Some fixes needed for STM32 build after recent scheduler changes
git-svn-id: svn://svn.code.sf.net/p/nuttx/code/trunk@5620 42af7a65-404d-4744-a932-0658087f49c3
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patacongo
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057413339c
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@ -127,7 +127,7 @@
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pid_t up_vfork(const struct vfork_s *context)
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{
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struct tcb_s *parent = (FAR struct tcb_s *)g_readytorun.head;
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struct tcb_s *child;
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struct task_tcb_s *child;
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size_t stacksize;
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uint32_t newsp;
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uint32_t newfp;
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@ -161,7 +161,7 @@ pid_t up_vfork(const struct vfork_s *context)
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/* Allocate the stack for the TCB */
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ret = up_create_stack(child, stacksize);
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ret = up_create_stack((FAR struct tcb_s *)child, stacksize);
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if (ret != OK)
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{
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sdbg("up_create_stack failed: %d\n", ret);
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@ -187,7 +187,7 @@ pid_t up_vfork(const struct vfork_s *context)
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* effort is overkill.
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*/
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newsp = (uint32_t)child->adj_stack_ptr - stackutil;
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newsp = (uint32_t)child->cmn.adj_stack_ptr - stackutil;
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memcpy((void *)newsp, (const void *)context->sp, stackutil);
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/* Was there a frame pointer in place before? */
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@ -196,7 +196,7 @@ pid_t up_vfork(const struct vfork_s *context)
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context->fp >= (uint32_t)parent->adj_stack_ptr - stacksize)
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{
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uint32_t frameutil = (uint32_t)parent->adj_stack_ptr - context->fp;
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newfp = (uint32_t)child->adj_stack_ptr - frameutil;
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newfp = (uint32_t)child->cmn.adj_stack_ptr - frameutil;
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}
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else
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{
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@ -206,7 +206,7 @@ pid_t up_vfork(const struct vfork_s *context)
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svdbg("Old stack base:%08x SP:%08x FP:%08x\n",
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parent->adj_stack_ptr, context->sp, context->fp);
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svdbg("New stack base:%08x SP:%08x FP:%08x\n",
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child->adj_stack_ptr, newsp, newfp);
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child->cmn.adj_stack_ptr, newsp, newfp);
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/* Update the stack pointer, frame pointer, and volatile registers. When
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* the child TCB was initialized, all of the values were set to zero.
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@ -215,15 +215,15 @@ pid_t up_vfork(const struct vfork_s *context)
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* child thread.
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*/
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child->xcp.regs[REG_R4] = context->r4; /* Volatile register r4 */
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child->xcp.regs[REG_R5] = context->r5; /* Volatile register r5 */
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child->xcp.regs[REG_R6] = context->r6; /* Volatile register r6 */
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child->xcp.regs[REG_R7] = context->r7; /* Volatile register r7 */
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child->xcp.regs[REG_R8] = context->r8; /* Volatile register r8 */
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child->xcp.regs[REG_R9] = context->r9; /* Volatile register r9 */
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child->xcp.regs[REG_R10] = context->r10; /* Volatile register r10 */
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child->xcp.regs[REG_FP] = newfp; /* Frame pointer */
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child->xcp.regs[REG_SP] = newsp; /* Stack pointer */
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child->cmn.xcp.regs[REG_R4] = context->r4; /* Volatile register r4 */
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child->cmn.xcp.regs[REG_R5] = context->r5; /* Volatile register r5 */
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child->cmn.xcp.regs[REG_R6] = context->r6; /* Volatile register r6 */
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child->cmn.xcp.regs[REG_R7] = context->r7; /* Volatile register r7 */
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child->cmn.xcp.regs[REG_R8] = context->r8; /* Volatile register r8 */
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child->cmn.xcp.regs[REG_R9] = context->r9; /* Volatile register r9 */
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child->cmn.xcp.regs[REG_R10] = context->r10; /* Volatile register r10 */
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child->cmn.xcp.regs[REG_FP] = newfp; /* Frame pointer */
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child->cmn.xcp.regs[REG_SP] = newsp; /* Stack pointer */
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/* And, finally, start the child task. On a failure, task_vforkstart()
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* will discard the TCB by calling task_vforkabort().
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@ -114,7 +114,7 @@
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pid_t up_vfork(const struct vfork_s *context)
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{
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struct tcb_s *parent = (FAR struct tcb_s *)g_readytorun.head;
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struct tcb_s *child;
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struct task_tcb_s *child;
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size_t stacksize;
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uint32_t newsp;
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#if CONFIG_MIPS32_FRAMEPOINTER
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@ -167,7 +167,7 @@ pid_t up_vfork(const struct vfork_s *context)
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/* Allocate the stack for the TCB */
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ret = up_create_stack(child, stacksize);
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ret = up_create_stack((FAR struct tcb_s *)child, stacksize);
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if (ret != OK)
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{
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sdbg("up_create_stack failed: %d\n", ret);
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@ -193,7 +193,7 @@ pid_t up_vfork(const struct vfork_s *context)
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* effort is overkill.
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*/
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newsp = (uint32_t)child->adj_stack_ptr - stackutil;
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newsp = (uint32_t)child->cmn.adj_stack_ptr - stackutil;
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memcpy((void *)newsp, (const void *)context->sp, stackutil);
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/* Was there a frame pointer in place before? */
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@ -203,7 +203,7 @@ pid_t up_vfork(const struct vfork_s *context)
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context->fp >= (uint32_t)parent->adj_stack_ptr - stacksize)
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{
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uint32_t frameutil = (uint32_t)parent->adj_stack_ptr - context->fp;
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newfp = (uint32_t)child->adj_stack_ptr - frameutil;
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newfp = (uint32_t)child->cmn.adj_stack_ptr - frameutil;
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}
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else
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{
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@ -213,12 +213,12 @@ pid_t up_vfork(const struct vfork_s *context)
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svdbg("Old stack base:%08x SP:%08x FP:%08x\n",
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parent->adj_stack_ptr, context->sp, context->fp);
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svdbg("New stack base:%08x SP:%08x FP:%08x\n",
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child->adj_stack_ptr, newsp, newfp);
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child->cmn.adj_stack_ptr, newsp, newfp);
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#else
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svdbg("Old stack base:%08x SP:%08x\n",
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parent->adj_stack_ptr, context->sp);
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svdbg("New stack base:%08x SP:%08x\n",
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child->adj_stack_ptr, newsp);
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child->cmn.adj_stack_ptr, newsp);
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#endif
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/* Update the stack pointer, frame pointer, global pointer and saved
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@ -228,22 +228,22 @@ pid_t up_vfork(const struct vfork_s *context)
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* indication to the newly started child thread.
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*/
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child->xcp.regs[REG_S0] = context->s0; /* Saved register s0 */
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child->xcp.regs[REG_S1] = context->s1; /* Saved register s1 */
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child->xcp.regs[REG_S2] = context->s2; /* Saved register s2 */
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child->xcp.regs[REG_S3] = context->s3; /* Volatile register s3 */
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child->xcp.regs[REG_S4] = context->s4; /* Volatile register s4 */
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child->xcp.regs[REG_S5] = context->s5; /* Volatile register s5 */
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child->xcp.regs[REG_S6] = context->s6; /* Volatile register s6 */
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child->xcp.regs[REG_S7] = context->s7; /* Volatile register s7 */
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child->cmn.xcp.regs[REG_S0] = context->s0; /* Saved register s0 */
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child->cmn.xcp.regs[REG_S1] = context->s1; /* Saved register s1 */
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child->cmn.xcp.regs[REG_S2] = context->s2; /* Saved register s2 */
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child->cmn.xcp.regs[REG_S3] = context->s3; /* Volatile register s3 */
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child->cmn.xcp.regs[REG_S4] = context->s4; /* Volatile register s4 */
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child->cmn.xcp.regs[REG_S5] = context->s5; /* Volatile register s5 */
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child->cmn.xcp.regs[REG_S6] = context->s6; /* Volatile register s6 */
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child->cmn.xcp.regs[REG_S7] = context->s7; /* Volatile register s7 */
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#if CONFIG_MIPS32_FRAMEPOINTER
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child->xcp.regs[REG_FP] = newfp; /* Frame pointer */
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child->cmn.xcp.regs[REG_FP] = newfp; /* Frame pointer */
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#else
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child->xcp.regs[REG_S8] = context->s8; /* Volatile register s8 */
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child->cmn.xcp.regs[REG_S8] = context->s8; /* Volatile register s8 */
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#endif
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child->xcp.regs[REG_SP] = newsp; /* Stack pointer */
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child->cmn.xcp.regs[REG_SP] = newsp; /* Stack pointer */
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#if MIPS32_SAVE_GP
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child->xcp.regs[REG_GP] = newsp; /* Global pointer */
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child->cmn.xcp.regs[REG_GP] = newsp; /* Global pointer */
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#endif
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/* And, finally, start the child task. On a failure, task_vforkstart()
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