rtic/macros/src/check.rs

use std::collections::HashSet;

use proc_macro2::Span;
use rtfm_syntax::{
    analyze::Analysis,
    ast::{App, CustomArg, HardwareTaskKind},
};
use syn::{parse, Path};

pub struct Extra<'a> {
    pub device: &'a Path,
    pub monotonic: Option<&'a Path>,
    pub peripherals: Option<u8>,
}

impl<'a> Extra<'a> {
    pub fn monotonic(&self) -> &'a Path {
        self.monotonic.expect("UNREACHABLE")
    }
}

pub fn app<'a>(app: &'a App, analysis: &Analysis) -> parse::Result<Extra<'a>> {
    // check that all exceptions are valid; only exceptions with configurable priorities are
    // accepted
    for (name, task) in app
        .hardware_tasks
        .iter()
        .filter(|(_, task)| task.kind == HardwareTaskKind::Exception)
    {
        let name_s = task.args.binds(name).to_string();
        match &*name_s {
            // NOTE that some of these don't exist on ARMv6-M but we don't check that here -- the
            // code we generate will check that the exception actually exists on ARMv6-M
            "MemoryManagement" | "BusFault" | "UsageFault" | "SecureFault" | "SVCall"
            | "DebugMonitor" | "PendSV" => {} // OK

            "SysTick" => {
                if analysis.timer_queues.get(&task.args.core).is_some() {
                    return Err(parse::Error::new(
                        name.span(),
                        "this exception can't be used because it's being used by the runtime",
                    ));
                } else {
                    // OK
                }
            }

            _ => {
                return Err(parse::Error::new(
                    name.span(),
                    "only exceptions with configurable priority can be used as hardware tasks",
                ));
            }
        }
    }

    // check that external (device-specific) interrupts are not named after known (Cortex-M)
    // exceptions
    for name in app
        .extern_interrupts
        .iter()
        .flat_map(|(_, interrupts)| interrupts.keys())
    {
        let name_s = name.to_string();

        match &*name_s {
            "NonMaskableInt" | "HardFault" | "MemoryManagement" | "BusFault" | "UsageFault"
            | "SecureFault" | "SVCall" | "DebugMonitor" | "PendSV" | "SysTick" => {
                return Err(parse::Error::new(
                    name.span(),
                    "Cortex-M exceptions can't be used as `extern` interrupts",
                ));
            }

            _ => {}
        }
    }

    // check that there are enough external interrupts to dispatch the software tasks and the timer
    // queue handler
    for core in 0..app.args.cores {
        let mut first = None;
        let priorities = app
            .software_tasks
            .iter()
            .filter_map(|(name, task)| {
                if task.args.core == core {
                    first = Some(name);
                    Some(task.args.priority)
                } else {
                    None
                }
            })
            .chain(analysis.timer_queues.get(&core).map(|tq| tq.priority))
            .collect::<HashSet<_>>();

        let need = priorities.len();
        let given = app
            .extern_interrupts
            .get(&core)
            .map(|ei| ei.len())
            .unwrap_or(0);
        if need > given {
            let s = if app.args.cores == 1 {
                format!(
                    "not enough `extern` interrupts to dispatch \
                     all software tasks (need: {}; given: {})",
                    need, given
                )
            } else {
                format!(
                    "not enough `extern` interrupts to dispatch \
                     all software tasks on this core (need: {}; given: {})",
                    need, given
                )
            };

            return Err(parse::Error::new(first.unwrap().span(), &s));
        }
    }

    let mut device = None;
    let mut monotonic = None;
    let mut peripherals = None;

    for (k, v) in &app.args.custom {
        let ks = k.to_string();

        match &*ks {
            "device" => match v {
                CustomArg::Path(p) => device = Some(p),

                _ => {
                    return Err(parse::Error::new(
                        k.span(),
                        "unexpected argument value; this should be a path",
                    ));
                }
            },

            "monotonic" => match v {
                CustomArg::Path(p) => monotonic = Some(p),

                _ => {
                    return Err(parse::Error::new(
                        k.span(),
                        "unexpected argument value; this should be a path",
                    ));
                }
            },

            "peripherals" => match v {
                CustomArg::Bool(x) if app.args.cores == 1 => {
                    peripherals = if *x { Some(0) } else { None }
                }

                CustomArg::UInt(x) if app.args.cores != 1 => {
                    peripherals = if *x < u64::from(app.args.cores) {
                        Some(*x as u8)
                    } else {
                        return Err(parse::Error::new(
                            k.span(),
                            &format!(
                                "unexpected argument value; \
                                 this should be an integer in the range 0..={}",
                                app.args.cores
                            ),
                        ));
                    }
                }

                _ => {
                    return Err(parse::Error::new(
                        k.span(),
                        if app.args.cores == 1 {
                            "unexpected argument value; this should be a boolean"
                        } else {
                            "unexpected argument value; this should be an integer"
                        },
                    ));
                }
            },

            _ => {
                return Err(parse::Error::new(k.span(), "unexpected argument"));
            }
        }
    }

    if !analysis.timer_queues.is_empty() && monotonic.is_none() {
        return Err(parse::Error::new(
            Span::call_site(),
            "a `monotonic` timer must be specified to use the `schedule` API",
        ));
    }

    if let Some(device) = device {
        Ok(Extra {
            device,
            monotonic,
            peripherals,
        })
    } else {
        Err(parse::Error::new(
            Span::call_site(),
            "a `device` argument must be specified in `#[rtfm::app]`",
        ))
    }
}
rtfm-syntax refactor + heterogeneous multi-core support 2019-06-13 23:56:59 +02:00			`use std::collections::HashSet;`
split macro parser into its own crate and improve error handling / reporting 2017-07-15 01:54:54 +02:00
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`use proc_macro2::Span;`
rtfm-syntax refactor + heterogeneous multi-core support 2019-06-13 23:56:59 +02:00			`use rtfm_syntax::{`
			`analyze::Analysis,`
			`ast::{App, CustomArg, HardwareTaskKind},`
			`};`
			`use syn::{parse, Path};`

			`pub struct Extra<'a> {`
			`pub device: &'a Path,`
			`pub monotonic: Option<&'a Path>,`
			`pub peripherals: Option<u8>,`
			`}`

			`impl<'a> Extra<'a> {`
			`pub fn monotonic(&self) -> &'a Path {`
			`self.monotonic.expect("UNREACHABLE")`
			`}`
			`}`

			`pub fn app<'a>(app: &'a App, analysis: &Analysis) -> parse::Result<Extra<'a>> {`
			`// check that all exceptions are valid; only exceptions with configurable priorities are`
			`// accepted`
			`for (name, task) in app`
			`.hardware_tasks`
			`.iter()`
			`.filter(\|(_, task)\| task.kind == HardwareTaskKind::Exception)`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`{`
rtfm-syntax refactor + heterogeneous multi-core support 2019-06-13 23:56:59 +02:00			`let name_s = task.args.binds(name).to_string();`
			`match &*name_s {`
			`// NOTE that some of these don't exist on ARMv6-M but we don't check that here -- the`
			`// code we generate will check that the exception actually exists on ARMv6-M`
			`"MemoryManagement" \| "BusFault" \| "UsageFault" \| "SecureFault" \| "SVCall"`
			`\| "DebugMonitor" \| "PendSV" => {} // OK`

			`"SysTick" => {`
			`if analysis.timer_queues.get(&task.args.core).is_some() {`
			`return Err(parse::Error::new(`
			`name.span(),`
			`"this exception can't be used because it's being used by the runtime",`
			`));`
			`} else {`
			`// OK`
			`}`
			`}`

			`_ => {`
			`return Err(parse::Error::new(`
			`name.span(),`
			`"only exceptions with configurable priority can be used as hardware tasks",`
			`));`
			`}`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`}`
make task.$T.enabled optional and move the logic that differentiates interrupts from exceptions from the crate to the procedural macro logic 2017-07-28 00:08:42 +02:00			`}`

rtfm-syntax refactor + heterogeneous multi-core support 2019-06-13 23:56:59 +02:00			`// check that external (device-specific) interrupts are not named after known (Cortex-M)`
			`// exceptions`
			`for name in app`
			`.extern_interrupts`
			`.iter()`
			`.flat_map(\|(_, interrupts)\| interrupts.keys())`
			`{`
			`let name_s = name.to_string();`

			`match &*name_s {`
			`"NonMaskableInt" \| "HardFault" \| "MemoryManagement" \| "BusFault" \| "UsageFault"`
			`\| "SecureFault" \| "SVCall" \| "DebugMonitor" \| "PendSV" \| "SysTick" => {`
			`return Err(parse::Error::new(`
			`name.span(),`
			"Cortex-M exceptions can't be used as `extern` interrupts",
			`));`
			`}`

			`_ => {}`
make task.$T.enabled optional and move the logic that differentiates interrupts from exceptions from the crate to the procedural macro logic 2017-07-28 00:08:42 +02:00			`}`
			`}`

rtfm-syntax refactor + heterogeneous multi-core support 2019-06-13 23:56:59 +02:00			`// check that there are enough external interrupts to dispatch the software tasks and the timer`
			`// queue handler`
			`for core in 0..app.args.cores {`
			`let mut first = None;`
			`let priorities = app`
			`.software_tasks`
			`.iter()`
			`.filter_map(\|(name, task)\| {`
			`if task.args.core == core {`
			`first = Some(name);`
			`Some(task.args.priority)`
			`} else {`
			`None`
			`}`
			`})`
			`.chain(analysis.timer_queues.get(&core).map(\|tq\| tq.priority))`
			`.collect::<HashSet<_>>();`

			`let need = priorities.len();`
			`let given = app`
			`.extern_interrupts`
			`.get(&core)`
			`.map(\|ei\| ei.len())`
			`.unwrap_or(0);`
			`if need > given {`
			`let s = if app.args.cores == 1 {`
			`format!(`
			"not enough `extern` interrupts to dispatch \
			`all software tasks (need: {}; given: {})",`
			`need, given`
			`)`
			`} else {`
			`format!(`
			"not enough `extern` interrupts to dispatch \
			`all software tasks on this core (need: {}; given: {})",`
			`need, given`
			`)`
			`};`

			`return Err(parse::Error::new(first.unwrap().span(), &s));`
remove unused check that was added in #140 but it's no longer required 2019-05-21 14:43:05 +02:00			`}`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`}`
split macro parser into its own crate and improve error handling / reporting 2017-07-15 01:54:54 +02:00
rtfm-syntax refactor + heterogeneous multi-core support 2019-06-13 23:56:59 +02:00			`let mut device = None;`
			`let mut monotonic = None;`
			`let mut peripherals = None;`

			`for (k, v) in &app.args.custom {`
			`let ks = k.to_string();`

			`match &*ks {`
			`"device" => match v {`
			`CustomArg::Path(p) => device = Some(p),`

			`_ => {`
			`return Err(parse::Error::new(`
			`k.span(),`
			`"unexpected argument value; this should be a path",`
			`));`
			`}`
			`},`

			`"monotonic" => match v {`
			`CustomArg::Path(p) => monotonic = Some(p),`

			`_ => {`
			`return Err(parse::Error::new(`
			`k.span(),`
			`"unexpected argument value; this should be a path",`
			`));`
			`}`
			`},`

			`"peripherals" => match v {`
			`CustomArg::Bool(x) if app.args.cores == 1 => {`
			`peripherals = if *x { Some(0) } else { None }`
			`}`

			`CustomArg::UInt(x) if app.args.cores != 1 => {`
			`peripherals = if *x < u64::from(app.args.cores) {`
			`Some(*x as u8)`
			`} else {`
			`return Err(parse::Error::new(`
			`k.span(),`
			`&format!(`
			`"unexpected argument value; \`
			`this should be an integer in the range 0..={}",`
			`app.args.cores`
			`),`
			`));`
			`}`
			`}`

			`_ => {`
			`return Err(parse::Error::new(`
			`k.span(),`
			`if app.args.cores == 1 {`
			`"unexpected argument value; this should be a boolean"`
			`} else {`
			`"unexpected argument value; this should be an integer"`
			`},`
			`));`
			`}`
			`},`

			`_ => {`
			`return Err(parse::Error::new(k.span(), "unexpected argument"));`
			`}`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`}`
			`}`
split macro parser into its own crate and improve error handling / reporting 2017-07-15 01:54:54 +02:00
rtfm-syntax refactor + heterogeneous multi-core support 2019-06-13 23:56:59 +02:00			`if !analysis.timer_queues.is_empty() && monotonic.is_none() {`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`return Err(parse::Error::new(`
			`Span::call_site(),`
rtfm-syntax refactor + heterogeneous multi-core support 2019-06-13 23:56:59 +02:00			"a `monotonic` timer must be specified to use the `schedule` API",
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`));`
			`}`
make task.$T.enabled optional and move the logic that differentiates interrupts from exceptions from the crate to the procedural macro logic 2017-07-28 00:08:42 +02:00
rtfm-syntax refactor + heterogeneous multi-core support 2019-06-13 23:56:59 +02:00			`if let Some(device) = device {`
			`Ok(Extra {`
			`device,`
			`monotonic,`
			`peripherals,`
			`})`
			`} else {`
			`Err(parse::Error::new(`
			`Span::call_site(),`
			"a `device` argument must be specified in `#[rtfm::app]`",
			`))`
v0.4.0 closes #32 closes #33 2018-11-03 17:02:41 +01:00			`}`
rtfm! macro take 2 2017-07-04 18:26:11 +02:00			`}`