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84 lines
2.8 KiB
Markdown
84 lines
2.8 KiB
Markdown
# Ceiling analysis
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A resource *priority ceiling*, or just *ceiling*, is the dynamic priority that
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any task must have to safely access the resource memory. Ceiling analysis is
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relatively simple but critical to the memory safety of RTIC applications.
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To compute the ceiling of a resource we must first collect a list of tasks that
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have access to the resource -- as the RTIC framework enforces access control to
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resources at compile time it also has access to this information at compile
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time. The ceiling of the resource is simply the highest logical priority among
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those tasks.
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`init` and `idle` are not proper tasks but they can access resources so they
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need to be considered in the ceiling analysis. `idle` is considered as a task
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that has a logical priority of `0` whereas `init` is completely omitted from the
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analysis -- the reason for that is that `init` never uses (or needs) critical
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sections to access static variables.
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In the previous section we showed that a shared resource may appear as a unique
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reference (`&mut-`) or behind a proxy depending on the task that has access to
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it. Which version is presented to the task depends on the task priority and the
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resource ceiling. If the task priority is the same as the resource ceiling then
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the task gets a unique reference (`&mut-`) to the resource memory, otherwise the
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task gets a proxy -- this also applies to `idle`. `init` is special: it always
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gets a unique reference (`&mut-`) to resources.
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An example to illustrate the ceiling analysis:
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``` rust
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#[rtic::app(device = ..)]
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mod app {
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struct Resources {
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// accessed by `foo` (prio = 1) and `bar` (prio = 2)
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// -> CEILING = 2
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#[init(0)]
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x: u64,
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// accessed by `idle` (prio = 0)
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// -> CEILING = 0
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#[init(0)]
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y: u64,
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}
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#[init(resources = [x])]
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fn init(c: init::Context) {
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// unique reference because this is `init`
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let x: &mut u64 = c.resources.x;
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// unique reference because this is `init`
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let y: &mut u64 = c.resources.y;
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// ..
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}
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// PRIORITY = 0
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#[idle(resources = [y])]
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fn idle(c: idle::Context) -> ! {
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// unique reference because priority (0) == resource ceiling (0)
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let y: &'static mut u64 = c.resources.y;
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loop {
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// ..
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}
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}
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#[interrupt(binds = UART0, priority = 1, resources = [x])]
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fn foo(c: foo::Context) {
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// resource proxy because task priority (1) < resource ceiling (2)
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let x: resources::x = c.resources.x;
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// ..
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}
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#[interrupt(binds = UART1, priority = 2, resources = [x])]
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fn bar(c: foo::Context) {
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// unique reference because task priority (2) == resource ceiling (2)
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let x: &mut u64 = c.resources.x;
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// ..
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}
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// ..
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}
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```
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