4;
SPI_page_program = 0x400001b8;
SPI_read_data = 0x400001bc;
SPI_sector_erase = 0x400001c0;
SelectSpiFunction = 0x400001c4;
SetSpiDrvs = 0x400001c8;
Wait_SPI_Idle = 0x400001cc;
spi_dummy_len_fix = 0x400001d0;
Disable_QMode = 0x400001d4;
Enable_QMode = 0x400001d8;
spi_flash_attach = 0x400001dc;
spi_flash_get_chip_size = 0x400001e0;
spi_flash_guard_set = 0x400001e4;
spi_flash_guard_get = 0x400001e8;
spi_flash_read_encrypted = 0x400001ec;
/* Data (.data, .bss, .rodata) */
rom_spiflash_legacy_funcs = 0x4087fff0;
rom_spiflash_legacy_data = 0x4087ffec;
g_flash_guard_ops = 0x4087fff4;
/* Note: esp_rom_spiflash_write_disable was moved from esp32c6.rom.spiflash.ld */
esp_rom_spiflash_write_disable = 0x40000278;
/***************************************
Group cache
***************************************/
/* Functions */
Cache_Get_ICache_Line_Size = 0x40000628;
Cache_Get_Mode = 0x4000062c;
Cache_Address_Through_Cache = 0x40000630;
ROM_Boot_Cache_Init = 0x40000634;
MMU_Set_Page_Mode = 0x40000638;
MMU_Get_Page_Mode = 0x4000063c;
Cache_Invalidate_ICache_Items = 0x40000640;
Cache_Op_Addr = 0x40000644;
Cache_Invalidate_Addr = 0x40000648;
Cache_Invalidate_ICache_All = 0x4000064c;
Cache_Mask_All = 0x40000650;
Cache_UnMask_Dram0 = 0x40000654;
Cache_Suspend_ICache_Autoload = 0x40000658;
Cache_Resume_ICache_Autoload = 0x4000065c;
Cache_Start_ICache_Preload = 0x40000660;
Cache_ICache_Preload_Done = 0x40000664;
Cache_End_ICache_Preload = 0x40000668;
Cache_Config_ICache_Autoload = 0x4000066c;
Cache_Enable_ICache_Autoload = 0x40000670;
Cache_Disable_ICache_Autoload = 0x40000674;
Cache_Enable_ICache_PreLock = 0x40000678;
Cache_Disable_ICache_PreLock = 0x4000067c;
Cache_Lock_ICache_Items = 0x40000680;
Cache_Unlock_ICache_Items = 0x40000684;
Cache_Lock_Addr = 0x40000688;
Cache_Unlock_Addr = 0x4000068c;
Cache_Disable_ICache = 0x40000690;
Cache_Enable_ICache = 0x40000694;
Cache_Suspend_ICache = 0x40000698;
Cache_Resume_ICache = 0x4000069c;
Cache_Freeze_ICache_Enable = 0x400006a0;
Cache_Freeze_ICache_Disable = 0x400006a4;
Cache_Set_IDROM_MMU_Size = 0x400006a8;
Cache_Get_IROM_MMU_End = 0x400006ac;
Cache_Get_DROM_MMU_End = 0x400006b0;
Cache_MMU_Init = 0x400006b4;
Cache_MSPI_MMU_Set = 0x400006b8;
Cache_Travel_Tag_Memory = 0x400006bc;
Cache_Get_Virtual_Addr = 0x400006c0;
/* Data (.data, .bss, .rodata) */
rom_cache_op_cb = 0x4087ffcc;
rom_cache_internal_table_ptr = 0x4087ffc8;
/***************************************
Group clock
***************************************/
/* Functions */
ets_clk_get_xtal_freq = 0x400006c4;
ets_clk_get_cpu_freq = 0x400006c8;
ets_clk_apb_wait_ready = 0x400006cc;
ets_clk_mspi_apb_wait_ready = 0x400006d0;
/***************************************
Group gpio
***************************************/
/* Functions */
gpio_input_get = 0x400006d4;
gpio_matrix_in = 0x400006d8;
gpio_matrix_out = 0x400006dc;
gpio_output_disable = 0x400006e0;
gpio_output_enable = 0x400006e4;
gpio_output_set = 0x400006e8;
gpio_pad_hold = 0x400006ec;
gpio_pad_input_disable = 0x400006f0;
gpio_pad_input_enable = 0x400006f4;
gpio_pad_pulldown = 0x400006f8;
gpio_pad_pullup = 0x400006fc;
gpio_pad_select_gpio = 0x40000700;
gpio_pad_set_drv = 0x40000704;
gpio_pad_unhold = 0x40000708;
gpio_pin_wakeup_disable = 0x4000070c;
gpio_pin_wakeup_enable = 0x40000710;
gpio_bypass_matrix_in = 0x40000714;
/***************************************
Group interrupts
***************************************/
/* Functions */
esprv_intc_int_set_priority = 0x40000718;
esprv_intc_int_set_threshold = 0x4000071c;
esprv_intc_int_enable = 0x40000720;
esprv_intc_int_disable = 0x40000724;
esprv_intc_int_set_type = 0x40000728;
PROVIDE( intr_handler_set = 0x4000072c );
intr_matrix_set = 0x40000730;
ets_intr_lock = 0x40000734;
ets_intr_unlock = 0x40000738;
ets_isr_attach = 0x4000073c;
ets_isr_mask = 0x40000740;
ets_isr_unmask = 0x40000744;
/***************************************
Group crypto
***************************************/
/* Functions */
md5_vector = 0x40000748;
MD5Init = 0x4000074c;
MD5Update = 0x40000750;
MD5Final = 0x40000754;
crc32_le = 0x40000758;
crc16_le = 0x4000075c;
crc8_le = 0x40000760;
crc32_be = 0x40000764;
crc16_be = 0x40000768;
crc8_be = 0x4000076c;
esp_crc8 = 0x40000770;
ets_sha_enable = 0x40000774;
ets_sha_disable = 0x40000778;
ets_sha_get_state = 0x4000077c;
ets_sha_init = 0x40000780;
ets_sha_process = 0x40000784;
ets_sha_starts = 0x40000788;
ets_sha_update = 0x4000078c;
ets_sha_finish = 0x40000790;
ets_sha_clone = 0x40000794;
ets_hmac_enable = 0x40000798;
ets_hmac_disable = 0x4000079c;
ets_hmac_calculate_message = 0x400007a0;
ets_hmac_calculate_downstream = 0x400007a4;
ets_hmac_invalidate_downstream = 0x400007a8;
ets_jtag_enable_temporarily = 0x400007ac;
ets_aes_enable = 0x400007b0;
ets_aes_disable = 0x400007b4;
ets_aes_setkey = 0x400007b8;
ets_aes_block = 0x400007bc;
ets_aes_setkey_dec = 0x400007c0;
ets_aes_setkey_enc = 0x400007c4;
ets_bigint_enable = 0x400007c8;
ets_bigint_disable = 0x400007cc;
ets_bigint_multiply = 0x400007d0;
ets_bigint_modmult = 0x400007d4;
ets_bigint_modexp = 0x400007d8;
ets_bigint_wait_finish = 0x400007dc;
ets_bigint_getz = 0x400007e0;
ets_ds_enable = 0x400007e4;
ets_ds_disable = 0x400007e8;
ets_ds_start_sign = 0x400007ec;
ets_ds_is_busy = 0x400007f0;
ets_ds_finish_sign = 0x400007f4;
ets_ds_encrypt_params = 0x400007f8;
ets_mgf1_sha256 = 0x400007fc;
/* Data (.data, .bss, .rodata) */
crc32_le_table_ptr = 0x4004fff8;
crc16_le_table_ptr = 0x4004fff4;
crc8_le_table_ptr = 0x4004fff0;
crc32_be_table_ptr = 0x4004ffec;
crc16_be_table_ptr = 0x4004ffe8;
crc8_be_table_ptr = 0x4004ffe4;
/***************************************
Group efuse
***************************************/
/* Functions */
ets_efuse_read = 0x40000800;
ets_efuse_program = 0x40000804;
ets_efuse_clear_program_registers = 0x40000808;
ets_efuse_write_key = 0x4000080c;
ets_efuse_get_read_register_address = 0x40000810;
ets_efuse_get_key_purpose = 0x40000814;
ets_efuse_key_block_unused = 0x40000818;
ets_efuse_find_unused_key_block = 0x4000081c;
ets_efuse_rs_calculate = 0x40000820;
ets_efuse_count_unused_key_blocks = 0x40000824;
ets_efuse_secure_boot_enabled = 0x40000828;
ets_efuse_secure_boot_aggressive_revoke_enabled = 0x4000082c;
ets_efuse_cache_encryption_enabled = 0x40000830;
ets_efuse_download_modes_disabled = 0x40000834;
ets_efuse_find_purpose = 0x40000838;
ets_efuse_force_send_resume = 0x4000083c;
ets_efuse_get_flash_delay_us = 0x40000840;
ets_efuse_get_mac = 0x40000844;
ets_efuse_get_uart_print_control = 0x40000848;
ets_efuse_direct_boot_mode_disabled = 0x4000084c;
ets_efuse_security_download_modes_enabled = 0x40000850;
ets_efuse_set_timing = 0x40000854;
ets_efuse_jtag_disabled = 0x40000858;
ets_efuse_usb_print_is_disabled = 0x4000085c;
ets_efuse_usb_download_mode_disabled = 0x40000860;
ets_efuse_usb_device_disabled = 0x40000864;
ets_efuse_secure_boot_fast_wake_enabled = 0x40000868;
/***************************************
Group secureboot
***************************************/
/* Functions */
ets_emsa_pss_verify = 0x4000086c;
ets_rsa_pss_verify = 0x40000870;
ets_secure_boot_verify_bootloader_with_keys = 0x40000874;
ets_secure_boot_verify_signature = 0x40000878;
ets_secure_boot_read_key_digests = 0x4000087c;
ets_secure_boot_revoke_public_key_digest = 0x40000880;
/***************************************
Group usb_device_uart
***************************************/
/* Functions */
usb_serial_device_rx_one_char = 0x40000a80;
usb_serial_device_rx_one_char_block = 0x40000a84;
usb_serial_device_tx_flush = 0x40000a88;
usb_serial_device_tx_one_char = 0x40000a8c;
/***************************************
Group lldesc
***************************************/
/* Functions */
lldesc_build_chain = 0x40000a90;
/***************************************
Group sip
***************************************/
/* Functions */
sip_after_tx_complete = 0x40000a94;
sip_alloc_to_host_evt = 0x40000a98;
sip_download_begin = 0x40000a9c;
sip_get_ptr = 0x40000aa0;
sip_get_state = 0x40000aa4;
sip_init_attach = 0x40000aa8;
sip_install_rx_ctrl_cb = 0x40000aac;
sip_install_rx_data_cb = 0x40000ab0;
sip_is_active = 0x40000ab4;
sip_post_init = 0x40000ab8;
sip_reclaim_from_host_cmd = 0x40000abc;
sip_reclaim_tx_data_pkt = 0x40000ac0;
sip_send = 0x40000ac4;
sip_to_host_chain_append = 0x40000ac8;
sip_to_host_evt_send_done = 0x40000acc;
/***************************************
Group slc
***************************************/
/* Functions */
slc_add_credits = 0x40000ad0;
slc_enable = 0x40000ad4;
slc_from_host_chain_fetch = 0x40000ad8;
slc_from_host_chain_recycle = 0x40000adc;
slc_has_pkt_to_host = 0x40000ae0;
slc_init_attach = 0x40000ae4;
slc_init_credit = 0x40000ae8;
slc_reattach = 0x40000aec;
slc_send_to_host_chain = 0x40000af0;
slc_set_host_io_max_window = 0x40000af4;
slc_to_host_chain_recycle = 0x40000af8;

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