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author | Trygve Laugstøl <trygvis@inamo.no> | 2016-01-05 22:01:51 +0100 |
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committer | Trygve Laugstøl <trygvis@inamo.no> | 2016-01-05 22:01:51 +0100 |
commit | ef4a7bbe3a818e5166548d1ba5edee7713c66214 (patch) | |
tree | b0ba8576af43c1a391f36c8b3ce12229d1399112 /apps/os2 | |
parent | ec96951943921b57ef9c1e9dacb63e34716fe5b7 (diff) | |
download | stm32f103-playground-ef4a7bbe3a818e5166548d1ba5edee7713c66214.tar.gz stm32f103-playground-ef4a7bbe3a818e5166548d1ba5edee7713c66214.tar.bz2 stm32f103-playground-ef4a7bbe3a818e5166548d1ba5edee7713c66214.tar.xz stm32f103-playground-ef4a7bbe3a818e5166548d1ba5edee7713c66214.zip |
o Seemingly working Mutexes.
o Dropping the privileged/unprivileged split for now.
Diffstat (limited to 'apps/os2')
-rw-r--r-- | apps/os2/os2.cpp | 197 | ||||
-rw-r--r-- | apps/os2/os2_cm3.s | 20 |
2 files changed, 181 insertions, 36 deletions
diff --git a/apps/os2/os2.cpp b/apps/os2/os2.cpp index 66c5b4d..b7e4edc 100644 --- a/apps/os2/os2.cpp +++ b/apps/os2/os2.cpp @@ -4,7 +4,6 @@ #include <stm32f10x.h> #include <stm32f10x_rcc.h> #include <stm32f10x_gpio.h> -#include <inttypes.h> #include "debug.h" #include "tinyprintf.h" @@ -13,12 +12,86 @@ namespace trygvis { namespace os2 { +namespace generic { + +template<typename _index_t, unsigned bits> +class bitmap { + static_assert(std::is_signed<_index_t>::value, "_index_t has to be a signed type"); + +public: + typedef _index_t index_t; + + virtual void assign(index_t bit, bool value) = 0; + + virtual void set(index_t bit) = 0; + + virtual bool get(index_t bit) = 0; + + virtual bool is_empty() = 0; + + virtual index_t find_first() = 0; +}; + +// TODO: these operations has to be made atomic +class bitmap_32 : public bitmap<int8_t, 32> { +public: + bitmap_32() : map_(0) { + } + + void assign(index_t bit, bool value) { + if (value) { + map_ |= 1 << bit; + } else { + map_ &= ~(1 << bit); + } + } + + void set(index_t bit) { + map_ |= 1 << bit; + } + + void clear(index_t bit) { + map_ &= ~(1 << bit); + } + + bool get(index_t bit) { + return (map_ & 1 << bit) > 0; + } + + bool is_empty() { + return map_ == 0; + } + + index_t find_first() { + for (index_t i = 0; i < 32; i++) { + if (get(i)) { + return i; + } + } + + return -1; + } + +private: + uint32_t map_; +}; + +} // generic + +namespace os { + +using namespace trygvis::os2::generic; + + /* * System configuration */ constexpr bool enable_stack_smashing_check = false; -namespace os { +typedef bitmap_32 process_map; + +typedef int8_t pid_t; +#define PRIpid_t "d" enum class exc_return_t : uint32_t { RETURN_TO_HANDLER_MODE_USE_MSP = 0xFFFFFFF1, @@ -38,10 +111,22 @@ struct task_t { this->current_stack = current_stack; this->stack_start = stack_start; this->stack_end = stack_end; - flags = 0x01; + set_active(); set_ready(); } + void fini() { + this->flags = 0; + } + + void set_active() { + flags |= 0x01; + } + + bool is_active() { + return (flags & 0x01) > 0; + } + bool is_ready() { return (flags & 0x02) > 0; } @@ -68,9 +153,9 @@ static_assert(stack_size % 4 == 0, "stack_size must be word-aligned."); task_t tasks[max_task_count]; uint8_t stacks[SizeOfArray(tasks)][stack_size]; uint8_t task_count = 0; -uint32_t current_task; +pid_t current_task; -const unsigned int SYSTICK_FREQUENCY_HZ = 10; +const unsigned int SYSTICK_FREQUENCY_HZ = 50; struct hardware_frame_t { uint32_t r0; @@ -107,7 +192,7 @@ void HardFault_Handler_C(uint32_t *stack) { dbg_printf("psr = 0x%08lx (%lu)\n", stack[7], stack[7]); dbg_printf("\n"); - dbg_printf("current_task = %" PRIu32 "\n", current_task); + dbg_printf("current_task = %" PRIpid_t "\n", current_task); dbg_printf("\n"); Default_Handler(); @@ -139,12 +224,22 @@ void SVC_Handler() { /** * Implemented in assembly, simply executes an SVC instruction. */ -__attribute__((used)) -extern void reschedule(); +//__attribute__((used)) +//extern void reschedule(); + +void reschedule() { +// dbg_printf("rescheduling %" PRIpid_t ", ready=%d\n", current_task, tasks[current_task].is_ready()); + SCB->ICSR |= SCB_ICSR_PENDSVSET_Msk; +} -// This doesn't quite work. +// TODO: test properly +__attribute__((noreturn)) void thread_end() { - dbg_printf("thread_end(). current_task=%" PRIu32 "\n", current_task); + dbg_printf("thread_end(): current_task=%" PRIpid_t "\n", current_task); + tasks[current_task].fini(); + reschedule(); + while (1) { + } } extern "C" void asm_idle_task(const void *const); @@ -227,19 +322,28 @@ void os_create_thread(void (task)(void const *const), bool create_sw = true) { } static -uint32_t find_first_ready_task() { +pid_t find_first_ready_task() { +// dbg_printf("find_first_ready_task: current_task=%" PRIpid_t ", max_task_count=%d\n", current_task, max_task_count); +// for(int i = 0; i < max_task_count; i++) { +// task_t *t = &tasks[i]; +// dbg_printf("task #%d, active=%d, ready=%d\n", i, t->is_active(), t->is_ready()); +// } + task_t *t; - // Start from the task after the current one - uint32_t idx = current_task; + + pid_t end_task = current_task == 0 ? pid_t(1) : current_task; + pid_t idx = end_task; do { idx++; +// dbg_printf("idx=%" PRIpid_t "\n", idx); // If we have checked the entire array, start from the first non-idle task if (idx == max_task_count) { idx = 1; } t = &tasks[idx]; - if (idx == current_task) { + if (idx == end_task) { +// dbg_printf("wrap\n"); // If we have checked all other tasks, use the current one if it is still ready. if not, use the idle task if (!t->is_ready()) { idx = 0; @@ -249,6 +353,7 @@ uint32_t find_first_ready_task() { } while (!t->is_ready()); +// dbg_printf("new task: %d\n", idx); return idx; } @@ -263,7 +368,7 @@ void check_stack_smashing<false>(task_t *) { template<> void check_stack_smashing<true>(task_t *t) { if (t->current_stack < t->stack_end) { - dbg_printf("STACK SMASHED: task #%" PRIu32 ", end=%p, current=%p\n", current_task, + dbg_printf("STACK SMASHED: task #%" PRIpid_t ", end=%p, current=%p\n", current_task, static_cast<void *>(t->current_stack), static_cast<void *>(t->current_stack)); } } @@ -276,11 +381,14 @@ task_t *select_next_task(uint8_t *current_stack) { check_stack_smashing<enable_stack_smashing_check>(t); - uint32_t new_task = find_first_ready_task(); + pid_t new_task = find_first_ready_task(); if (new_task != current_task) { +// dbg_printf("switch: %d -> %d\n", current_task, new_task); t = &tasks[new_task]; current_task = new_task; + } else { +// dbg_printf("no switch: %d\n", current_task); } return t; @@ -294,7 +402,10 @@ void os_init() { NVIC_SetPriority(SysTick_IRQn, 0xff); NVIC_SetPriority(PendSV_IRQn, 0xff); - SysTick_Config(SystemCoreClock / SYSTICK_FREQUENCY_HZ); + uint32_t err = SysTick_Config(SystemCoreClock / SYSTICK_FREQUENCY_HZ); + if (err) { + dbg_printf("Failed init of system timer."); + } GPIO_InitTypeDef init; GPIO_StructInit(&init); @@ -337,23 +448,53 @@ void os_start() { //}; class Mutex final { +private: + process_map sleepers; + static const uint32_t UNLOCKED = 0x80000000; + public: - Mutex() : owner(UINT32_MAX) { + Mutex() : owner(UNLOCKED) { } void lock() { - uint32_t old; + static_assert(sizeof(process_map::index_t) <= 31, + "The process map's index type has to fit within 31 bits."); - do { - // read the semaphore value - old = __LDREXW(&owner); - // loop again if it is locked and we are blocking - // or setting it with strex failed - } while ((old == current_task) || __STREXW(current_task, &owner) != 0); + pid_t old = pid_t(__LDREXW(&owner)); + + if (old == current_task) { + return; + } + + if (__STREXW(uint32_t(current_task), &owner) == 0) { + return; + } + + tasks[current_task].set_blocked(); + sleepers.set(current_task); + reschedule(); } +// void lock() { +// uint32_t old; +// +// do { +// // read the semaphore value +// old = __LDREXW(&owner); +// // loop again if it is locked and we are blocking +// // or setting it with strex failed +// } while ((old == current_task) || __STREXW(current_task, &owner) != 0); +// } + void unlock() { - owner = UINT32_MAX; + owner = UNLOCKED; + pid_t lucky_process = sleepers.find_first(); + + if (lucky_process >= 0) { +// dbg_printf("marking %" PRIpid_t " as ready\n", lucky_process); + tasks[lucky_process].set_ready(); + reschedule(); + } } private: @@ -384,6 +525,8 @@ volatile bool run1 = true; os::Mutex mutex; +volatile int shared_variable; + void job1(void const *const) { GPIO_InitTypeDef init; GPIO_StructInit(&init); @@ -431,6 +574,8 @@ int main(void) { RCC_APB2PeriphResetCmd(RCC_APB2Periph_GPIOB, ENABLE); RCC_APB2PeriphResetCmd(RCC_APB2Periph_GPIOB, DISABLE); + shared_variable = 0; + os::os_init(); os::os_create_thread(job1); os::os_create_thread(job2); diff --git a/apps/os2/os2_cm3.s b/apps/os2/os2_cm3.s index aa18703..f0eb4b7 100644 --- a/apps/os2/os2_cm3.s +++ b/apps/os2/os2_cm3.s @@ -32,11 +32,11 @@ do_first_context_switch: msr control, r0 isb - // Set CONTROL.nPRIV=1 so that we run with in unprivileged mode - mrs r0, control - orr r0, #1 - msr control, r0 - isb +// // Set CONTROL.nPRIV=1 so that we run with in unprivileged mode +// mrs r0, control +// orr r0, #1 +// msr control, r0 +// isb // Restore the data from hardware_frame_t. pop {r0 - r3, r12, lr} @@ -44,11 +44,11 @@ do_first_context_switch: pop {r4, r5} bx r4 -.thumb_func -.global _ZN7trygvis3os22os10rescheduleEv -_ZN7trygvis3os22os10rescheduleEv: - svc #0 - bx lr +// .thumb_func +// .global _ZN7trygvis3os22os10rescheduleEv +// _ZN7trygvis3os22os10rescheduleEv: +// svc #0 +// bx lr // A very simple idle task, just to know exactly which registers that are used and what their values are supposed to be. // Toggles GPIO B, pin #6 on a STM32F103 |