Fork of official mbed Real Time Operating System based on the RTX implementation of the CMSIS-RTOS API open standard.
Dependents: Final_Coffee_Roaster
Fork of mbed-rtos by
Diff: rtx/rt_CMSIS.c
- Revision:
- 6:350b53afb889
- Child:
- 10:fcb1f103f7a1
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/rtx/rt_CMSIS.c Fri Nov 23 09:57:31 2012 +0000 @@ -0,0 +1,1918 @@ +/*---------------------------------------------------------------------------- + * RL-ARM - RTX + *---------------------------------------------------------------------------- + * Name: rt_CMSIS.c + * Purpose: CMSIS RTOS API + * Rev.: V4.60 + *---------------------------------------------------------------------------- + * + * Copyright (c) 1999-2009 KEIL, 2009-2012 ARM Germany GmbH + * All rights reserved. + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are met: + * - Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * - Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in the + * documentation and/or other materials provided with the distribution. + * - Neither the name of ARM nor the names of its contributors may be used + * to endorse or promote products derived from this software without + * specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" + * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE + * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE + * ARE DISCLAIMED. IN NO EVENT SHALL COPYRIGHT HOLDERS AND CONTRIBUTORS BE + * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR + * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF + * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) + * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + * POSSIBILITY OF SUCH DAMAGE. + *---------------------------------------------------------------------------*/ + +#define __CMSIS_GENERIC + +#if defined (__CORTEX_M4) || defined (__CORTEX_M4F) + #include "core_cm4.h" +#elif defined (__CORTEX_M3) + #include "core_cm3.h" +#elif defined (__CORTEX_M0) + #include "core_cm0.h" +#else + #error "Missing __CORTEX_Mx definition" +#endif + +#include "rt_TypeDef.h" +#include "RTX_Config.h" +#include "rt_System.h" +#include "rt_Task.h" +#include "rt_Event.h" +#include "rt_List.h" +#include "rt_Time.h" +#include "rt_Mutex.h" +#include "rt_Semaphore.h" +#include "rt_Mailbox.h" +#include "rt_MemBox.h" +#include "rt_HAL_CM.h" + +#define os_thread_cb OS_TCB + +#include "cmsis_os.h" + +#if (osFeature_Signals != 16) +#error Invalid "osFeature_Signals" value! +#endif +#if (osFeature_Semaphore > 65535) +#error Invalid "osFeature_Semaphore" value! +#endif +#if (osFeature_Wait != 0) +#error osWait not supported! +#endif + + +// ==== Enumeration, structures, defines ==== + +// Service Calls defines + +#if defined (__CC_ARM) /* ARM Compiler */ + +#define __NO_RETURN __declspec(noreturn) + +#define osEvent_type osEvent +#define osEvent_ret_status ret +#define osEvent_ret_value ret +#define osEvent_ret_msg ret +#define osEvent_ret_mail ret + +#define osCallback_type osCallback +#define osCallback_ret ret + +#define SVC_0_1(f,t,...) \ +__svc_indirect(0) t _##f (t(*)()); \ + t f (void); \ +__attribute__((always_inline)) \ +static __inline t __##f (void) { \ + return _##f(f); \ +} + +#define SVC_1_1(f,t,t1,...) \ +__svc_indirect(0) t _##f (t(*)(t1),t1); \ + t f (t1 a1); \ +__attribute__((always_inline)) \ +static __inline t __##f (t1 a1) { \ + return _##f(f,a1); \ +} + +#define SVC_2_1(f,t,t1,t2,...) \ +__svc_indirect(0) t _##f (t(*)(t1,t2),t1,t2); \ + t f (t1 a1, t2 a2); \ +__attribute__((always_inline)) \ +static __inline t __##f (t1 a1, t2 a2) { \ + return _##f(f,a1,a2); \ +} + +#define SVC_3_1(f,t,t1,t2,t3,...) \ +__svc_indirect(0) t _##f (t(*)(t1,t2,t3),t1,t2,t3); \ + t f (t1 a1, t2 a2, t3 a3); \ +__attribute__((always_inline)) \ +static __inline t __##f (t1 a1, t2 a2, t3 a3) { \ + return _##f(f,a1,a2,a3); \ +} + +#define SVC_4_1(f,t,t1,t2,t3,t4,...) \ +__svc_indirect(0) t _##f (t(*)(t1,t2,t3,t4),t1,t2,t3,t4); \ + t f (t1 a1, t2 a2, t3 a3, t4 a4); \ +__attribute__((always_inline)) \ +static __inline t __##f (t1 a1, t2 a2, t3 a3, t4 a4) { \ + return _##f(f,a1,a2,a3,a4); \ +} + +#define SVC_1_2 SVC_1_1 +#define SVC_1_3 SVC_1_1 +#define SVC_2_3 SVC_2_1 + +#elif defined (__GNUC__) /* GNU Compiler */ + +#define __NO_RETURN __attribute__((noreturn)) + +typedef uint32_t __attribute__((vector_size(8))) ret64; +typedef uint32_t __attribute__((vector_size(16))) ret128; + +#define RET_pointer __r0 +#define RET_int32_t __r0 +#define RET_osStatus __r0 +#define RET_osPriority __r0 +#define RET_osEvent {(osStatus)__r0, {(uint32_t)__r1}, {(void *)__r2}} +#define RET_osCallback {(void *)__r0, (void *)__r1} + +#define osEvent_type ret128 +#define osEvent_ret_status (ret128){ret.status} +#define osEvent_ret_value (ret128){ret.status, ret.value.v} +#define osEvent_ret_msg (ret128){ret.status, ret.value.v, (uint32_t)ret.def.message_id} +#define osEvent_ret_mail (ret128){ret.status, ret.value.v, (uint32_t)ret.def.mail_id} + +#define osCallback_type ret64 +#define osCallback_ret (ret64) {(uint32_t)ret.fp, (uint32_t)ret.arg} + +#define SVC_ArgN(n) \ + register int __r##n __asm("r"#n); + +#define SVC_ArgR(n,t,a) \ + register t __r##n __asm("r"#n) = a; + +#define SVC_Arg0() \ + SVC_ArgN(0) \ + SVC_ArgN(1) \ + SVC_ArgN(2) \ + SVC_ArgN(3) + +#define SVC_Arg1(t1) \ + SVC_ArgR(0,t1,a1) \ + SVC_ArgN(1) \ + SVC_ArgN(2) \ + SVC_ArgN(3) + +#define SVC_Arg2(t1,t2) \ + SVC_ArgR(0,t1,a1) \ + SVC_ArgR(1,t2,a2) \ + SVC_ArgN(2) \ + SVC_ArgN(3) + +#define SVC_Arg3(t1,t2,t3) \ + SVC_ArgR(0,t1,a1) \ + SVC_ArgR(1,t2,a2) \ + SVC_ArgR(2,t3,a3) \ + SVC_ArgN(3) + +#define SVC_Arg4(t1,t2,t3,t4) \ + SVC_ArgR(0,t1,a1) \ + SVC_ArgR(1,t2,a2) \ + SVC_ArgR(2,t3,a3) \ + SVC_ArgR(3,t4,a4) + +#if (defined (__CORTEX_M0)) +#define SVC_Call(f) \ + __asm volatile \ + ( \ + "ldr r7,="#f"\n\t" \ + "mov r12,r7\n\t" \ + "svc 0" \ + : "=r" (__r0), "=r" (__r1), "=r" (__r2), "=r" (__r3) \ + : "r" (__r0), "r" (__r1), "r" (__r2), "r" (__r3) \ + : "r7", "r12", "lr", "cc" \ + ); +#else +#define SVC_Call(f) \ + __asm volatile \ + ( \ + "ldr r12,="#f"\n\t" \ + "svc 0" \ + : "=r" (__r0), "=r" (__r1), "=r" (__r2), "=r" (__r3) \ + : "r" (__r0), "r" (__r1), "r" (__r2), "r" (__r3) \ + : "r12", "lr", "cc" \ + ); +#endif + +#define SVC_0_1(f,t,rv) \ +__attribute__((always_inline)) \ +static inline t __##f (void) { \ + SVC_Arg0(); \ + SVC_Call(f); \ + return (t) rv; \ +} + +#define SVC_1_1(f,t,t1,rv) \ +__attribute__((always_inline)) \ +static inline t __##f (t1 a1) { \ + SVC_Arg1(t1); \ + SVC_Call(f); \ + return (t) rv; \ +} + +#define SVC_2_1(f,t,t1,t2,rv) \ +__attribute__((always_inline)) \ +static inline t __##f (t1 a1, t2 a2) { \ + SVC_Arg2(t1,t2); \ + SVC_Call(f); \ + return (t) rv; \ +} + +#define SVC_3_1(f,t,t1,t2,t3,rv) \ +__attribute__((always_inline)) \ +static inline t __##f (t1 a1, t2 a2, t3 a3) { \ + SVC_Arg3(t1,t2,t3); \ + SVC_Call(f); \ + return (t) rv; \ +} + +#define SVC_4_1(f,t,t1,t2,t3,t4,rv) \ +__attribute__((always_inline)) \ +static inline t __##f (t1 a1, t2 a2, t3 a3, t4 a4) { \ + SVC_Arg4(t1,t2,t3,t4); \ + SVC_Call(f); \ + return (t) rv; \ +} + +#define SVC_1_2 SVC_1_1 +#define SVC_1_3 SVC_1_1 +#define SVC_2_3 SVC_2_1 + +#elif defined (__ICCARM__) /* IAR Compiler */ + +#define __NO_RETURN __noreturn + +#define RET_osEvent "=r"(ret.status), "=r"(ret.value), "=r"(ret.def) +#define RET_osCallback "=r"(ret.fp), "=r"(ret.arg) + +#define osEvent_type osEvent +#define osEvent_ret_status ret +#define osEvent_ret_value ret +#define osEvent_ret_msg ret +#define osEvent_ret_mail ret + +#define osCallback_type uint64_t +#define osCallback_ret ((uint64_t)ret.fp | ((uint64_t)ret.arg)<<32) + +#define SVC_Setup(f) \ + __asm( \ + "mov r12,%0\n" \ + :: "r"(&f): "r12" \ + ); + +#define SVC_Ret3() \ + __asm( \ + "ldr r0,[sp,#0]\n" \ + "ldr r1,[sp,#4]\n" \ + "ldr r2,[sp,#8]\n" \ + ); + +#define SVC_0_1(f,t,...) \ +t f (void); \ +_Pragma("swi_number=0") __swi t _##f (void); \ +static inline t __##f (void) { \ + SVC_Setup(f); \ + return _##f(); \ +} + +#define SVC_1_1(f,t,t1,...) \ +t f (t1 a1); \ +_Pragma("swi_number=0") __swi t _##f (t1 a1); \ +static inline t __##f (t1 a1) { \ + SVC_Setup(f); \ + return _##f(a1); \ +} + +#define SVC_2_1(f,t,t1,t2,...) \ +t f (t1 a1, t2 a2); \ +_Pragma("swi_number=0") __swi t _##f (t1 a1, t2 a2); \ +static inline t __##f (t1 a1, t2 a2) { \ + SVC_Setup(f); \ + return _##f(a1,a2); \ +} + +#define SVC_3_1(f,t,t1,t2,t3,...) \ +t f (t1 a1, t2 a2, t3 a3); \ +_Pragma("swi_number=0") __swi t _##f (t1 a1, t2 a2, t3 a3); \ +static inline t __##f (t1 a1, t2 a2, t3 a3) { \ + SVC_Setup(f); \ + return _##f(a1,a2,a3); \ +} + +#define SVC_4_1(f,t,t1,t2,t3,t4,...) \ +t f (t1 a1, t2 a2, t3 a3, t4 a4); \ +_Pragma("swi_number=0") __swi t _##f (t1 a1, t2 a2, t3 a3, t4 a4); \ +static inline t __##f (t1 a1, t2 a2, t3 a3, t4 a4) { \ + SVC_Setup(f); \ + return _##f(a1,a2,a3,a4); \ +} + +#define SVC_1_2(f,t,t1,rr) \ +uint64_t f (t1 a1); \ +_Pragma("swi_number=0") __swi uint64_t _##f (t1 a1); \ +static inline t __##f (t1 a1) { \ + t ret; \ + SVC_Setup(f); \ + _##f(a1); \ + __asm("" : rr : :); \ + return ret; \ +} + +#define SVC_1_3(f,t,t1,rr) \ +t f (t1 a1); \ +void f##_ (t1 a1) { \ + f(a1); \ + SVC_Ret3(); \ +} \ +_Pragma("swi_number=0") __swi void _##f (t1 a1); \ +static inline t __##f (t1 a1) { \ + t ret; \ + SVC_Setup(f##_); \ + _##f(a1); \ + __asm("" : rr : :); \ + return ret; \ +} + +#define SVC_2_3(f,t,t1,t2,rr) \ +t f (t1 a1, t2 a2); \ +void f##_ (t1 a1, t2 a2) { \ + f(a1,a2); \ + SVC_Ret3(); \ +} \ +_Pragma("swi_number=0") __swi void _##f (t1 a1, t2 a2); \ +static inline t __##f (t1 a1, t2 a2) { \ + t ret; \ + SVC_Setup(f##_); \ + _##f(a1,a2); \ + __asm("" : rr : :); \ + return ret; \ +} + +#endif + + +// Callback structure +typedef struct { + void *fp; // Function pointer + void *arg; // Function argument +} osCallback; + + +// OS Section definitions +#ifdef OS_SECTIONS_LINK_INFO +extern const uint32_t os_section_id$$Base; +extern const uint32_t os_section_id$$Limit; +#endif + +// OS Timers external resources +extern osThreadDef_t os_thread_def_osTimerThread; +extern osThreadId osThreadId_osTimerThread; +extern osMessageQDef_t os_messageQ_def_osTimerMessageQ; +extern osMessageQId osMessageQId_osTimerMessageQ; + + +// ==== Helper Functions ==== + +/// Convert timeout in millisec to system ticks +static uint32_t rt_ms2tick (uint32_t millisec) { + uint32_t tick; + + if (millisec == osWaitForever) return 0xFFFF; // Indefinite timeout + if (millisec > 4000000) return 0xFFFE; // Max ticks supported + + tick = ((1000 * millisec) + os_clockrate - 1) / os_clockrate; + if (tick > 0xFFFE) return 0xFFFE; + + return tick; +} + +/// Convert Thread ID to TCB pointer +static P_TCB rt_tid2ptcb (osThreadId thread_id) { + P_TCB ptcb; + + if (thread_id == NULL) return NULL; + + if ((uint32_t)thread_id & 3) return NULL; + +#ifdef OS_SECTIONS_LINK_INFO + if ((os_section_id$$Base != 0) && (os_section_id$$Limit != 0)) { + if (thread_id < (osThreadId)os_section_id$$Base) return NULL; + if (thread_id >= (osThreadId)os_section_id$$Limit) return NULL; + } +#endif + + ptcb = thread_id; + + if (ptcb->cb_type != TCB) return NULL; + + return ptcb; +} + +/// Convert ID pointer to Object pointer +static void *rt_id2obj (void *id) { + + if ((uint32_t)id & 3) return NULL; + +#ifdef OS_SECTIONS_LINK_INFO + if ((os_section_id$$Base != 0) && (os_section_id$$Limit != 0)) { + if (id < (void *)os_section_id$$Base) return NULL; + if (id >= (void *)os_section_id$$Limit) return NULL; + } +#endif + + return id; +} + + +// ==== Kernel Control ==== + +uint8_t os_initialized; // Kernel Initialized flag +uint8_t os_running; // Kernel Running flag + +// Kernel Control Service Calls declarations +SVC_0_1(svcKernelInitialize, osStatus, RET_osStatus) +SVC_0_1(svcKernelStart, osStatus, RET_osStatus) +SVC_0_1(svcKernelRunning, int32_t, RET_int32_t) + +extern void sysThreadError (osStatus status); +osThreadId svcThreadCreate (osThreadDef_t *thread_def, void *argument); +osMessageQId svcMessageCreate (osMessageQDef_t *queue_def, osThreadId thread_id); + +// Kernel Control Service Calls + +/// Initialize the RTOS Kernel for creating objects +osStatus svcKernelInitialize (void) { + if (os_initialized) return osOK; + + rt_sys_init(); // RTX System Initialization + os_tsk.run->prio = 255; // Highest priority + + sysThreadError(osOK); + + os_initialized = 1; + + return osOK; +} + +/// Start the RTOS Kernel +osStatus svcKernelStart (void) { + + if (os_running) return osOK; + + // Create OS Timers resources (Message Queue & Thread) + osMessageQId_osTimerMessageQ = svcMessageCreate (&os_messageQ_def_osTimerMessageQ, NULL); + osThreadId_osTimerThread = svcThreadCreate(&os_thread_def_osTimerThread, NULL); + + rt_tsk_prio(0, 0); // Lowest priority + __set_PSP(os_tsk.run->tsk_stack + 8*4); // New context + os_tsk.run = NULL; // Force context switch + + rt_sys_start(); + + os_running = 1; + + return osOK; +} + +/// Check if the RTOS kernel is already started +int32_t svcKernelRunning(void) { + return os_running; +} + +// Kernel Control Public API + +/// Initialize the RTOS Kernel for creating objects +osStatus osKernelInitialize (void) { + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + if ((__get_CONTROL() & 1) == 0) { // Privileged mode + return svcKernelInitialize(); + } else { + return __svcKernelInitialize(); + } +} + +/// Start the RTOS Kernel +osStatus osKernelStart (void) { + uint32_t stack[8]; + + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + switch (__get_CONTROL() & 0x03) { + case 0x00: // Privileged Thread mode & MSP + __set_PSP((uint32_t)(stack + 8)); // Initial PSP + if (os_flags & 1) { + __set_CONTROL(0x02); // Set Privileged Thread mode & PSP + } else { + __set_CONTROL(0x03); // Set Unprivileged Thread mode & PSP + } + __DSB(); + __ISB(); + break; + case 0x01: // Unprivileged Thread mode & MSP + return osErrorOS; + case 0x02: // Privileged Thread mode & PSP + if ((os_flags & 1) == 0) { // Unprivileged Thread mode requested + __set_CONTROL(0x03); // Set Unprivileged Thread mode & PSP + __DSB(); + __ISB(); + } + break; + case 0x03: // Unprivileged Thread mode & PSP + if (os_flags & 1) return osErrorOS; // Privileged Thread mode requested + break; + } + return __svcKernelStart(); +} + +/// Check if the RTOS kernel is already started +int32_t osKernelRunning(void) { + if ((__get_IPSR() != 0) || ((__get_CONTROL() & 1) == 0)) { + // in ISR or Privileged + return os_running; + } else { + return __svcKernelRunning(); + } +} + + +// ==== Thread Management ==== + +__NO_RETURN void osThreadExit (void); + +// Thread Service Calls declarations +SVC_2_1(svcThreadCreate, osThreadId, osThreadDef_t *, void *, RET_pointer) +SVC_0_1(svcThreadGetId, osThreadId, RET_pointer) +SVC_1_1(svcThreadTerminate, osStatus, osThreadId, RET_osStatus) +SVC_0_1(svcThreadYield, osStatus, RET_osStatus) +SVC_2_1(svcThreadSetPriority, osStatus, osThreadId, osPriority, RET_osStatus) +SVC_1_1(svcThreadGetPriority, osPriority, osThreadId, RET_osPriority) + +// Thread Service Calls +extern OS_TID rt_get_TID (void); +extern void rt_init_context (P_TCB p_TCB, U8 priority, FUNCP task_body); + +/// Create a thread and add it to Active Threads and set it to state READY +osThreadId svcThreadCreate (osThreadDef_t *thread_def, void *argument) { + P_TCB ptcb; + + if ((thread_def == NULL) || + (thread_def->pthread == NULL) || + (thread_def->tpriority < osPriorityIdle) || + (thread_def->tpriority > osPriorityRealtime) || + (thread_def->stacksize == 0) || + (thread_def->stack_pointer == NULL) ) { + sysThreadError(osErrorParameter); + return NULL; + } + + U8 priority = thread_def->tpriority - osPriorityIdle + 1; + P_TCB task_context = &thread_def->tcb; + + /* If "size != 0" use a private user provided stack. */ + task_context->stack = (U32*)thread_def->stack_pointer; + task_context->priv_stack = thread_def->stacksize; + /* Pass parameter 'argv' to 'rt_init_context' */ + task_context->msg = argument; + /* For 'size == 0' system allocates the user stack from the memory pool. */ + rt_init_context (task_context, priority, (FUNCP)thread_def->pthread); + + /* Find a free entry in 'os_active_TCB' table. */ + OS_TID tsk = rt_get_TID (); + os_active_TCB[tsk-1] = task_context; + task_context->task_id = tsk; + DBG_TASK_NOTIFY(task_context, __TRUE); + rt_dispatch (task_context); + + ptcb = (P_TCB)os_active_TCB[tsk - 1]; // TCB pointer + + *((uint32_t *)ptcb->tsk_stack + 13) = (uint32_t)osThreadExit; + + return ptcb; +} + +/// Return the thread ID of the current running thread +osThreadId svcThreadGetId (void) { + OS_TID tsk; + + tsk = rt_tsk_self(); + if (tsk == 0) return NULL; + return (P_TCB)os_active_TCB[tsk - 1]; +} + +/// Terminate execution of a thread and remove it from ActiveThreads +osStatus svcThreadTerminate (osThreadId thread_id) { + OS_RESULT res; + P_TCB ptcb; + + ptcb = rt_tid2ptcb(thread_id); // Get TCB pointer + if (ptcb == NULL) return osErrorParameter; + + res = rt_tsk_delete(ptcb->task_id); // Delete task + + if (res == OS_R_NOK) return osErrorResource; // Delete task failed + + return osOK; +} + +/// Pass control to next thread that is in state READY +osStatus svcThreadYield (void) { + rt_tsk_pass(); // Pass control to next task + return osOK; +} + +/// Change priority of an active thread +osStatus svcThreadSetPriority (osThreadId thread_id, osPriority priority) { + OS_RESULT res; + P_TCB ptcb; + + ptcb = rt_tid2ptcb(thread_id); // Get TCB pointer + if (ptcb == NULL) return osErrorParameter; + + if ((priority < osPriorityIdle) || (priority > osPriorityRealtime)) { + return osErrorValue; + } + + res = rt_tsk_prio( // Change task priority + ptcb->task_id, // Task ID + priority - osPriorityIdle + 1 // New task priority + ); + + if (res == OS_R_NOK) return osErrorResource; // Change task priority failed + + return osOK; +} + +/// Get current priority of an active thread +osPriority svcThreadGetPriority (osThreadId thread_id) { + P_TCB ptcb; + + ptcb = rt_tid2ptcb(thread_id); // Get TCB pointer + if (ptcb == NULL) return osPriorityError; + + return (osPriority)(ptcb->prio - 1 + osPriorityIdle); +} + + +// Thread Public API + +/// Create a thread and add it to Active Threads and set it to state READY +osThreadId osThreadCreate (osThreadDef_t *thread_def, void *argument) { + if (__get_IPSR() != 0) return NULL; // Not allowed in ISR + if (((__get_CONTROL() & 1) == 0) && (os_running == 0)) { + // Privileged and not running + return svcThreadCreate(thread_def, argument); + } else { + return __svcThreadCreate(thread_def, argument); + } +} + +/// Return the thread ID of the current running thread +osThreadId osThreadGetId (void) { + if (__get_IPSR() != 0) return NULL; // Not allowed in ISR + return __svcThreadGetId(); +} + +/// Terminate execution of a thread and remove it from ActiveThreads +osStatus osThreadTerminate (osThreadId thread_id) { + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + return __svcThreadTerminate(thread_id); +} + +/// Pass control to next thread that is in state READY +osStatus osThreadYield (void) { + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + return __svcThreadYield(); +} + +/// Change priority of an active thread +osStatus osThreadSetPriority (osThreadId thread_id, osPriority priority) { + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + return __svcThreadSetPriority(thread_id, priority); +} + +/// Get current priority of an active thread +osPriority osThreadGetPriority (osThreadId thread_id) { + if (__get_IPSR() != 0) return osPriorityError;// Not allowed in ISR + return __svcThreadGetPriority(thread_id); +} + +/// INTERNAL - Not Public +/// Auto Terminate Thread on exit (used implicitly when thread exists) +__NO_RETURN void osThreadExit (void) { + __svcThreadTerminate(__svcThreadGetId()); + for (;;); // Should never come here +} + + +// ==== Generic Wait Functions ==== + +// Generic Wait Service Calls declarations +SVC_1_1(svcDelay, osStatus, uint32_t, RET_osStatus) +#if osFeature_Wait != 0 +SVC_1_3(svcWait, os_InRegs osEvent, uint32_t, RET_osEvent) +#endif + +// Generic Wait Service Calls + +/// Wait for Timeout (Time Delay) +osStatus svcDelay (uint32_t millisec) { + if (millisec == 0) return osOK; + rt_dly_wait(rt_ms2tick(millisec)); + return osEventTimeout; +} + +/// Wait for Signal, Message, Mail, or Timeout +#if osFeature_Wait != 0 +os_InRegs osEvent_type svcWait (uint32_t millisec) { + osEvent ret; + + if (millisec == 0) { + ret.status = osOK; + return osEvent_ret_status; + } + + /* To Do: osEventSignal, osEventMessage, osEventMail */ + rt_dly_wait(rt_ms2tick(millisec)); + ret.status = osEventTimeout; + + return osEvent_ret_status; +} +#endif + + +// Generic Wait API + +/// Wait for Timeout (Time Delay) +osStatus osDelay (uint32_t millisec) { + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + return __svcDelay(millisec); +} + +/// Wait for Signal, Message, Mail, or Timeout +os_InRegs osEvent osWait (uint32_t millisec) { + osEvent ret; + +#if osFeature_Wait == 0 + ret.status = osErrorOS; + return ret; +#else + if (__get_IPSR() != 0) { // Not allowed in ISR + ret.status = osErrorISR; + return ret; + } + return __svcWait(millisec); +#endif +} + + +// ==== Timer Management ==== + +// Timer definitions +#define osTimerInvalid 0 +#define osTimerStopped 1 +#define osTimerRunning 2 + +// Timer structures + +typedef struct os_timer_cb_ { // Timer Control Block + struct os_timer_cb_ *next; // Pointer to next active Timer + uint8_t state; // Timer State + uint8_t type; // Timer Type (Periodic/One-shot) + uint16_t reserved; // Reserved + uint16_t tcnt; // Timer Delay Count + uint16_t icnt; // Timer Initial Count + void *arg; // Timer Function Argument + osTimerDef_t *timer; // Pointer to Timer definition +} os_timer_cb; + +// Timer variables +os_timer_cb *os_timer_head; // Pointer to first active Timer + + +// Timer Helper Functions + +// Insert Timer into the list sorted by time +static void rt_timer_insert (os_timer_cb *pt, uint32_t tcnt) { + os_timer_cb *p, *prev; + + prev = NULL; + p = os_timer_head; + while (p != NULL) { + if (tcnt < p->tcnt) break; + tcnt -= p->tcnt; + prev = p; + p = p->next; + } + pt->next = p; + pt->tcnt = (uint16_t)tcnt; + if (p != NULL) { + p->tcnt -= pt->tcnt; + } + if (prev != NULL) { + prev->next = pt; + } else { + os_timer_head = pt; + } +} + +// Remove Timer from the list +static int rt_timer_remove (os_timer_cb *pt) { + os_timer_cb *p, *prev; + + prev = NULL; + p = os_timer_head; + while (p != NULL) { + if (p == pt) break; + prev = p; + p = p->next; + } + if (p == NULL) return -1; + if (prev != NULL) { + prev->next = pt->next; + } else { + os_timer_head = pt->next; + } + if (pt->next != NULL) { + pt->next->tcnt += pt->tcnt; + } + + return 0; +} + + +// Timer Service Calls declarations +SVC_3_1(svcTimerCreate, osTimerId, osTimerDef_t *, os_timer_type, void *, RET_pointer) +SVC_2_1(svcTimerStart, osStatus, osTimerId, uint32_t, RET_osStatus) +SVC_1_1(svcTimerStop, osStatus, osTimerId, RET_osStatus) +SVC_1_1(svcTimerDelete, osStatus, osTimerId, RET_osStatus) +SVC_1_2(svcTimerCall, os_InRegs osCallback, osTimerId, RET_osCallback) + +// Timer Management Service Calls + +/// Create timer +osTimerId svcTimerCreate (osTimerDef_t *timer_def, os_timer_type type, void *argument) { + os_timer_cb *pt; + + if ((timer_def == NULL) || (timer_def->ptimer == NULL)) { + sysThreadError(osErrorParameter); + return NULL; + } + + pt = timer_def->timer; + if (pt == NULL) { + sysThreadError(osErrorParameter); + return NULL; + } + + if ((type != osTimerOnce) && (type != osTimerPeriodic)) { + sysThreadError(osErrorValue); + return NULL; + } + + if (osThreadId_osTimerThread == NULL) { + sysThreadError(osErrorResource); + return NULL; + } + + if (pt->state != osTimerInvalid){ + sysThreadError(osErrorResource); + return NULL; + } + + pt->state = osTimerStopped; + pt->type = (uint8_t)type; + pt->arg = argument; + pt->timer = timer_def; + + return (osTimerId)pt; +} + +/// Start or restart timer +osStatus svcTimerStart (osTimerId timer_id, uint32_t millisec) { + os_timer_cb *pt; + uint32_t tcnt; + + pt = rt_id2obj(timer_id); + if (pt == NULL) return osErrorParameter; + + tcnt = rt_ms2tick(millisec); + if (tcnt == 0) return osErrorValue; + + switch (pt->state) { + case osTimerRunning: + if (rt_timer_remove(pt) != 0) { + return osErrorResource; + } + break; + case osTimerStopped: + pt->state = osTimerRunning; + pt->icnt = (uint16_t)tcnt; + break; + default: + return osErrorResource; + } + + rt_timer_insert(pt, tcnt); + + return osOK; +} + +/// Stop timer +osStatus svcTimerStop (osTimerId timer_id) { + os_timer_cb *pt; + + pt = rt_id2obj(timer_id); + if (pt == NULL) return osErrorParameter; + + if (pt->state != osTimerRunning) return osErrorResource; + + pt->state = osTimerStopped; + + if (rt_timer_remove(pt) != 0) { + return osErrorResource; + } + + return osOK; +} + +/// Delete timer +osStatus svcTimerDelete (osTimerId timer_id) { + os_timer_cb *pt; + + pt = rt_id2obj(timer_id); + if (pt == NULL) return osErrorParameter; + + switch (pt->state) { + case osTimerRunning: + rt_timer_remove(pt); + break; + case osTimerStopped: + break; + default: + return osErrorResource; + } + + pt->state = osTimerInvalid; + + return osOK; +} + +/// Get timer callback parameters +os_InRegs osCallback_type svcTimerCall (osTimerId timer_id) { + os_timer_cb *pt; + osCallback ret; + + pt = rt_id2obj(timer_id); + if (pt == NULL) { + ret.fp = NULL; + ret.arg = NULL; + return osCallback_ret; + } + + ret.fp = (void *)pt->timer->ptimer; + ret.arg = pt->arg; + + return osCallback_ret; +} + +static __INLINE osStatus isrMessagePut (osMessageQId queue_id, uint32_t info, uint32_t millisec); + +/// Timer Tick (called each SysTick) +void sysTimerTick (void) { + os_timer_cb *pt, *p; + + p = os_timer_head; + if (p == NULL) return; + + p->tcnt--; + while ((p != NULL) && (p->tcnt == 0)) { + pt = p; + p = p->next; + os_timer_head = p; + isrMessagePut(osMessageQId_osTimerMessageQ, (uint32_t)pt, 0); + if (pt->type == osTimerPeriodic) { + rt_timer_insert(pt, pt->icnt); + } else { + pt->state = osTimerStopped; + } + } +} + + +// Timer Management Public API + +/// Create timer +osTimerId osTimerCreate (osTimerDef_t *timer_def, os_timer_type type, void *argument) { + if (__get_IPSR() != 0) return NULL; // Not allowed in ISR + if (((__get_CONTROL() & 1) == 0) && (os_running == 0)) { + // Privileged and not running + return svcTimerCreate(timer_def, type, argument); + } else { + return __svcTimerCreate(timer_def, type, argument); + } +} + +/// Start or restart timer +osStatus osTimerStart (osTimerId timer_id, uint32_t millisec) { + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + return __svcTimerStart(timer_id, millisec); +} + +/// Stop timer +osStatus osTimerStop (osTimerId timer_id) { + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + return __svcTimerStop(timer_id); +} + +/// Delete timer +osStatus osTimerDelete (osTimerId timer_id) { + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + return __svcTimerDelete(timer_id); +} + +/// INTERNAL - Not Public +/// Get timer callback parameters (used by OS Timer Thread) +os_InRegs osCallback osTimerCall (osTimerId timer_id) { + return __svcTimerCall(timer_id); +} + + +// Timer Thread +__NO_RETURN void osTimerThread (void const *argument) { + osCallback cb; + osEvent evt; + + for (;;) { + evt = osMessageGet(osMessageQId_osTimerMessageQ, osWaitForever); + if (evt.status == osEventMessage) { + cb = osTimerCall(evt.value.p); + if (cb.fp != NULL) { + (*(os_ptimer)cb.fp)(cb.arg); + } + } + } +} + + +// ==== Signal Management ==== + +// Signal Service Calls declarations +SVC_2_1(svcSignalSet, int32_t, osThreadId, int32_t, RET_int32_t) +SVC_2_1(svcSignalClear, int32_t, osThreadId, int32_t, RET_int32_t) +SVC_1_1(svcSignalGet, int32_t, osThreadId, RET_int32_t) +SVC_2_3(svcSignalWait, os_InRegs osEvent, int32_t, uint32_t, RET_osEvent) + +// Signal Service Calls + +/// Set the specified Signal Flags of an active thread +int32_t svcSignalSet (osThreadId thread_id, int32_t signals) { + P_TCB ptcb; + int32_t sig; + + ptcb = rt_tid2ptcb(thread_id); // Get TCB pointer + if (ptcb == NULL) return 0x80000000; + + if (signals & (0xFFFFFFFF << osFeature_Signals)) return 0x80000000; + + sig = ptcb->events; // Previous signal flags + + rt_evt_set(signals, ptcb->task_id); // Set event flags + + return sig; +} + +/// Clear the specified Signal Flags of an active thread +int32_t svcSignalClear (osThreadId thread_id, int32_t signals) { + P_TCB ptcb; + int32_t sig; + + ptcb = rt_tid2ptcb(thread_id); // Get TCB pointer + if (ptcb == NULL) return 0x80000000; + + if (signals & (0xFFFFFFFF << osFeature_Signals)) return 0x80000000; + + sig = ptcb->events; // Previous signal flags + + rt_evt_clr(signals, ptcb->task_id); // Clear event flags + + return sig; +} + +/// Get Signal Flags status of an active thread +int32_t svcSignalGet (osThreadId thread_id) { + P_TCB ptcb; + + ptcb = rt_tid2ptcb(thread_id); // Get TCB pointer + if (ptcb == NULL) return 0x80000000; + + return ptcb->events; // Return event flags +} + +/// Wait for one or more Signal Flags to become signaled for the current RUNNING thread +os_InRegs osEvent_type svcSignalWait (int32_t signals, uint32_t millisec) { + OS_RESULT res; + osEvent ret; + + if (signals & (0xFFFFFFFF << osFeature_Signals)) { + ret.status = osErrorValue; + return osEvent_ret_status; + } + + if (signals != 0) { // Wait for all specified signals + res = rt_evt_wait(signals, rt_ms2tick(millisec), __TRUE); + } else { // Wait for any signal + res = rt_evt_wait(0xFFFF, rt_ms2tick(millisec), __FALSE); + } + + if (res == OS_R_EVT) { + ret.status = osEventSignal; + ret.value.signals = signals ? signals : os_tsk.run->waits; + } else { + ret.status = millisec ? osEventTimeout : osOK; + ret.value.signals = 0; + } + + return osEvent_ret_value; +} + + +// Signal ISR Calls + +/// Set the specified Signal Flags of an active thread +static __INLINE int32_t isrSignalSet (osThreadId thread_id, int32_t signals) { + P_TCB ptcb; + int32_t sig; + + ptcb = rt_tid2ptcb(thread_id); // Get TCB pointer + if (ptcb == NULL) return 0x80000000; + + if (signals & (0xFFFFFFFF << osFeature_Signals)) return 0x80000000; + + sig = ptcb->events; // Previous signal flags + + isr_evt_set(signals, ptcb->task_id); // Set event flags + + return sig; +} + + +// Signal Public API + +/// Set the specified Signal Flags of an active thread +int32_t osSignalSet (osThreadId thread_id, int32_t signals) { + if (__get_IPSR() != 0) { // in ISR + return isrSignalSet(thread_id, signals); + } else { // in Thread + return __svcSignalSet(thread_id, signals); + } +} + +/// Clear the specified Signal Flags of an active thread +int32_t osSignalClear (osThreadId thread_id, int32_t signals) { + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + return __svcSignalClear(thread_id, signals); +} + +/// Get Signal Flags status of an active thread +int32_t osSignalGet (osThreadId thread_id) { + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + return __svcSignalGet(thread_id); +} + +/// Wait for one or more Signal Flags to become signaled for the current RUNNING thread +os_InRegs osEvent osSignalWait (int32_t signals, uint32_t millisec) { + osEvent ret; + + if (__get_IPSR() != 0) { // Not allowed in ISR + ret.status = osErrorISR; + return ret; + } + return __svcSignalWait(signals, millisec); +} + + +// ==== Mutex Management ==== + +// Mutex Service Calls declarations +SVC_1_1(svcMutexCreate, osMutexId, osMutexDef_t *, RET_pointer) +SVC_2_1(svcMutexWait, osStatus, osMutexId, uint32_t, RET_osStatus) +SVC_1_1(svcMutexRelease, osStatus, osMutexId, RET_osStatus) +SVC_1_1(svcMutexDelete, osStatus, osMutexId, RET_osStatus) + +// Mutex Service Calls + +/// Create and Initialize a Mutex object +osMutexId svcMutexCreate (osMutexDef_t *mutex_def) { + OS_ID mut; + + if (mutex_def == NULL) { + sysThreadError(osErrorParameter); + return NULL; + } + + mut = mutex_def->mutex; + if (mut == NULL) { + sysThreadError(osErrorParameter); + return NULL; + } + + if (((P_MUCB)mut)->cb_type != 0) { + sysThreadError(osErrorParameter); + return NULL; + } + + rt_mut_init(mut); // Initialize Mutex + + return mut; +} + +/// Wait until a Mutex becomes available +osStatus svcMutexWait (osMutexId mutex_id, uint32_t millisec) { + OS_ID mut; + OS_RESULT res; + + mut = rt_id2obj(mutex_id); + if (mut == NULL) return osErrorParameter; + + if (((P_MUCB)mut)->cb_type != MUCB) return osErrorParameter; + + res = rt_mut_wait(mut, rt_ms2tick(millisec)); // Wait for Mutex + + if (res == OS_R_TMO) { + return (millisec ? osErrorTimeoutResource : osErrorResource); + } + + return osOK; +} + +/// Release a Mutex that was obtained with osMutexWait +osStatus svcMutexRelease (osMutexId mutex_id) { + OS_ID mut; + OS_RESULT res; + + mut = rt_id2obj(mutex_id); + if (mut == NULL) return osErrorParameter; + + if (((P_MUCB)mut)->cb_type != MUCB) return osErrorParameter; + + res = rt_mut_release(mut); // Release Mutex + + if (res == OS_R_NOK) return osErrorResource; // Thread not owner or Zero Counter + + return osOK; +} + +/// Delete a Mutex that was created by osMutexCreate +osStatus svcMutexDelete (osMutexId mutex_id) { + OS_ID mut; + + mut = rt_id2obj(mutex_id); + if (mut == NULL) return osErrorParameter; + + if (((P_MUCB)mut)->cb_type != MUCB) return osErrorParameter; + + rt_mut_delete(mut); // Release Mutex + + return osOK; +} + + +// Mutex Public API + +/// Create and Initialize a Mutex object +osMutexId osMutexCreate (osMutexDef_t *mutex_def) { + if (__get_IPSR() != 0) return NULL; // Not allowed in ISR + if (((__get_CONTROL() & 1) == 0) && (os_running == 0)) { + // Privileged and not running + return svcMutexCreate(mutex_def); + } else { + return __svcMutexCreate(mutex_def); + } +} + +/// Wait until a Mutex becomes available +osStatus osMutexWait (osMutexId mutex_id, uint32_t millisec) { + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + return __svcMutexWait(mutex_id, millisec); +} + +/// Release a Mutex that was obtained with osMutexWait +osStatus osMutexRelease (osMutexId mutex_id) { + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + return __svcMutexRelease(mutex_id); +} + +/// Delete a Mutex that was created by osMutexCreate +osStatus osMutexDelete (osMutexId mutex_id) { + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + return __svcMutexDelete(mutex_id); +} + + +// ==== Semaphore Management ==== + +// Semaphore Service Calls declarations +SVC_2_1(svcSemaphoreCreate, osSemaphoreId, const osSemaphoreDef_t *, int32_t, RET_pointer) +SVC_2_1(svcSemaphoreWait, int32_t, osSemaphoreId, uint32_t, RET_int32_t) +SVC_1_1(svcSemaphoreRelease, osStatus, osSemaphoreId, RET_osStatus) +SVC_1_1(svcSemaphoreDelete, osStatus, osSemaphoreId, RET_osStatus) + +// Semaphore Service Calls + +/// Create and Initialize a Semaphore object +osSemaphoreId svcSemaphoreCreate (const osSemaphoreDef_t *semaphore_def, int32_t count) { + OS_ID sem; + + if (semaphore_def == NULL) { + sysThreadError(osErrorParameter); + return NULL; + } + + sem = semaphore_def->semaphore; + if (sem == NULL) { + sysThreadError(osErrorParameter); + return NULL; + } + + if (((P_SCB)sem)->cb_type != 0) { + sysThreadError(osErrorParameter); + return NULL; + } + + if (count > osFeature_Semaphore) { + sysThreadError(osErrorValue); + return NULL; + } + + rt_sem_init(sem, count); // Initialize Semaphore + + return sem; +} + +/// Wait until a Semaphore becomes available +int32_t svcSemaphoreWait (osSemaphoreId semaphore_id, uint32_t millisec) { + OS_ID sem; + OS_RESULT res; + + sem = rt_id2obj(semaphore_id); + if (sem == NULL) return -1; + + if (((P_SCB)sem)->cb_type != SCB) return -1; + + res = rt_sem_wait(sem, rt_ms2tick(millisec)); // Wait for Semaphore + + if (res == OS_R_TMO) return 0; // Timeout + + return (((P_SCB)sem)->tokens + 1); +} + +/// Release a Semaphore +osStatus svcSemaphoreRelease (osSemaphoreId semaphore_id) { + OS_ID sem; + + sem = rt_id2obj(semaphore_id); + if (sem == NULL) return osErrorParameter; + + if (((P_SCB)sem)->cb_type != SCB) return osErrorParameter; + + if (((P_SCB)sem)->tokens == osFeature_Semaphore) return osErrorResource; + + rt_sem_send(sem); // Release Semaphore + + return osOK; +} + +/// Delete a Semaphore that was created by osSemaphoreCreate +osStatus svcSemaphoreDelete (osSemaphoreId semaphore_id) { + OS_ID sem; + + sem = rt_id2obj(semaphore_id); + if (sem == NULL) return osErrorParameter; + + if (((P_SCB)sem)->cb_type != SCB) return osErrorParameter; + + rt_sem_delete(sem); // Delete Semaphore + + return osOK; +} + + +// Semaphore ISR Calls + +/// Release a Semaphore +static __INLINE osStatus isrSemaphoreRelease (osSemaphoreId semaphore_id) { + OS_ID sem; + + sem = rt_id2obj(semaphore_id); + if (sem == NULL) return osErrorParameter; + + if (((P_SCB)sem)->cb_type != SCB) return osErrorParameter; + + if (((P_SCB)sem)->tokens == osFeature_Semaphore) return osErrorResource; + + isr_sem_send(sem); // Release Semaphore + + return osOK; +} + + +// Semaphore Public API + +/// Create and Initialize a Semaphore object +osSemaphoreId osSemaphoreCreate (osSemaphoreDef_t *semaphore_def, int32_t count) { + if (__get_IPSR() != 0) return NULL; // Not allowed in ISR + if (((__get_CONTROL() & 1) == 0) && (os_running == 0)) { + // Privileged and not running + return svcSemaphoreCreate(semaphore_def, count); + } else { + return __svcSemaphoreCreate(semaphore_def, count); + } +} + +/// Wait until a Semaphore becomes available +int32_t osSemaphoreWait (osSemaphoreId semaphore_id, uint32_t millisec) { + if (__get_IPSR() != 0) return -1; // Not allowed in ISR + return __svcSemaphoreWait(semaphore_id, millisec); +} + +/// Release a Semaphore +osStatus osSemaphoreRelease (osSemaphoreId semaphore_id) { + if (__get_IPSR() != 0) { // in ISR + return isrSemaphoreRelease(semaphore_id); + } else { // in Thread + return __svcSemaphoreRelease(semaphore_id); + } +} + +/// Delete a Semaphore that was created by osSemaphoreCreate +osStatus osSemaphoreDelete (osSemaphoreId semaphore_id) { + if (__get_IPSR() != 0) return osErrorISR; // Not allowed in ISR + return __svcSemaphoreDelete(semaphore_id); +} + + +// ==== Memory Management Functions ==== + +// Memory Management Helper Functions + +// Clear Memory Box (Zero init) +static void rt_clr_box (void *box_mem, void *box) { + uint32_t *p, n; + + if (box) { + p = box; + for (n = ((P_BM)box_mem)->blk_size; n; n -= 4) { + *p++ = 0; + } + } +} + +// Memory Management Service Calls declarations +SVC_1_1(svcPoolCreate, osPoolId, const osPoolDef_t *, RET_pointer) +SVC_2_1(sysPoolAlloc, void *, osPoolId, uint32_t, RET_pointer) +SVC_2_1(sysPoolFree, osStatus, osPoolId, void *, RET_osStatus) + +// Memory Management Service & ISR Calls + +/// Create and Initialize memory pool +osPoolId svcPoolCreate (const osPoolDef_t *pool_def) { + uint32_t blk_sz; + + if ((pool_def == NULL) || + (pool_def->pool_sz == 0) || + (pool_def->item_sz == 0) || + (pool_def->pool == NULL)) { + sysThreadError(osErrorParameter); + return NULL; + } + + blk_sz = (pool_def->item_sz + 3) & ~3; + + _init_box(pool_def->pool, sizeof(struct OS_BM) + pool_def->pool_sz * blk_sz, blk_sz); + + return pool_def->pool; +} + +/// Allocate a memory block from a memory pool +void *sysPoolAlloc (osPoolId pool_id, uint32_t clr) { + void *ptr; + + if (pool_id == NULL) return NULL; + + ptr = rt_alloc_box(pool_id); + if (clr) { + rt_clr_box(pool_id, ptr); + } + + return ptr; +} + +/// Return an allocated memory block back to a specific memory pool +osStatus sysPoolFree (osPoolId pool_id, void *block) { + int32_t res; + + if (pool_id == NULL) return osErrorParameter; + + res = rt_free_box(pool_id, block); + if (res != 0) return osErrorValue; + + return osOK; +} + + +// Memory Management Public API + +/// Create and Initialize memory pool +osPoolId osPoolCreate (osPoolDef_t *pool_def) { + if (__get_IPSR() != 0) return NULL; // Not allowed in ISR + if (((__get_CONTROL() & 1) == 0) && (os_running == 0)) { + // Privileged and not running + return svcPoolCreate(pool_def); + } else { + return __svcPoolCreate(pool_def); + } +} + +/// Allocate a memory block from a memory pool +void *osPoolAlloc (osPoolId pool_id) { + if ((__get_IPSR() != 0) || ((__get_CONTROL() & 1) == 0)) { // in ISR or Privileged + return sysPoolAlloc(pool_id, 0); + } else { // in Thread + return __sysPoolAlloc(pool_id, 0); + } +} + +/// Allocate a memory block from a memory pool and set memory block to zero +void *osPoolCAlloc (osPoolId pool_id) { + if ((__get_IPSR() != 0) || ((__get_CONTROL() & 1) == 0)) { // in ISR or Privileged + return sysPoolAlloc(pool_id, 1); + } else { // in Thread + return __sysPoolAlloc(pool_id, 1); + } +} + +/// Return an allocated memory block back to a specific memory pool +osStatus osPoolFree (osPoolId pool_id, void *block) { + if ((__get_IPSR() != 0) || ((__get_CONTROL() & 1) == 0)) { // in ISR or Privileged + return sysPoolFree(pool_id, block); + } else { // in Thread + return __sysPoolFree(pool_id, block); + } +} + + +// ==== Message Queue Management Functions ==== + +// Message Queue Management Service Calls declarations +SVC_2_1(svcMessageCreate, osMessageQId, osMessageQDef_t *, osThreadId, RET_pointer) +SVC_3_1(svcMessagePut, osStatus, osMessageQId, uint32_t, uint32_t, RET_osStatus) +SVC_2_3(svcMessageGet, os_InRegs osEvent, osMessageQId, uint32_t, RET_osEvent) + +// Message Queue Service Calls + +/// Create and Initialize Message Queue +osMessageQId svcMessageCreate (osMessageQDef_t *queue_def, osThreadId thread_id) { + + if ((queue_def == NULL) || + (queue_def->queue_sz == 0) || + (queue_def->pool == NULL)) { + sysThreadError(osErrorParameter); + return NULL; + } + + if (((P_MCB)queue_def->pool)->cb_type != 0) { + sysThreadError(osErrorParameter); + return NULL; + } + + rt_mbx_init(queue_def->pool, 4*(queue_def->queue_sz + 4)); + + return queue_def->pool; +} + +/// Put a Message to a Queue +osStatus svcMessagePut (osMessageQId queue_id, uint32_t info, uint32_t millisec) { + OS_RESULT res; + + if (queue_id == NULL) return osErrorParameter; + + if (((P_MCB)queue_id)->cb_type != MCB) return osErrorParameter; + + res = rt_mbx_send(queue_id, (void *)info, rt_ms2tick(millisec)); + + if (res == OS_R_TMO) { + return (millisec ? osErrorTimeoutResource : osErrorResource); + } + + return osOK; +} + +/// Get a Message or Wait for a Message from a Queue +os_InRegs osEvent_type svcMessageGet (osMessageQId queue_id, uint32_t millisec) { + OS_RESULT res; + osEvent ret; + + if (queue_id == NULL) { + ret.status = osErrorParameter; + return osEvent_ret_status; + } + + if (((P_MCB)queue_id)->cb_type != MCB) { + ret.status = osErrorParameter; + return osEvent_ret_status; + } + + res = rt_mbx_wait(queue_id, &ret.value.p, rt_ms2tick(millisec)); + + if (res == OS_R_TMO) { + ret.status = millisec ? osEventTimeout : osOK; + return osEvent_ret_value; + } + + ret.status = osEventMessage; + + return osEvent_ret_value; +} + + +// Message Queue ISR Calls + +/// Put a Message to a Queue +static __INLINE osStatus isrMessagePut (osMessageQId queue_id, uint32_t info, uint32_t millisec) { + + if ((queue_id == NULL) || (millisec != 0)) { + return osErrorParameter; + } + + if (((P_MCB)queue_id)->cb_type != MCB) return osErrorParameter; + + if (rt_mbx_check(queue_id) == 0) { // Check if Queue is full + return osErrorResource; + } + + isr_mbx_send(queue_id, (void *)info); + + return osOK; +} + +/// Get a Message or Wait for a Message from a Queue +static __INLINE os_InRegs osEvent isrMessageGet (osMessageQId queue_id, uint32_t millisec) { + OS_RESULT res; + osEvent ret; + + if ((queue_id == NULL) || (millisec != 0)) { + ret.status = osErrorParameter; + return ret; + } + + if (((P_MCB)queue_id)->cb_type != MCB) { + ret.status = osErrorParameter; + return ret; + } + + res = isr_mbx_receive(queue_id, &ret.value.p); + + if (res != OS_R_MBX) { + ret.status = osOK; + return ret; + } + + ret.status = osEventMessage; + + return ret; +} + + +// Message Queue Management Public API + +/// Create and Initialize Message Queue +osMessageQId osMessageCreate (osMessageQDef_t *queue_def, osThreadId thread_id) { + if (__get_IPSR() != 0) return NULL; // Not allowed in ISR + if (((__get_CONTROL() & 1) == 0) && (os_running == 0)) { + // Privileged and not running + return svcMessageCreate(queue_def, thread_id); + } else { + return __svcMessageCreate(queue_def, thread_id); + } +} + +/// Put a Message to a Queue +osStatus osMessagePut (osMessageQId queue_id, uint32_t info, uint32_t millisec) { + if (__get_IPSR() != 0) { // in ISR + return isrMessagePut(queue_id, info, millisec); + } else { // in Thread + return __svcMessagePut(queue_id, info, millisec); + } +} + +/// Get a Message or Wait for a Message from a Queue +os_InRegs osEvent osMessageGet (osMessageQId queue_id, uint32_t millisec) { + if (__get_IPSR() != 0) { // in ISR + return isrMessageGet(queue_id, millisec); + } else { // in Thread + return __svcMessageGet(queue_id, millisec); + } +} + + +// ==== Mail Queue Management Functions ==== + +// Mail Queue Management Service Calls declarations +SVC_2_1(svcMailCreate, osMailQId, osMailQDef_t *, osThreadId, RET_pointer) +SVC_4_1(sysMailAlloc, void *, osMailQId, uint32_t, uint32_t, uint32_t, RET_pointer) +SVC_3_1(sysMailFree, osStatus, osMailQId, void *, uint32_t, RET_osStatus) + +// Mail Queue Management Service & ISR Calls + +/// Create and Initialize mail queue +osMailQId svcMailCreate (osMailQDef_t *queue_def, osThreadId thread_id) { + uint32_t blk_sz; + P_MCB pmcb; + void *pool; + + if ((queue_def == NULL) || + (queue_def->queue_sz == 0) || + (queue_def->item_sz == 0) || + (queue_def->pool == NULL)) { + sysThreadError(osErrorParameter); + return NULL; + } + + pmcb = *(((void **)queue_def->pool) + 0); + pool = *(((void **)queue_def->pool) + 1); + + if ((pool == NULL) || (pmcb == NULL) || (pmcb->cb_type != 0)) { + sysThreadError(osErrorParameter); + return NULL; + } + + blk_sz = (queue_def->item_sz + 3) & ~3; + + _init_box(pool, sizeof(struct OS_BM) + queue_def->queue_sz * blk_sz, blk_sz); + + rt_mbx_init(pmcb, 4*(queue_def->queue_sz + 4)); + + + return queue_def->pool; +} + +/// Allocate a memory block from a mail +void *sysMailAlloc (osMailQId queue_id, uint32_t millisec, uint32_t isr, uint32_t clr) { + P_MCB pmcb; + void *pool; + void *mem; + + if (queue_id == NULL) return NULL; + + pmcb = *(((void **)queue_id) + 0); + pool = *(((void **)queue_id) + 1); + + if ((pool == NULL) || (pmcb == NULL)) return NULL; + + if (isr && (millisec != 0)) return NULL; + + mem = rt_alloc_box(pool); + if (clr) { + rt_clr_box(pool, mem); + } + + if ((mem == NULL) && (millisec != 0)) { + // Put Task to sleep when Memory not available + if (pmcb->p_lnk != NULL) { + rt_put_prio((P_XCB)pmcb, os_tsk.run); + } else { + pmcb->p_lnk = os_tsk.run; + os_tsk.run->p_lnk = NULL; + os_tsk.run->p_rlnk = (P_TCB)pmcb; + // Task is waiting to allocate a message + pmcb->state = 3; + } + rt_block(rt_ms2tick(millisec), WAIT_MBX); + } + + return mem; +} + +/// Free a memory block from a mail +osStatus sysMailFree (osMailQId queue_id, void *mail, uint32_t isr) { + P_MCB pmcb; + P_TCB ptcb; + void *pool; + void *mem; + int32_t res; + + if (queue_id == NULL) return osErrorParameter; + + pmcb = *(((void **)queue_id) + 0); + pool = *(((void **)queue_id) + 1); + + if ((pmcb == NULL) || (pool == NULL)) return osErrorParameter; + + res = rt_free_box(pool, mail); + + if (res != 0) return osErrorValue; + + if (pmcb->state == 3) { + // Task is waiting to allocate a message + if (isr) { + rt_psq_enq (pmcb, (U32)pool); + rt_psh_req (); + } else { + mem = rt_alloc_box(pool); + if (mem != NULL) { + ptcb = rt_get_first((P_XCB)pmcb); + if (pmcb->p_lnk == NULL) { + pmcb->state = 0; + } + rt_ret_val(ptcb, (U32)mem); + rt_rmv_dly(ptcb); + rt_dispatch(ptcb); + } + } + } + + return osOK; +} + + +// Mail Queue Management Public API + +/// Create and Initialize mail queue +osMailQId osMailCreate (osMailQDef_t *queue_def, osThreadId thread_id) { + if (__get_IPSR() != 0) return NULL; // Not allowed in ISR + if (((__get_CONTROL() & 1) == 0) && (os_running == 0)) { + // Privileged and not running + return svcMailCreate(queue_def, thread_id); + } else { + return __svcMailCreate(queue_def, thread_id); + } +} + +/// Allocate a memory block from a mail +void *osMailAlloc (osMailQId queue_id, uint32_t millisec) { + if (__get_IPSR() != 0) { // in ISR + return sysMailAlloc(queue_id, millisec, 1, 0); + } else { // in Thread + return __sysMailAlloc(queue_id, millisec, 0, 0); + } +} + +/// Allocate a memory block from a mail and set memory block to zero +void *osMailCAlloc (osMailQId queue_id, uint32_t millisec) { + if (__get_IPSR() != 0) { // in ISR + return sysMailAlloc(queue_id, millisec, 1, 1); + } else { // in Thread + return __sysMailAlloc(queue_id, millisec, 0, 1); + } +} + +/// Free a memory block from a mail +osStatus osMailFree (osMailQId queue_id, void *mail) { + if (__get_IPSR() != 0) { // in ISR + return sysMailFree(queue_id, mail, 1); + } else { // in Thread + return __sysMailFree(queue_id, mail, 0); + } +} + +/// Put a mail to a queue +osStatus osMailPut (osMailQId queue_id, void *mail) { + if (queue_id == NULL) return osErrorParameter; + if (mail == NULL) return osErrorValue; + return osMessagePut(*((void **)queue_id), (uint32_t)mail, 0); +} + +/// Get a mail from a queue +os_InRegs osEvent osMailGet (osMailQId queue_id, uint32_t millisec) { + osEvent ret; + + if (queue_id == NULL) { + ret.status = osErrorParameter; + return ret; + } + + ret = osMessageGet(*((void **)queue_id), millisec); + if (ret.status == osEventMessage) ret.status = osEventMail; + + return ret; +}