Re: stm32f4 __wfi

[Christian Mauderer]

For some reason your grep hasn't found the _CPU_Thread_Idle_body. It's
possible that the stm32f4 uses some other function for that also I don't
know why.

For example for the xilinx_zynq_a9_qemu BSP the disassembled idle body
looks like follows:

void *_CPU_Thread_Idle_body( uintptr_t ignored )
{
   11d70:       b480            push    {r7}
   11d72:       b083            sub     sp, #12
   11d74:       af00            add     r7, sp, #0
   11d76:       6078            str     r0, [r7, #4]
  while ( true ) {
#ifdef ARM_MULTILIB_HAS_WFI
    __asm__ volatile ("wfi");
   11d78:       bf30            wfi
   11d7a:       e7fd            b.n     11d78 <_CPU_Thread_Idle_body+0x8>

Am 24.04.19 um 10:25 schrieb Jython:
> arm-rtems4.11-objdump -dS hello.exe | grep idle --color=auto -n -B 5 -A 12
> 
> there is no idle function which calls wfi command
> // log
> 508-       
> 509-       
> 510-               
> 511-    }
> 512-   
> 513:    if((*USART2_SR) & (1<<4))  // idle
> 514-     3aa:    4b13          ldr    r3, [pc, #76]    ; (3f8
> <USART2_handler+0x94>)
> 515-     3ac:    681b          ldr    r3, [r3, #0]
> 516-     3ae:    681b          ldr    r3, [r3, #0]
> 517-     3b0:    f003 0310     and.w    r3, r3, #16
> 518-     3b4:    2b00          cmp    r3, #0
> 519-     3b6:    d00a          beq.n    3ce <USART2_handler+0x6a>
> 520-    {
> 521:        //printk("idle ");
> 522-       
> 523-        temp = (*USART2_SR);
> 524-     3b8:    4b0f          ldr    r3, [pc, #60]    ; (3f8
> <USART2_handler+0x94>)
> 525-     3ba:    681b          ldr    r3, [r3, #0]
> 526-     3bc:    681b          ldr    r3, [r3, #0]
> 527-     3be:    60fb          str    r3, [r7, #12]
> 528-        temp = (*USART2_DR);
> 529-     3c0:    4b0f          ldr    r3, [pc, #60]    ; (400
> <USART2_handler+0x9c>)
> 530-     3c2:    681b          ldr    r3, [r3, #0]
> 531-     3c4:    681b          ldr    r3, [r3, #0]
> 532-     3c6:    60fb          str    r3, [r7, #12]
> 533-        //temp = temp;
> --
> 627-       
> 628-       
> 629-               
> 630-    }
> 631-   
> 632:    if((*USART3_SR) & (1<<4))  // idle
> 633-     44c:    4b12          ldr    r3, [pc, #72]    ; (498
> <USART3_handler+0x8c>)
> 634-     44e:    681b          ldr    r3, [r3, #0]
> 635-     450:    681b          ldr    r3, [r3, #0]
> 636-     452:    f003 0310     and.w    r3, r3, #16
> 637-     456:    2b00          cmp    r3, #0
> 638-     458:    d00a          beq.n    470 <USART3_handler+0x64>
> 639-    {
> 640:        //printk("idle ");
> 641-       
> 642-        temp = (*USART3_SR);
> 643-     45a:    4b0f          ldr    r3, [pc, #60]    ; (498
> <USART3_handler+0x8c>)
> 644-     45c:    681b          ldr    r3, [r3, #0]
> 645-     45e:    681b          ldr    r3, [r3, #0]
> 646-     460:    60fb          str    r3, [r7, #12]
> 647-        temp = (*USART3_DR);
> 648-     462:    4b0f          ldr    r3, [pc, #60]    ; (4a0
> <USART3_handler+0x94>)
> 649-     464:    681b          ldr    r3, [r3, #0]
> 650-     466:    681b          ldr    r3, [r3, #0]
> 651-     468:    60fb          str    r3, [r7, #12]
> 652-       
> --
> 26329-
> 26330-    if (newTail == tty->rawOutBuf.Head) {
> 26331-      /*
> 26332-       * Buffer has become empty
> 26333-       */
> 26334:      tty->rawOutBufState = rob_idle;
> 26335-    69a0:    f880 5094     strb.w    r5, [r0, #148]    ; 0x94
> 26336-      (*tty->handler.write) (ctx, NULL, 0);
> 26337-    69a4:    f8d4 30c4     ldr.w    r3, [r4, #196]    ; 0xc4
> 26338-    69a8:    4670          mov    r0, lr
> 26339-    69aa:    4629          mov    r1, r5
> 26340-    69ac:    462a          mov    r2, r5
> 26341-    69ae:    4798          blx    r3
> 26342-      nToSend = 0;
> 26343-
> 26344-      /*
> 26345-       * check to see if snd wakeup callback was set
> 26346-       */
> --
> 26443-    6a12:    2600          movs    r6, #0
> 26444-    6a14:    e7ac          b.n    6970
> <rtems_termios_refill_transmitter+0x7c>
> 26445-      /*
> 26446-       * Buffer has become empty
> 26447-       */
> 26448:      tty->rawOutBufState = rob_idle;
> 26449-      (*tty->handler.write) (ctx, NULL, 0);
> 26450-      nToSend = 0;
> 26451-    6a16:    461d          mov    r5, r3
> 26452-    6a18:    e7aa          b.n    6970
> <rtems_termios_refill_transmitter+0x7c>
> 26453-    6a1a:    bf00          nop
> 26454-
> 26455-00006a1c <rtems_termios_txdaemon>:
> 26456-
> 26457-/*
> 26458- * this task actually processes any transmit events
> 26459- */
> 26460-static rtems_task rtems_termios_txdaemon(rtems_task_argument argument)
> --
> 27083-      RTEMS_NO_PRIORITY,
> 27084-      &tty->rawOutBuf.Semaphore);
> 27085-    if (sc != RTEMS_SUCCESSFUL)
> 27086-    6cc0:    2800          cmp    r0, #0
> 27087-    6cc2:    f040 80d6     bne.w    6e72
> <rtems_termios_open_tty+0x2de>
> 27088:    tty->rawOutBufState = rob_idle;
> 27089-
> 27090-    /*
> 27091-     * Set callbacks
> 27092-     */
> 27093-    if (device_node != NULL) {
> 27094-    6cc6:    9b0e          ldr    r3, [sp, #56]    ; 0x38
> 27095-      RTEMS_SIMPLE_BINARY_SEMAPHORE | RTEMS_FIFO,
> 27096-      RTEMS_NO_PRIORITY,
> 27097-      &tty->rawOutBuf.Semaphore);
> 27098-    if (sc != RTEMS_SUCCESSFUL)
> 27099-      rtems_fatal_error_occurred (sc);
> 27100:    tty->rawOutBufState = rob_idle;
> 27101-    6cc8:    f884 0094     strb.w    r0, [r4, #148]    ; 0x94
> 27102-
> 27103-    /*
> 27104-     * Set callbacks
> 27105-     */
> 27106-    if (device_node != NULL) {
> 27107-    6ccc:    2b00          cmp    r3, #0
> 27108-    6cce:    f000 80e9     beq.w    6ea4
> <rtems_termios_open_tty+0x310>
> 27109-      device_node->tty = tty;
> 27110-      tty->handler = *device_node->handler;
> 27111-    6cd2:    f104 0cb8     add.w    ip, r4, #184    ; 0xb8
> 27112-    6cd6:    4666          mov    r6, ip
> --
> 29226-      /* disable interrupts    */
> 29227-      rtems_termios_device_lock_acquire (ctx, &lock_context);
> 29228-      tty->flow_ctrl &= ~FL_OSTOP;
> 29229-    7442:    f8d4 30d8     ldr.w    r3, [r4, #216]    ; 0xd8
> 29230-      /* check for chars in output buffer (or rob_state?) */
> 29231:      if (tty->rawOutBufState != rob_idle) {
> 29232-    7446:    f894 2094     ldrb.w    r2, [r4, #148]    ; 0x94
> 29233-
> 29234-    /* has output been stopped due to received XOFF? */
> 29235-    if (tty->flow_ctrl & FL_OSTOP) {
> 29236-      /* disable interrupts    */
> 29237-      rtems_termios_device_lock_acquire (ctx, &lock_context);
> 29238-      tty->flow_ctrl &= ~FL_OSTOP;
> 29239-    744a:    f023 0320     bic.w    r3, r3, #32
> 29240-    744e:    f8c4 30d8     str.w    r3, [r4, #216]    ; 0xd8
> 29241-      /* check for chars in output buffer (or rob_state?) */
> 29242:      if (tty->rawOutBufState != rob_idle) {
> 29243-    7452:    2a00          cmp    r2, #0
> 29244-    7454:    f040 80cf     bne.w    75f6 <rtems_termios_ioctl+0x306>
> 29245-    ARM_SWITCH_BACK
> 29246-    : ARM_SWITCH_OUTPUT
> 29247-    : [level] "r" (level)
> 29248-  );
> 29249-#elif defined(ARM_MULTILIB_ARCH_V7M)
> 29250-  __asm__ volatile (
> 29251-    7458:    f387 8811     msr    BASEPRI, r7
> 29252-      /* reenable interrupts */
> 29253-      rtems_termios_device_lock_release (ctx, &lock_context);
> 29254-    }
> --
> 29492-
> 29493-  rtems_termios_device_lock_acquire (ctx, &lock_context);
> 29494-  tty->rawOutBuf.Tail = 0;
> 29495-    7572:    f8c4 0084     str.w    r0, [r4, #132]    ; 0x84
> 29496-  tty->rawOutBuf.Head = 0;
> 29497:  tty->rawOutBufState = rob_idle;
> 29498-    7576:    f884 0094     strb.w    r0, [r4, #148]    ; 0x94
> 29499-  rtems_termios_device_context *ctx = tty->device_context;
> 29500-  rtems_interrupt_lock_context lock_context;
> 29501-
> 29502-  rtems_termios_device_lock_acquire (ctx, &lock_context);
> 29503-  tty->rawOutBuf.Tail = 0;
> 29504-  tty->rawOutBuf.Head = 0;
> 29505-    757a:    f8c4 0080     str.w    r0, [r4, #128]    ; 0x80
> 29506-    ARM_SWITCH_BACK
> 29507-    : ARM_SWITCH_OUTPUT
> 29508-    : [level] "r" (level)
> 29509-  );
> --
> 29562-
> 29563-  rtems_termios_device_lock_acquire (ctx, &lock_context);
> 29564-  tty->rawOutBuf.Tail = 0;
> 29565-    75b0:    f8c4 0084     str.w    r0, [r4, #132]    ; 0x84
> 29566-  tty->rawOutBuf.Head = 0;
> 29567:  tty->rawOutBufState = rob_idle;
> 29568-    75b4:    f884 0094     strb.w    r0, [r4, #148]    ; 0x94
> 29569-  rtems_termios_device_context *ctx = tty->device_context;
> 29570-  rtems_interrupt_lock_context lock_context;
> 29571-
> 29572-  rtems_termios_device_lock_acquire (ctx, &lock_context);
> 29573-  tty->rawOutBuf.Tail = 0;
> 29574-  tty->rawOutBuf.Head = 0;
> 29575-    75b8:    f8c4 0080     str.w    r0, [r4, #128]    ; 0x80
> 29576-    ARM_SWITCH_BACK
> 29577-    : ARM_SWITCH_OUTPUT
> 29578-    : [level] "r" (level)
> 29579-  );
> --
> 29629-    75f0:    2301          movs    r3, #1
> 29630-    75f2:    66e3          str    r3, [r4, #108]    ; 0x6c
> 29631-    75f4:    e77e          b.n    74f4 <rtems_termios_ioctl+0x204>
> 29632-      tty->flow_ctrl &= ~FL_OSTOP;
> 29633-      /* check for chars in output buffer (or rob_state?) */
> 29634:      if (tty->rawOutBufState != rob_idle) {
> 29635-        /* if chars available, call write function... */
> 29636-        (*tty->handler.write)(
> 29637-          ctx, &tty->rawOutBuf.theBuf[tty->rawOutBuf.Tail],1);
> 29638-    75f6:    f8d4 2084     ldr.w    r2, [r4, #132]    ; 0x84
> 29639-      rtems_termios_device_lock_acquire (ctx, &lock_context);
> 29640-      tty->flow_ctrl &= ~FL_OSTOP;
> 29641-      /* check for chars in output buffer (or rob_state?) */
> 29642:      if (tty->rawOutBufState != rob_idle) {
> 29643-        /* if chars available, call write function... */
> 29644-        (*tty->handler.write)(
> 29645-    75fa:    6fe1          ldr    r1, [r4, #124]    ; 0x7c
> 29646-    75fc:    f8d4 30c4     ldr.w    r3, [r4, #196]    ; 0xc4
> 29647-    7600:    4411          add    r1, r2
> 29648-    7602:    4628          mov    r0, r5
> 29649-    7604:    2201          movs    r2, #1
> 29650-    7606:    4798          blx    r3
> 29651-    7608:    e726          b.n    7458 <rtems_termios_ioctl+0x168>
> 29652-    760a:    bf00          nop
> 29653-
> 29654-0000760c <rtems_termios_puts>:
> --
> 29815-    76b2:    bf24          itt    cs
> 29816-    76b4:    f8d4 2088     ldrcs.w    r2, [r4, #136]    ; 0x88
> 29817-    76b8:    1a9b          subcs    r3, r3, r2
> 29818-    tty->rawOutBuf.Head = newHead;
> 29819-
> 29820:    if (tty->rawOutBufState == rob_idle) {
> 29821-    76ba:    f894 2094     ldrb.w    r2, [r4, #148]    ; 0x94
> 29822-    memcpy(&tty->rawOutBuf.theBuf[tty->rawOutBuf.Head], buf, nToCopy);
> 29823-
> 29824-    newHead = tty->rawOutBuf.Head + nToCopy;
> 29825-    if (newHead >= tty->rawOutBuf.Size)
> 29826-      newHead -= tty->rawOutBuf.Size;
> 29827-    tty->rawOutBuf.Head = newHead;
> 29828-    76be:    f8c4 3080     str.w    r3, [r4, #128]    ; 0x80
> 29829-
> 29830:    if (tty->rawOutBufState == rob_idle) {
> 29831-    76c2:    b192          cbz    r2, 76ea <rtems_termios_puts+0xde>
> 29832-    ARM_SWITCH_BACK
> 29833-    : ARM_SWITCH_OUTPUT
> 29834-    : [level] "r" (level)
> 29835-  );
> 29836-#elif defined(ARM_MULTILIB_ARCH_V7M)
> 29837-  __asm__ volatile (
> 29838-    76c4:    f385 8811     msr    BASEPRI, r5
> 29839-  if (tty->handler.mode == TERMIOS_POLLED) {
> 29840-    (*tty->handler.write)(ctx, buf, len);
> 29841-    return;
> 29842-  }
> --
> 29885-    76e8:    e7d2          b.n    7690 <rtems_termios_puts+0x84>
> 29886-    if (newHead >= tty->rawOutBuf.Size)
> 29887-      newHead -= tty->rawOutBuf.Size;
> 29888-    tty->rawOutBuf.Head = newHead;
> 29889-
> 29890:    if (tty->rawOutBufState == rob_idle) {
> 29891-      startXmit (tty, tty->rawOutBuf.Tail, false);
> 29892-    76ea:    f8d4 1084     ldr.w    r1, [r4, #132]    ; 0x84
> 29893-    76ee:    4620          mov    r0, r4
> 29894-    76f0:    f7ff f8ca     bl    6888 <startXmit>
> 29895-    76f4:    e7e6          b.n    76c4 <rtems_termios_puts+0xb8>
> 29896-  rtems_termios_device_context *ctx = tty->device_context;
> 29897-  rtems_interrupt_lock_context lock_context;
> 29898-  rtems_status_code sc;
> 29899-
> 29900-  if (tty->handler.mode == TERMIOS_POLLED) {
> 29901-    (*tty->handler.write)(ctx, buf, len);
> 29902-    76f6:    f8d2 30c4     ldr.w    r3, [r2, #196]    ; 0xc4
> --
> 31283-    while ((tty->rawInBuf.Head != tty->rawInBuf.Tail) &&
> 31284-    7be4:    428a          cmp    r2, r1
> 31285-    7be6:    f04f 0501     mov.w    r5, #1
> 31286-    7bea:    d968          bls.n    7cbe <rtems_termios_read+0x1a6>
> 31287-             ==                (FL_MDXON | FL_ISNTXOF))
> 31288:            && ((tty->rawOutBufState == rob_idle)
> 31289-          || (tty->flow_ctrl & FL_OSTOP))) {
> 31290-          /* XON should be sent now... */
> 31291-          (*tty->handler.write)(
> 31292-            tty->device_context, (void
> *)&(tty->termios.c_cc[VSTART]), 1);
> 31293-    7bec:    f104 0849     add.w    r8, r4, #73    ; 0x49
> 31294-    7bf0:    e012          b.n    7c18 <rtems_termios_read+0x100>
> 31295-
> 31296-      rtems_termios_device_lock_release (ctx, &lock_context);
> 31297-
> 31298-      /* continue processing new character */
> 31299-      if (tty->termios.c_lflag & ICANON) {
> 31300-        if (siproc (c, tty))
> --
> 31401-        if (((tty->flow_ctrl & (FL_MDXON | FL_ISNTXOF))
> 31402-    7c56:    f8d4 20d8     ldr.w    r2, [r4, #216]    ; 0xd8
> 31403-    7c5a:    4013          ands    r3, r2
> 31404-    7c5c:    4553          cmp    r3, sl
> 31405-    7c5e:    d01e          beq.n    7c9e <rtems_termios_read+0x186>
> 31406:            && ((tty->rawOutBufState == rob_idle)
> 31407-          || (tty->flow_ctrl & FL_OSTOP))) {
> 31408-          /* XON should be sent now... */
> 31409-          (*tty->handler.write)(
> 31410-            tty->device_context, (void
> *)&(tty->termios.c_cc[VSTART]), 1);
> 31411-        } else if (tty->flow_ctrl & FL_MDRTS) {
> 31412-    7c60:    f8d4 30d8     ldr.w    r3, [r4, #216]    ; 0xd8
> 31413-    7c64:    05da          lsls    r2, r3, #23
> 31414-    7c66:    d50b          bpl.n    7c80 <rtems_termios_read+0x168>
> 31415-          tty->flow_ctrl &= ~FL_IRTSOFF;
> 31416-    7c68:    f8d4 30d8     ldr.w    r3, [r4, #216]    ; 0xd8
> 31417-          /* activate RTS line */
> 31418-          if (tty->flow.start_remote_tx != NULL) {
> --
> 31477-         < tty->lowwater) {
> 31478-        tty->flow_ctrl &= ~FL_IREQXOF;
> 31479-        /* if tx stopped and XON should be sent... */
> 31480-        if (((tty->flow_ctrl & (FL_MDXON | FL_ISNTXOF))
> 31481-             ==                (FL_MDXON | FL_ISNTXOF))
> 31482:            && ((tty->rawOutBufState == rob_idle)
> 31483-    7c9e:    f894 3094     ldrb.w    r3, [r4, #148]    ; 0x94
> 31484-    7ca2:    b11b          cbz    r3, 7cac <rtems_termios_read+0x194>
> 31485-          || (tty->flow_ctrl & FL_OSTOP))) {
> 31486-    7ca4:    f8d4 30d8     ldr.w    r3, [r4, #216]    ; 0xd8
> 31487-    7ca8:    0699          lsls    r1, r3, #26
> 31488-    7caa:    d5d9          bpl.n    7c60 <rtems_termios_read+0x148>
> 31489-          /* XON should be sent now... */
> 31490-          (*tty->handler.write)(
> 31491-    7cac:    f8d4 30c4     ldr.w    r3, [r4, #196]    ; 0xc4
> 31492-    7cb0:    f8d4 010c     ldr.w    r0, [r4, #268]    ; 0x10c
> 31493-    7cb4:    4641          mov    r1, r8
> 31494-    7cb6:    2201          movs    r2, #1
> --
> 32101-        /* disable interrupts    */
> 32102-        rtems_termios_device_lock_acquire (ctx, &lock_context);
> 32103-        tty->flow_ctrl &= ~FL_OSTOP;
> 32104-    7f34:    f8d4 30d8     ldr.w    r3, [r4, #216]    ; 0xd8
> 32105-        /* check for chars in output buffer (or rob_state?) */
> 32106:        if (tty->rawOutBufState != rob_idle) {
> 32107-    7f38:    f894 2094     ldrb.w    r2, [r4, #148]    ; 0x94
> 32108-    if (flow_rcv) {
> 32109-      /* restart output according to FL_ORCVXOF flag */
> 32110-      if ((tty->flow_ctrl & (FL_ORCVXOF | FL_OSTOP)) == FL_OSTOP) {
> 32111-        /* disable interrupts    */
> 32112-        rtems_termios_device_lock_acquire (ctx, &lock_context);
> 32113-        tty->flow_ctrl &= ~FL_OSTOP;
> 32114-    7f3c:    f023 0320     bic.w    r3, r3, #32
> 32115-    7f40:    f8c4 30d8     str.w    r3, [r4, #216]    ; 0xd8
> 32116-        /* check for chars in output buffer (or rob_state?) */
> 32117:        if (tty->rawOutBufState != rob_idle) {
> 32118-    7f44:    b94a          cbnz    r2, 7f5a
> <rtems_termios_enqueue_raw_characters+0x1ca>
> 32119-    ARM_SWITCH_BACK
> 32120-    : ARM_SWITCH_OUTPUT
> 32121-    : [level] "r" (level)
> 32122-  );
> 32123-#elif defined(ARM_MULTILIB_ARCH_V7M)
> 32124-  __asm__ volatile (
> 32125-    7f46:    f386 8811     msr    BASEPRI, r6
> 32126-    7f4a:    2601          movs    r6, #1
> 32127-    7f4c:    e760          b.n    7e10
> <rtems_termios_enqueue_raw_characters+0x80>
> 32128-        if (( !tty->tty_rcvwakeup ) && ( tty->tty_rcv.sw_pfn !=
> NULL )) {
> 32129-          (*tty->tty_rcv.sw_pfn)(&tty->termios, tty->tty_rcv.sw_arg);
> --
> 32136-    7f52:    9300          str    r3, [sp, #0]
> 32137-    7f54:    f38a 8811     msr    BASEPRI, sl
> 32138-    7f58:    e75a          b.n    7e10
> <rtems_termios_enqueue_raw_characters+0x80>
> 32139-        tty->flow_ctrl &= ~FL_OSTOP;
> 32140-        /* check for chars in output buffer (or rob_state?) */
> 32141:        if (tty->rawOutBufState != rob_idle) {
> 32142-          /* if chars available, call write function... */
> 32143-          (*tty->handler.write)(
> 32144-            ctx, &tty->rawOutBuf.theBuf[tty->rawOutBuf.Tail], 1);
> 32145-    7f5a:    f8d4 2084     ldr.w    r2, [r4, #132]    ; 0x84
> 32146-        rtems_termios_device_lock_acquire (ctx, &lock_context);
> 32147-        tty->flow_ctrl &= ~FL_OSTOP;
> 32148-        /* check for chars in output buffer (or rob_state?) */
> 32149:        if (tty->rawOutBufState != rob_idle) {
> 32150-          /* if chars available, call write function... */
> 32151-          (*tty->handler.write)(
> 32152-    7f5e:    6fe1          ldr    r1, [r4, #124]    ; 0x7c
> 32153-    7f60:    f8d4 30c4     ldr.w    r3, [r4, #196]    ; 0xc4
> 32154-    7f64:    4411          add    r1, r2
> 32155-    7f66:    4658          mov    r0, fp
> 32156-    7f68:    2201          movs    r2, #1
> 32157-    7f6a:    f8cd c004     str.w    ip, [sp, #4]
> 32158-    7f6e:    4798          blx    r3
> 32159-    7f70:    f8dd c004     ldr.w    ip, [sp, #4]
> 32160-    7f74:    e7e7          b.n    7f46
> <rtems_termios_enqueue_raw_characters+0x1b6>
> 32161-          + tty->rawInBuf.Size) % tty->rawInBuf.Size) >
> tty->highwater)) {
> --
> 32167-    7f76:    0692          lsls    r2, r2, #26
> 32168-    7f78:    d403          bmi.n    7f82
> <rtems_termios_enqueue_raw_characters+0x1f2>
> 32169-    7f7a:    f894 2094     ldrb.w    r2, [r4, #148]    ; 0x94
> 32170-    7f7e:    2a00          cmp    r2, #0
> 32171-    7f80:    d18c          bne.n    7e9c
> <rtems_termios_enqueue_raw_characters+0x10c>
> 32172:              (tty->rawOutBufState == rob_idle)) {
> 32173-            /* if tx is stopped due to XOFF or out of data */
> 32174-            /*    call write function here                 */
> 32175-            tty->flow_ctrl |= FL_ISNTXOF;
> 32176-    7f82:    f8d4 20d8     ldr.w    r2, [r4, #216]    ; 0xd8
> 32177-    7f86:    9301          str    r3, [sp, #4]
> 32178-    7f88:    f042 0202     orr.w    r2, r2, #2
> 32179-    7f8c:    f8c4 20d8     str.w    r2, [r4, #216]    ; 0xd8
> 32180-            (*tty->handler.write)(ctx,
> 32181-    7f90:    f8d4 30c4     ldr.w    r3, [r4, #196]    ; 0xc4
> 32182-    7f94:    4658          mov    r0, fp
> 32183-    7f96:    f104 014a     add.w    r1, r4, #74    ; 0x4a
> 32184-    7f9a:    2201          movs    r2, #1
> --
> 38521-    9512:    f000 f825     bl    9560
> <_Extension_Manager_initialization>
> 38522-
> 38523-  _POSIX_API_Initialize();
> 38524-    9516:    f000 f863     bl    95e0 <_POSIX_API_Initialize>
> 38525-    951a:    7025          strb    r5, [r4, #0]
> 38526:  _Thread_Create_idle();
> 38527-
> 38528-  /*
> 38529-   *  Scheduling can properly occur now as long as we avoid
> dispatching.
> 38530-   */
> 38531-}
> 38532-    951c:    e8bd 4038     ldmia.w    sp!, {r3, r4, r5, lr}
> 38533-   *  _Thread_Executing and _Thread_Heir are not set.
> 38534-   *
> 38535-   *  At this point all API extensions are in place.  After the
> call to
> 38536:   *  _Thread_Create_idle() _Thread_Executing and _Thread_Heir
> will be set.
> 38537-   */
> 38538:  _Thread_Create_idle();
> 38539:    9520:    f002 ba3a     b.w    b998 <_Thread_Create_idle>
> 38540-    9524:    20004618     .word    0x20004618
> 38541-    9528:    20004640     .word    0x20004640
> 38542-    952c:    200041d0     .word    0x200041d0
> 38543-    9530:    200041e0     .word    0x200041e0
> 38544-    9534:    2000429c     .word    0x2000429c
> 38545-    9538:    20004298     .word    0x20004298
> 38546-
> 38547-0000953c <rtems_initialize_before_drivers>:
> 38548-   *  Scheduling can properly occur now as long as we avoid
> dispatching.
> 38549-   */
> 38550-}
> 38551-
> --
> 48137-)
> 48138-{
> 48139-    b3c4:    4770          bx    lr
> 48140-    b3c6:    bf00          nop
> 48141-
> 48142:0000b3c8 <_Scheduler_default_Start_idle>:
> 48143-#if defined(RTEMS_SMP)
> 48144-  Thread_Control *needs_help;
> 48145-
> 48146-  needs_help =
> 48147-#endif
> 48148-  ( *scheduler->Operations.unblock )( scheduler, the_thread );
> 48149:    b3c8:    4801          ldr    r0, [pc, #4]    ; (b3d0
> <_Scheduler_default_Start_idle+0x8>)
> 48150-    b3ca:    6943          ldr    r3, [r0, #20]
> 48151-    b3cc:    4718          bx    r3
> 48152-    b3ce:    bf00          nop
> 48153-    b3d0:    0001847c     .word    0x0001847c
> 48154-
> 48155-0000b3d4 <_Scheduler_default_Tick>:
> 48156-  /*
> 48157-   *  If the thread is not preemptible or is not ready, then
> 48158-   *  just return.
> 48159-   */
> 48160-
> 48161-  if ( !executing->is_preemptible )
> --
> 49735-    b988:    0001847c     .word    0x0001847c
> 49736-    b98c:    0001d828     .word    0x0001d828
> 49737-    b990:    0001d814     .word    0x0001d814
> 49738-    b994:    0001d878     .word    0x0001d878
> 49739-
> 49740:0000b998 <_Thread_Create_idle>:
> 49741-    cpu
> 49742-  );
> 49743-}
> 49744-
> 49745:void _Thread_Create_idle( void )
> 49746-{
> 49747-    b998:    b5f0          push    {r4, r5, r6, r7, lr}
> 49748-  return maximum_internal_threads;
> 49749-}
> 49750-
> 49751-RTEMS_INLINE_ROUTINE Thread_Control *_Thread_Internal_allocate( void )
> 49752-{
> 49753-  return (Thread_Control *)
> 49754:    b99a:    4f17          ldr    r7, [pc, #92]    ; (b9f8
> <_Thread_Create_idle+0x60>)
> 49755-    b99c:    b089          sub    sp, #36    ; 0x24
> 49756-    b99e:    4638          mov    r0, r7
> 49757-    b9a0:    f7fe ff74     bl    a88c <_Objects_Allocate_unprotected>
> 49758-  _Thread_Initialize(
> 49759-    &_Thread_Internal_information,
> 49760:    idle,
> 49761-    _Scheduler_Get_by_CPU( cpu ),
> 49762-    NULL,        /* allocate the stack */
> 49763:    _Stack_Ensure_minimum(
> rtems_configuration_get_idle_task_stack_size() ),
> 49764:    b9a4:    4e15          ldr    r6, [pc, #84]    ; (b9fc
> <_Thread_Create_idle+0x64>)
> 49765- *
> 49766- * @return This method returns the minimum stack size;
> 49767- */
> 49768-RTEMS_INLINE_ROUTINE uint32_t _Stack_Minimum (void)
> 49769-{
> 49770-  return rtems_minimum_stack_size;
> 49771:    b9a6:    4a16          ldr    r2, [pc, #88]    ; (ba00
> <_Thread_Create_idle+0x68>)
> 49772-    b9a8:    6a73          ldr    r3, [r6, #36]    ; 0x24
> 49773-    b9aa:    6811          ldr    r1, [r2, #0]
> 49774-    b9ac:    4605          mov    r5, r0
> 49775-    b9ae:    428b          cmp    r3, r1
> 49776-    b9b0:    bf38          it    cc
> 49777-    b9b2:    460b          movcc    r3, r1
> 49778-   *  fields not explicitly assigned were explicitly zeroed by
> 49779-   *  _Workspace_Initialization.
> 49780-   */
> 49781:  idle = _Thread_Internal_allocate();
> 49782-
> 49783-  _Thread_Initialize(
> 49784:    b9b4:    4a13          ldr    r2, [pc, #76]    ; (ba04
> <_Thread_Create_idle+0x6c>)
> 49785:static void _Thread_Create_idle_for_cpu( Per_CPU_Control *cpu )
> 49786-{
> 49787-  Objects_Name    name;
> 49788:  Thread_Control *idle;
> 49789-
> 49790-  name.name_u32 = _Objects_Build_name( 'I', 'D', 'L', 'E' );
> 49791:    b9b6:    f8df e058     ldr.w    lr, [pc, #88]    ; ba10
> <_Thread_Create_idle+0x78>
> 49792-   *  fields not explicitly assigned were explicitly zeroed by
> 49793-   *  _Workspace_Initialization.
> 49794-   */
> 49795:  idle = _Thread_Internal_allocate();
> 49796-
> 49797-  _Thread_Initialize(
> 49798-    b9ba:    7811          ldrb    r1, [r2, #0]
> 49799-    b9bc:    2400          movs    r4, #0
> 49800-    b9be:    2201          movs    r2, #1
> 49801-    b9c0:    9300          str    r3, [sp, #0]
> 49802-    b9c2:    9102          str    r1, [sp, #8]
> 49803-    b9c4:    f8cd e01c     str.w    lr, [sp, #28]
> 49804-    b9c8:    4629          mov    r1, r5
> 49805-    b9ca:    4623          mov    r3, r4
> 49806-    b9cc:    9203          str    r2, [sp, #12]
> 49807-    b9ce:    4638          mov    r0, r7
> 49808-    b9d0:    9401          str    r4, [sp, #4]
> 49809-    b9d2:    9404          str    r4, [sp, #16]
> 49810-    b9d4:    9405          str    r4, [sp, #20]
> 49811-    b9d6:    9406          str    r4, [sp, #24]
> 49812:    b9d8:    4a0b          ldr    r2, [pc, #44]    ; (ba08
> <_Thread_Create_idle+0x70>)
> 49813-    b9da:    f000 f96d     bl    bcb8 <_Thread_Initialize>
> 49814-   *             MUST be done before _Thread_Start is invoked.
> 49815-   */
> 49816-  cpu->heir      =
> 49817:  cpu->executing = idle;
> 49818-
> 49819-  _Thread_Start(
> 49820-    b9de:    6a32          ldr    r2, [r6, #32]
> 49821-  /*
> 49822-   *  WARNING!!! This is necessary to "kick" start the system and
> 49823-   *             MUST be done before _Thread_Start is invoked.
> 49824-   */
> 49825-  cpu->heir      =
> 49826:  cpu->executing = idle;
> 49827:    b9e0:    4e0a          ldr    r6, [pc, #40]    ; (ba0c
> <_Thread_Create_idle+0x74>)
> 49828-
> 49829-  _Thread_Start(
> 49830-    b9e2:    9400          str    r4, [sp, #0]
> 49831-    b9e4:    9601          str    r6, [sp, #4]
> 49832-    b9e6:    4628          mov    r0, r5
> 49833-    b9e8:    4621          mov    r1, r4
> 49834-    b9ea:    4623          mov    r3, r4
> 49835-  /*
> 49836-   *  WARNING!!! This is necessary to "kick" start the system and
> 49837-   *             MUST be done before _Thread_Start is invoked.
> 49838-   */
> 49839-  cpu->heir      =
> 49840:  cpu->executing = idle;
> 49841-    b9ec:    60b5          str    r5, [r6, #8]
> 49842-
> 49843-  /*
> 49844-   *  WARNING!!! This is necessary to "kick" start the system and
> 49845-   *             MUST be done before _Thread_Start is invoked.
> 49846-   */
> 49847-  cpu->heir      =
> 49848-    b9ee:    60f5          str    r5, [r6, #12]
> 49849:  cpu->executing = idle;
> 49850-
> 49851-  _Thread_Start(
> 49852-    b9f0:    f000 fee0     bl    c7b4 <_Thread_Start>
> 49853-
> 49854-    if ( _Per_CPU_Is_processor_started( cpu ) ) {
> 49855:      _Thread_Create_idle_for_cpu( cpu );
> 49856-    }
> 49857-  }
> 49858-}
> 49859-    b9f4:    b009          add    sp, #36    ; 0x24
> 49860-    b9f6:    bdf0          pop    {r4, r5, r6, r7, pc}
> 49861-    b9f8:    200042c0     .word    0x200042c0
> 49862-    b9fc:    000183c0     .word    0x000183c0
> 49863-    ba00:    200011c0     .word    0x200011c0
> 49864-    ba04:    200011bc     .word    0x200011bc
> 49865-    ba08:    0001847c     .word    0x0001847c
> 49866-    ba0c:    20004640     .word    0x20004640
> 49867-    ba10:    49444c45     .word    0x49444c45
> --
> 54093-  const Scheduler_Control *scheduler,
> 54094-  Thread_Control          *the_thread,
> 54095-  Per_CPU_Control         *cpu
> 54096-)
> 54097-{
> 54098:  ( *scheduler->Operations.start_idle )( scheduler, the_thread, cpu );
> 54099-    c7de:    4809          ldr    r0, [pc, #36]    ; (c804
> <_Thread_Start+0x50>)
> 54100-      _Thread_Ready( the_thread );
> 54101-    } else {
> 54102-      const Scheduler_Control *scheduler = _Scheduler_Get_by_CPU(
> cpu );
> 54103-
> 54104-      if ( scheduler != NULL ) {
> 54105-        the_thread->current_state = STATES_READY;
> 54106-    c7e0:    2200          movs    r2, #0
> 54107-    c7e2:    612a          str    r2, [r5, #16]
> 54108-    c7e4:    6b43          ldr    r3, [r0, #52]    ; 0x34
> 54109-    c7e6:    4629          mov    r1, r5
> 54110-    c7e8:    9a05          ldr    r2, [sp, #20]
> 
> On Wed, Apr 24, 2019 at 2:59 PM Christian Mauderer
> <christian.maude...@embedded-brains.de
> <mailto:christian.maude...@embedded-brains.de>> wrote:
> 
>     Am 24.04.19 um 02:35 schrieb Jython:
>     > yes, I need to do low power for stm32f4
>     > will this line work __asm__ volatile ("wfi");?
> 
>     That line should be correct. Please note that the instruction is already
>     used in the armv7 idle thread:
> 
>     
> https://git.rtems.org/rtems/tree/cpukit/score/cpu/arm/armv7-thread-idle.c#n32
> 
>     The stm32f4 is a Cortex-M4 so it's quite likely that this routine is
>     used. You can check by doing an "arm-rtems5-objdump -dS" on your file
>     and search for the idle body.
> 
>     With kind regards
> 
>     Christian
> 
>     >
>     >
>     > On Tue, Apr 23, 2019 at 10:28 PM Christian Mauderer
>     > <christian.maude...@embedded-brains.de
>     <mailto:christian.maude...@embedded-brains.de>
>     > <mailto:christian.maude...@embedded-brains.de
>     <mailto:christian.maude...@embedded-brains.de>>> wrote:
>     >
>     >     Am 22.04.19 um 09:47 schrieb Jython:
>     >     > HI, ALL!
>     >     > wfi
>     >   
>      http://www.keil.com/support/man/docs/armcc/armcc_chr1359125004400.htm
>     >     > how can i call the arm __wfi?
>     >     >
>     >     > _______________________________________________
>     >     > users mailing list
>     >     > users@rtems.org <mailto:users@rtems.org>
>     <mailto:users@rtems.org <mailto:users@rtems.org>>
>     >     > http://lists.rtems.org/mailman/listinfo/users
>     >     >
>     >
>     >     Hello Jython,
>     >
>     >     WFI is an assembler instruction. The Keil wrapper isn't
>     available in
>     >     gcc. I know of no direct replacement. Most likely you need a
>     gcc inline
>     >     assembly for that.
>     >
>     >     May I ask why you would need "wfi"? If you use a operating
>     system, the
>     >     system typically handles such low level stuff for you. The only
>     >     application that springs to mind for that instruction is
>     overwriting the
>     >     idle loop to save energy.
>     >
>     >     Best regards
>     >
>     >     Christian
>     >
>     >     --
>     >     --------------------------------------------
>     >     embedded brains GmbH
>     >     Herr Christian Mauderer
>     >     Dornierstr. 4
>     >     D-82178 Puchheim
>     >     Germany
>     >     email: christian.maude...@embedded-brains.de
>     <mailto:christian.maude...@embedded-brains.de>
>     >     <mailto:christian.maude...@embedded-brains.de
>     <mailto:christian.maude...@embedded-brains.de>>
>     >     Phone: +49-89-18 94 741 - 18
>     >     Fax:   +49-89-18 94 741 - 08
>     >     PGP: Public key available on request.
>     >
>     >     Diese Nachricht ist keine geschäftliche Mitteilung im Sinne
>     des EHUG.
>     >
> 
>     -- 
>     --------------------------------------------
>     embedded brains GmbH
>     Herr Christian Mauderer
>     Dornierstr. 4
>     D-82178 Puchheim
>     Germany
>     email: christian.maude...@embedded-brains.de
>     <mailto:christian.maude...@embedded-brains.de>
>     Phone: +49-89-18 94 741 - 18
>     Fax:   +49-89-18 94 741 - 08
>     PGP: Public key available on request.
> 
>     Diese Nachricht ist keine geschäftliche Mitteilung im Sinne des EHUG.
> 

-- 
--------------------------------------------
embedded brains GmbH
Herr Christian Mauderer
Dornierstr. 4
D-82178 Puchheim
Germany
email: christian.maude...@embedded-brains.de
Phone: +49-89-18 94 741 - 18
Fax:   +49-89-18 94 741 - 08
PGP: Public key available on request.

Diese Nachricht ist keine geschäftliche Mitteilung im Sinne des EHUG.
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