QP is an event-driven, RTOS-like, active object framework for microcontrollers, such as mbed. The QP framework provides thread-safe execution of active objects (concurrent state machines) and support both manual and automatic coding of UML statecharts in readable, production-quality C or C++. Automatic code generation of QP code is supported by the free QM modeling tool.
Dependents: qp_hangman qp_dpp qp_blinky
QP/C++ (Quantum Platform in C++) is a lightweight, open source active object (actor) framework for building responsive and modular real-time embedded applications as systems of asynchronous event-driven active objects (actors). The QP/C++ framework is a member of a larger family consisting of QP/C++, QP/C, and QP-nano frameworks, which are all strictly quality controlled, thoroughly documented, and available under GPLv3 with a special Exception for mbed (see http://www.state-machine.com/licensing/QP-mbed_GPL_Exception.txt).
The behavior of active objects is specified in QP/C++ by means of hierarchical state machines (UML statecharts). The framework supports manual coding of UML state machines in C++ as well as automatic code generation by means of the free QM modeling tool (http://www.state-machine.com/qm).
Please see the "QP/C++ Reference Manual" (http://www.state-machine.com/qpcpp) for more information.
qk_port.s
- Committer:
- QL
- Date:
- 2011-02-09
- Revision:
- 0:064c79e7311a
- Child:
- 5:949864ba515c
File content as of revision 0:064c79e7311a:
;***************************************************************************** ; Product: QK port to ARM Cortex-M0/M3, mbed ARM assembler, CMSIS-compliant ; Last Updated for Version: 4.1.06 ; Date of the Last Update: Feb 07, 2011 ; ; Q u a n t u m L e a P s ; --------------------------- ; innovating embedded systems ; ; Copyright (C) 2002-2011 Quantum Leaps, LLC. All rights reserved. ; ; This software may be distributed and modified under the terms of the GNU ; General Public License version 2 (GPL) as published by the Free Software ; Foundation and appearing in the file GPL.TXT included in the packaging of ; this file. Please note that GPL Section 2[b] requires that all works based ; on this software must also be made publicly available under the terms of ; the GPL ("Copyleft"). ; ; Alternatively, this software may be distributed and modified under the ; terms of Quantum Leaps commercial licenses, which expressly supersede ; the GPL and are specifically designed for licensees interested in ; retaining the proprietary status of their code. ; ; Contact information: ; Quantum Leaps Web site: http://www.quantum-leaps.com ; e-mail: info@quantum-leaps.com ;***************************************************************************** AREA QK, CODE, READONLY EXPORT QK_init EXPORT PendSV_Handler ; CMSIS-compliant PendSV exception name EXPORT SVC_Handler ; CMSIS-compliant SVC exception name EXTERN QK_schedule_ ; external references EXTERN QK_readySet_ ; external references ;***************************************************************************** ; ; The QK_init function sets the priorities of SVCall and PendSV exceptions ; to the lowest level possible (0xFF). The function internally disables ; interrupts, but restores the original interrupt lock before exit. ; ;***************************************************************************** QK_init MRS r0,PRIMASK ; store the state of the PRIMASK in r0 CPSID i ; disable interrupts (set PRIMASK) LDR r1,=0xE000ED18 ; System Handler Priority Register LDR r2,[r1,#8] ; load the System 12-15 Priority Register MOVS r3,#0xFF LSLS r3,r3,#16 ORRS r2,r3 ; set PRI_14 (PendSV) to 0xFF STR r2,[r1,#8] ; write the System 12-15 Priority Register LDR r2,[r1,#4] ; load the System 8-11 Priority Register LSLS r3,r3,#8 ORRS r2,r3 ; set PRI_11 (SVCall) to 0xFF STR r2,[r1,#4] ; write the System 8-11 Priority Register MSR PRIMASK,r0 ; restore the original PRIMASK BX lr ; return to the caller ;***************************************************************************** ; ; The PendSV_Handler exception hanlder is used for handling asynchronous ; preemptions in QK. The use of the PendSV exception is the recommended ; and most efficient method for performing context switches with ARM Cortex. ; ; The PendSV exception should have the lowest priority in the whole system ; (0xFF, see QK_init). All other exeptions and interrupts should have higher ; priority. For example, for NVIC with 2 priority bits all interrupts and ; exceptions must have numerical value of priority lower than 0xC0. In this ; case the interrupt priority levels available to your applications are (in ; the order from the lowest urgency to the highest urgency): 0x80, 0x40, 0x00. ; ; Also, *all* ISRs in the QK application must trigger the PendSV exception ; by calling the QK_ISR_EXIT() macro. ; ; Due to tail-chaining and its lowest priority, the PendSV exception will be ; entered immediately after the exit from the *last* nested interrupt (or ; exception). In QK, this is exactly the time when the QK scheduler needs to ; check for the asynchronous preemptions. ; ;***************************************************************************** PendSV_Handler CPSID i ; disable interrupts at processor level LDR r0,=QK_readySet_ ; load the address of QK_readySet_ LDRB r0,[r0] ; load the first byte of QK_readySet_ CMP r0,#0 ; is QK_readySet_ == 0 ? BEQ.N iret ; if QK_readySet_ == 0, branch to iret MOVS r1,#0x01 LSLS r1,r1,#24 ; make up a task xPSR with only the T bit set LDR r0,=schedule ; load the address of sched wrapper (new PC) PUSH {r0-r1} ; push xPSR,PC SUB sp,sp,#(6*4) ; don't care for lr,r12,r3,r2,r1,r0 BX lr ; interrupt return to the scheduler iret CPSIE i ; enable interrupts at processor level BX lr ; interrupt return to the task schedule BL QK_schedule_ ; call the QK scheduler CPSIE i ; enable interrupts to allow SVCall exception SVC 0 ; SV exception returns to the preempted task ;***************************************************************************** ; ; The SVC_Handler exception handler is used for returning back to the ; interrupted context (task or interrupt). The SVC exception should have ; the lowest priority in the whole system (see QK_init). The SVCall ; exception simply removes its own interrupt stack frame from the stack and ; returns to the preempted task using the interrupt stack frame that must be ; at the top of the stack. ; ;***************************************************************************** SVC_Handler ADD sp,sp,#(8*4) ; remove one interrupt frame from the stack BX lr ; return to the preempted task ALIGN ; make sure proper alignment END