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|
//! Data Watchpoint and Trace unit
#[cfg(not(armv6m))]
use volatile_register::WO;
use volatile_register::{RO, RW};
use crate::peripheral::DWT;
use bitfield::bitfield;
/// Register block
#[repr(C)]
pub struct RegisterBlock {
/// Control
pub ctrl: RW<Ctrl>,
/// Cycle Count
#[cfg(not(armv6m))]
pub cyccnt: RW<u32>,
/// CPI Count
#[cfg(not(armv6m))]
pub cpicnt: RW<u32>,
/// Exception Overhead Count
#[cfg(not(armv6m))]
pub exccnt: RW<u32>,
/// Sleep Count
#[cfg(not(armv6m))]
pub sleepcnt: RW<u32>,
/// LSU Count
#[cfg(not(armv6m))]
pub lsucnt: RW<u32>,
/// Folded-instruction Count
#[cfg(not(armv6m))]
pub foldcnt: RW<u32>,
/// Cortex-M0(+) does not have these parts
#[cfg(armv6m)]
reserved: [u32; 6],
/// Program Counter Sample
pub pcsr: RO<u32>,
/// Comparators
#[cfg(armv6m)]
pub c: [Comparator; 2],
#[cfg(not(armv6m))]
/// Comparators
pub c: [Comparator; 16],
#[cfg(not(armv6m))]
reserved: [u32; 932],
/// Lock Access
#[cfg(not(armv6m))]
pub lar: WO<u32>,
/// Lock Status
#[cfg(not(armv6m))]
pub lsr: RO<u32>,
}
bitfield! {
/// Control register.
#[repr(C)]
#[derive(Copy, Clone)]
pub struct Ctrl(u32);
cyccntena, set_cyccntena: 0;
pcsamplena, set_pcsamplena: 12;
exctrcena, set_exctrcena: 16;
noprfcnt, _: 24;
nocyccnt, _: 25;
noexttrig, _: 26;
notrcpkt, _: 27;
u8, numcomp, _: 31, 28;
}
/// Comparator
#[repr(C)]
pub struct Comparator {
/// Comparator
pub comp: RW<u32>,
/// Comparator Mask
pub mask: RW<u32>,
/// Comparator Function
pub function: RW<Function>,
reserved: u32,
}
bitfield! {
#[repr(C)]
#[derive(Copy, Clone)]
/// Comparator FUNCTIONn register.
pub struct Function(u32);
u8, function, set_function: 3, 0;
emitrange, set_emitrange: 5;
cycmatch, set_cycmatch: 7;
datavmatch, set_datavmatch: 8;
matched, _: 24;
}
impl DWT {
/// Number of comparators implemented
///
/// A value of zero indicates no comparator support.
#[inline]
pub fn num_comp(&self) -> u8 {
self.ctrl.read().numcomp()
}
/// Returns `true` if the the implementation supports sampling and exception tracing
#[cfg(not(armv6m))]
#[inline]
pub fn has_exception_trace(&self) -> bool {
!self.ctrl.read().notrcpkt()
}
/// Returns `true` if the implementation includes external match signals
#[cfg(not(armv6m))]
#[inline]
pub fn has_external_match(&self) -> bool {
!self.ctrl.read().noexttrig()
}
/// Returns `true` if the implementation supports a cycle counter
#[cfg(not(armv6m))]
#[inline]
pub fn has_cycle_counter(&self) -> bool {
!self.ctrl.read().nocyccnt()
}
/// Returns `true` if the implementation the profiling counters
#[cfg(not(armv6m))]
#[inline]
pub fn has_profiling_counter(&self) -> bool {
!self.ctrl.read().noprfcnt()
}
/// Enables the cycle counter
///
/// The global trace enable ([`DCB::enable_trace`]) should be set before
/// enabling the cycle counter, the processor may ignore writes to the
/// cycle counter enable if the global trace is disabled
/// (implementation defined behaviour).
///
/// [`DCB::enable_trace`]: crate::peripheral::DCB::enable_trace
#[cfg(not(armv6m))]
#[inline]
pub fn enable_cycle_counter(&mut self) {
unsafe {
self.ctrl.modify(|mut r| {
r.set_cyccntena(true);
r
});
}
}
/// Returns `true` if the cycle counter is enabled
#[cfg(not(armv6m))]
#[inline]
pub fn cycle_counter_enabled(&self) -> bool {
self.ctrl.read().cyccntena()
}
/// Enables exception tracing
#[cfg(not(armv6m))]
#[inline]
pub fn enable_exception_tracing(&mut self) {
unsafe {
self.ctrl.modify(|mut r| {
r.set_exctrcena(true);
r
});
}
}
/// Disables exception tracing
#[cfg(not(armv6m))]
#[inline]
pub fn disable_exception_tracing(&mut self) {
unsafe {
self.ctrl.modify(|mut r| {
r.set_exctrcena(false);
r
});
}
}
/// Whether to periodically generate PC samples
#[cfg(not(armv6m))]
#[inline]
pub fn enable_pc_samples(&mut self, bit: bool) {
unsafe {
self.ctrl.modify(|mut r| {
r.set_pcsamplena(bit);
r
});
}
}
/// Returns the current clock cycle count
#[cfg(not(armv6m))]
#[inline]
#[deprecated(
since = "0.7.4",
note = "Use `cycle_count` which follows the C-GETTER convention"
)]
pub fn get_cycle_count() -> u32 {
Self::cycle_count()
}
/// Returns the current clock cycle count
#[cfg(not(armv6m))]
#[inline]
pub fn cycle_count() -> u32 {
// NOTE(unsafe) atomic read with no side effects
unsafe { (*Self::ptr()).cyccnt.read() }
}
/// Set the cycle count
#[cfg(not(armv6m))]
#[inline]
pub fn set_cycle_count(&mut self, count: u32) {
unsafe { self.cyccnt.write(count) }
}
/// Removes the software lock on the DWT
///
/// Some devices, like the STM32F7, software lock the DWT after a power cycle.
#[cfg(not(armv6m))]
#[inline]
pub fn unlock() {
// NOTE(unsafe) atomic write to a stateless, write-only register
unsafe { (*Self::ptr()).lar.write(0xC5AC_CE55) }
}
/// Get the CPI count
///
/// Counts additional cycles required to execute multi-cycle instructions,
/// except those recorded by [`lsu_count`], and counts any instruction fetch
/// stalls.
///
/// [`lsu_count`]: DWT::lsu_count
#[cfg(not(armv6m))]
#[inline]
pub fn cpi_count() -> u8 {
// NOTE(unsafe) atomic read with no side effects
unsafe { (*Self::ptr()).cpicnt.read() as u8 }
}
/// Set the CPI count
#[cfg(not(armv6m))]
#[inline]
pub fn set_cpi_count(&mut self, count: u8) {
unsafe { self.cpicnt.write(count as u32) }
}
/// Get the total cycles spent in exception processing
#[cfg(not(armv6m))]
#[inline]
pub fn exception_count() -> u8 {
// NOTE(unsafe) atomic read with no side effects
unsafe { (*Self::ptr()).exccnt.read() as u8 }
}
/// Set the exception count
#[cfg(not(armv6m))]
#[inline]
pub fn set_exception_count(&mut self, count: u8) {
unsafe { self.exccnt.write(count as u32) }
}
/// Get the total number of cycles that the processor is sleeping
///
/// ARM recommends that this counter counts all cycles when the processor is sleeping,
/// regardless of whether a WFI or WFE instruction, or the sleep-on-exit functionality,
/// caused the entry to sleep mode.
/// However, all sleep features are implementation defined and therefore when
/// this counter counts is implementation defined.
#[cfg(not(armv6m))]
#[inline]
pub fn sleep_count() -> u8 {
// NOTE(unsafe) atomic read with no side effects
unsafe { (*Self::ptr()).sleepcnt.read() as u8 }
}
/// Set the sleep count
#[cfg(not(armv6m))]
#[inline]
pub fn set_sleep_count(&mut self, count: u8) {
unsafe { self.sleepcnt.write(count as u32) }
}
/// Get the additional cycles required to execute all load or store instructions
#[cfg(not(armv6m))]
#[inline]
pub fn lsu_count() -> u8 {
// NOTE(unsafe) atomic read with no side effects
unsafe { (*Self::ptr()).lsucnt.read() as u8 }
}
/// Set the lsu count
#[cfg(not(armv6m))]
#[inline]
pub fn set_lsu_count(&mut self, count: u8) {
unsafe { self.lsucnt.write(count as u32) }
}
/// Get the folded instruction count
///
/// Increments on each instruction that takes 0 cycles.
#[cfg(not(armv6m))]
#[inline]
pub fn fold_count() -> u8 {
// NOTE(unsafe) atomic read with no side effects
unsafe { (*Self::ptr()).foldcnt.read() as u8 }
}
/// Set the folded instruction count
#[cfg(not(armv6m))]
#[inline]
pub fn set_fold_count(&mut self, count: u8) {
unsafe { self.foldcnt.write(count as u32) }
}
}
/// Whether the comparator should match on read, write or read/write operations.
#[derive(Debug, Eq, PartialEq, Copy, Clone)]
pub enum AccessType {
/// Generate packet only when matched adress is read from.
ReadOnly,
/// Generate packet only when matched adress is written to.
WriteOnly,
/// Generate packet when matched adress is both read from and written to.
ReadWrite,
}
/// The sequence of packet(s) that should be emitted on comparator match.
#[derive(Debug, Eq, PartialEq, Copy, Clone)]
pub enum EmitOption {
/// Emit only trace data value packet.
Data,
/// Emit only trace address packet.
Address,
/// Emit only trace PC value packet
///
/// *NOTE* only compatible with [AccessType::ReadWrite].
PC,
/// Emit trace address and data value packets.
AddressData,
/// Emit trace PC value and data value packets.
PCData,
}
/// Settings for address matching
#[derive(Debug, Eq, PartialEq, Copy, Clone)]
pub struct ComparatorAddressSettings {
/// The address to match against.
pub address: u32,
/// The address mask to match against.
pub mask: u32,
/// What sequence of packet(s) to emit on comparator match.
pub emit: EmitOption,
/// Whether to match on read, write or read/write operations.
pub access_type: AccessType,
}
/// The available functions of a DWT comparator.
#[derive(Debug, Eq, PartialEq, Copy, Clone)]
#[non_exhaustive]
pub enum ComparatorFunction {
/// Compare accessed memory addresses.
Address(ComparatorAddressSettings),
}
/// Possible error values returned on [Comparator::configure].
#[derive(Debug, Eq, PartialEq, Copy, Clone)]
#[non_exhaustive]
pub enum DwtError {
/// Invalid combination of [AccessType] and [EmitOption].
InvalidFunction,
}
impl Comparator {
/// Configure the function of the comparator
#[allow(clippy::missing_inline_in_public_items)]
pub fn configure(&self, settings: ComparatorFunction) -> Result<(), DwtError> {
match settings {
ComparatorFunction::Address(settings) => unsafe {
// FUNCTION, EMITRANGE
// See Table C1-14
let (function, emit_range) = match (&settings.access_type, &settings.emit) {
(AccessType::ReadOnly, EmitOption::Data) => (0b1100, false),
(AccessType::ReadOnly, EmitOption::Address) => (0b1100, true),
(AccessType::ReadOnly, EmitOption::AddressData) => (0b1110, true),
(AccessType::ReadOnly, EmitOption::PCData) => (0b1110, false),
(AccessType::WriteOnly, EmitOption::Data) => (0b1101, false),
(AccessType::WriteOnly, EmitOption::Address) => (0b1101, true),
(AccessType::WriteOnly, EmitOption::AddressData) => (0b1111, true),
(AccessType::WriteOnly, EmitOption::PCData) => (0b1111, false),
(AccessType::ReadWrite, EmitOption::Data) => (0b0010, false),
(AccessType::ReadWrite, EmitOption::Address) => (0b0001, true),
(AccessType::ReadWrite, EmitOption::AddressData) => (0b0010, true),
(AccessType::ReadWrite, EmitOption::PCData) => (0b0011, false),
(AccessType::ReadWrite, EmitOption::PC) => (0b0001, false),
(_, EmitOption::PC) => return Err(DwtError::InvalidFunction),
};
self.function.modify(|mut r| {
r.set_function(function);
r.set_emitrange(emit_range);
// don't compare data value
r.set_datavmatch(false);
// don't compare cycle counter value
// NOTE: only needed for comparator 0, but is SBZP.
r.set_cycmatch(false);
r
});
self.comp.write(settings.address);
self.mask.write(settings.mask);
},
}
Ok(())
}
}
|
