diff --git a/src/class/cdc/cdc_host.c b/src/class/cdc/cdc_host.c index 7f9ed18b3a..40ebd331d5 100644 --- a/src/class/cdc/cdc_host.c +++ b/src/class/cdc/cdc_host.c @@ -976,7 +976,7 @@ static uint32_t ftdi_232bm_baud_to_divisor(uint32_t baud) static bool ftdi_sio_set_baudrate(cdch_interface_t* p_cdc, uint32_t baudrate, tuh_xfer_cb_t complete_cb, uintptr_t user_data) { uint16_t const divisor = (uint16_t) ftdi_232bm_baud_to_divisor(baudrate); - TU_LOG_DRV("CDC FTDI Set BaudRate = %lu, divisor = 0x%04x\n", baudrate, divisor); + TU_LOG_DRV("CDC FTDI Set BaudRate = %lu, divisor = 0x%04x\r\n", baudrate, divisor); p_cdc->user_control_cb = complete_cb; _ftdi_requested_baud = baudrate; @@ -1111,7 +1111,7 @@ static bool cp210x_ifc_enable(cdch_interface_t* p_cdc, uint16_t enabled, tuh_xfe } static bool cp210x_set_baudrate(cdch_interface_t* p_cdc, uint32_t baudrate, tuh_xfer_cb_t complete_cb, uintptr_t user_data) { - TU_LOG_DRV("CDC CP210x Set BaudRate = %lu\n", baudrate); + TU_LOG_DRV("CDC CP210x Set BaudRate = %lu\r\n", baudrate); uint32_t baud_le = tu_htole32(baudrate); p_cdc->user_control_cb = complete_cb; return cp210x_set_request(p_cdc, CP210X_SET_BAUDRATE, 0, (uint8_t *) &baud_le, 4, diff --git a/src/class/video/video_device.c b/src/class/video/video_device.c index abc43ccff9..3b29454a38 100644 --- a/src/class/video/video_device.c +++ b/src/class/video/video_device.c @@ -616,17 +616,17 @@ static bool _close_vc_itf(uint8_t rhport, videod_interface_t *self) * @param[in] altnum The target alternate setting number. */ static bool _open_vc_itf(uint8_t rhport, videod_interface_t *self, uint_fast8_t altnum) { - TU_LOG_DRV(" open VC %d\n", altnum); + TU_LOG_DRV(" open VC %d\r\n", altnum); uint8_t const *beg = self->beg; uint8_t const *end = beg + self->len; /* The first descriptor is a video control interface descriptor. */ uint8_t const *cur = _find_desc_itf(beg, end, _desc_itfnum(beg), altnum); - TU_LOG_DRV(" cur %d\n", cur - beg); + TU_LOG_DRV(" cur %d\r\n", cur - beg); TU_VERIFY(cur < end); tusb_desc_vc_itf_t const *vc = (tusb_desc_vc_itf_t const *)cur; - TU_LOG_DRV(" bInCollection %d\n", vc->ctl.bInCollection); + TU_LOG_DRV(" bInCollection %d\r\n", vc->ctl.bInCollection); /* Support for up to 2 streaming interfaces only. */ TU_ASSERT(vc->ctl.bInCollection <= CFG_TUD_VIDEO_STREAMING); @@ -635,7 +635,7 @@ static bool _open_vc_itf(uint8_t rhport, videod_interface_t *self, uint_fast8_t /* Advance to the next descriptor after the class-specific VC interface header descriptor. */ cur += vc->std.bLength + vc->ctl.bLength; - TU_LOG_DRV(" bNumEndpoints %d\n", vc->std.bNumEndpoints); + TU_LOG_DRV(" bNumEndpoints %d\r\n", vc->std.bNumEndpoints); /* Open the notification endpoint if it exist. */ if (vc->std.bNumEndpoints) { /* Support for 1 endpoint only. */ @@ -669,7 +669,7 @@ static bool _init_vs_configuration(videod_streaming_interface_t *stm) static bool _open_vs_itf(uint8_t rhport, videod_streaming_interface_t *stm, uint_fast8_t altnum) { uint_fast8_t i; - TU_LOG_DRV(" reopen VS %d\n", altnum); + TU_LOG_DRV(" reopen VS %d\r\n", altnum); uint8_t const *desc = _videod_itf[stm->index_vc].beg; /* Close endpoints of previous settings. */ @@ -679,7 +679,7 @@ static bool _open_vs_itf(uint8_t rhport, videod_streaming_interface_t *stm, uint uint8_t ep_adr = _desc_ep_addr(desc + ofs_ep); usbd_edpt_close(rhport, ep_adr); stm->desc.ep[i] = 0; - TU_LOG_DRV(" close EP%02x\n", ep_adr); + TU_LOG_DRV(" close EP%02x\r\n", ep_adr); } /* clear transfer management information */ @@ -716,12 +716,12 @@ static bool _open_vs_itf(uint8_t rhport, videod_streaming_interface_t *stm, uint } TU_ASSERT(usbd_edpt_open(rhport, ep)); stm->desc.ep[i] = (uint16_t) (cur - desc); - TU_LOG_DRV(" open EP%02x\n", _desc_ep_addr(cur)); + TU_LOG_DRV(" open EP%02x\r\n", _desc_ep_addr(cur)); } if (altnum) { stm->state = VS_STATE_STREAMING; } - TU_LOG_DRV(" done\n"); + TU_LOG_DRV(" done\r\n"); return true; } diff --git a/src/common/tusb_fifo.c b/src/common/tusb_fifo.c index a52c92267d..d6c3db4ce5 100644 --- a/src/common/tusb_fifo.c +++ b/src/common/tusb_fifo.c @@ -539,7 +539,7 @@ static uint16_t _tu_fifo_write_n(tu_fifo_t* f, const void * data, uint16_t n, tu // Advance index f->wr_idx = advance_index(f->depth, wr_idx, n); - TU_LOG(TU_FIFO_DBG, "\tnew_wr = %u\n", f->wr_idx); + TU_LOG(TU_FIFO_DBG, "\tnew_wr = %u\r\n", f->wr_idx); } _ff_unlock(f->mutex_wr); diff --git a/src/portable/dialog/da146xx/dcd_da146xx.c b/src/portable/dialog/da146xx/dcd_da146xx.c index 961da81d6d..d1e85c2df1 100644 --- a/src/portable/dialog/da146xx/dcd_da146xx.c +++ b/src/portable/dialog/da146xx/dcd_da146xx.c @@ -651,7 +651,7 @@ static void handle_epx_tx_ev(xfer_ctl_t *xfer) } if (txs & USB_USB_TXS1_REG_USB_TX_URUN_Msk) { - TU_LOG1("EP %d FIFO underrun\n", epnum); + TU_LOG1("EP %d FIFO underrun\r\n", epnum); } // Start next or repeated packet. start_tx_packet(xfer); diff --git a/src/portable/mentor/musb/dcd_musb.c b/src/portable/mentor/musb/dcd_musb.c index 4877618471..3c0114e415 100644 --- a/src/portable/mentor/musb/dcd_musb.c +++ b/src/portable/mentor/musb/dcd_musb.c @@ -317,7 +317,7 @@ static bool handle_xfer_in(uint_fast8_t ep_addr) const unsigned mps = regs->TXMAXP; const unsigned len = TU_MIN(mps, rem); void *buf = pipe->buf; - // TU_LOG1(" %p mps %d len %d rem %d\n", buf, mps, len, rem); + // TU_LOG1(" %p mps %d len %d rem %d\r\n", buf, mps, len, rem); if (len) { if (_dcd.pipe_buf_is_fifo[TUSB_DIR_IN] & TU_BIT(epnum_minus1)) { pipe_read_write_packet_ff(buf, &USB0->FIFO1_WORD + epnum_minus1, len, TUSB_DIR_IN); @@ -328,7 +328,7 @@ static bool handle_xfer_in(uint_fast8_t ep_addr) pipe->remaining = rem - len; } regs->TXCSRL = USB_TXCSRL1_TXRDY; - // TU_LOG1(" TXCSRL%d = %x %d\n", epnum_minus1 + 1, regs->TXCSRL, rem - len); + // TU_LOG1(" TXCSRL%d = %x %d\r\n", epnum_minus1 + 1, regs->TXCSRL, rem - len); return false; } @@ -337,7 +337,7 @@ static bool handle_xfer_out(uint_fast8_t ep_addr) unsigned epnum_minus1 = tu_edpt_number(ep_addr) - 1; pipe_state_t *pipe = &_dcd.pipe[tu_edpt_dir(ep_addr)][epnum_minus1]; volatile hw_endpoint_t *regs = edpt_regs(epnum_minus1); - // TU_LOG1(" RXCSRL%d = %x\n", epnum_minus1 + 1, regs->RXCSRL); + // TU_LOG1(" RXCSRL%d = %x\r\n", epnum_minus1 + 1, regs->RXCSRL); TU_ASSERT(regs->RXCSRL & USB_RXCSRL1_RXRDY); @@ -399,14 +399,14 @@ static bool edpt0_xfer(uint8_t rhport, uint8_t ep_addr, uint8_t *buffer, uint16_ * may have already finished and received the next setup packet * without calling this function, so we have no choice but to * invoke the callback function of status packet here. */ - // TU_LOG1(" STATUS OUT USB0->CSRL0 = %x\n", USB0->CSRL0); + // TU_LOG1(" STATUS OUT USB0->CSRL0 = %x\r\n", USB0->CSRL0); _dcd.status_out = 0; if (req == REQUEST_TYPE_INVALID) { dcd_event_xfer_complete(rhport, ep_addr, total_bytes, XFER_RESULT_SUCCESS, false); } else { /* The next setup packet has already been received, it aborts * invoking callback function to avoid confusing TUSB stack. */ - TU_LOG1("Drop CONTROL_STAGE_ACK\n"); + TU_LOG1("Drop CONTROL_STAGE_ACK\r\n"); } return true; } @@ -431,16 +431,16 @@ static bool edpt0_xfer(uint8_t rhport, uint8_t ep_addr, uint8_t *buffer, uint16_ } else { USB0->CSRL0 = USB_CSRL0_TXRDY; /* Flush TX FIFO to return ACK. */ } - // TU_LOG1(" IN USB0->CSRL0 = %x\n", USB0->CSRL0); + // TU_LOG1(" IN USB0->CSRL0 = %x\r\n", USB0->CSRL0); } else { - // TU_LOG1(" OUT USB0->CSRL0 = %x\n", USB0->CSRL0); + // TU_LOG1(" OUT USB0->CSRL0 = %x\r\n", USB0->CSRL0); _dcd.pipe0.buf = buffer; _dcd.pipe0.length = len; _dcd.pipe0.remaining = len; USB0->CSRL0 = USB_CSRL0_RXRDYC; /* Clear RX FIFO to return ACK. */ } } else if (dir_in) { - // TU_LOG1(" STATUS IN USB0->CSRL0 = %x\n", USB0->CSRL0); + // TU_LOG1(" STATUS IN USB0->CSRL0 = %x\r\n", USB0->CSRL0); _dcd.pipe0.buf = NULL; _dcd.pipe0.length = 0; _dcd.pipe0.remaining = 0; @@ -454,7 +454,7 @@ static void process_ep0(uint8_t rhport) { uint_fast8_t csrl = USB0->CSRL0; - // TU_LOG1(" EP0 USB0->CSRL0 = %x\n", csrl); + // TU_LOG1(" EP0 USB0->CSRL0 = %x\r\n", csrl); if (csrl & USB_CSRL0_STALLED) { /* Returned STALL packet to HOST. */ @@ -464,7 +464,7 @@ static void process_ep0(uint8_t rhport) unsigned req = _dcd.setup_packet.bmRequestType; if (csrl & USB_CSRL0_SETEND) { - TU_LOG1(" ABORT by the next packets\n"); + TU_LOG1(" ABORT by the next packets\r\n"); USB0->CSRL0 = USB_CSRL0_SETENDC; if (req != REQUEST_TYPE_INVALID && _dcd.pipe0.buf) { /* DATA stage was aborted by receiving STATUS or SETUP packet. */ @@ -539,14 +539,14 @@ static void process_edpt_n(uint8_t rhport, uint_fast8_t ep_addr) volatile hw_endpoint_t *regs = edpt_regs(epn_minus1); if (dir_in) { - // TU_LOG1(" TXCSRL%d = %x\n", epn_minus1 + 1, regs->TXCSRL); + // TU_LOG1(" TXCSRL%d = %x\r\n", epn_minus1 + 1, regs->TXCSRL); if (regs->TXCSRL & USB_TXCSRL1_STALLED) { regs->TXCSRL &= ~(USB_TXCSRL1_STALLED | USB_TXCSRL1_UNDRN); return; } completed = handle_xfer_in(ep_addr); } else { - // TU_LOG1(" RXCSRL%d = %x\n", epn_minus1 + 1, regs->RXCSRL); + // TU_LOG1(" RXCSRL%d = %x\r\n", epn_minus1 + 1, regs->RXCSRL); if (regs->RXCSRL & USB_RXCSRL1_STALLED) { regs->RXCSRL &= ~(USB_RXCSRL1_STALLED | USB_RXCSRL1_OVER); return; @@ -789,7 +789,7 @@ bool dcd_edpt_xfer(uint8_t rhport, uint8_t ep_addr, uint8_t * buffer, uint16_t t { (void)rhport; bool ret; - // TU_LOG1("X %x %d\n", ep_addr, total_bytes); + // TU_LOG1("X %x %d\r\n", ep_addr, total_bytes); unsigned const epnum = tu_edpt_number(ep_addr); unsigned const ie = NVIC_GetEnableIRQ(USB0_IRQn); NVIC_DisableIRQ(USB0_IRQn); @@ -807,7 +807,7 @@ bool dcd_edpt_xfer_fifo(uint8_t rhport, uint8_t ep_addr, tu_fifo_t * ff, uint16_ { (void)rhport; bool ret; - // TU_LOG1("X %x %d\n", ep_addr, total_bytes); + // TU_LOG1("X %x %d\r\n", ep_addr, total_bytes); unsigned const epnum = tu_edpt_number(ep_addr); TU_ASSERT(epnum); unsigned const ie = NVIC_GetEnableIRQ(USB0_IRQn); @@ -869,7 +869,7 @@ void dcd_int_handler(uint8_t rhport) is = USB0->IS; /* read and clear interrupt status */ txis = USB0->TXIS; /* read and clear interrupt status */ rxis = USB0->RXIS; /* read and clear interrupt status */ - // TU_LOG1("D%2x T%2x R%2x\n", is, txis, rxis); + // TU_LOG1("D%2x T%2x R%2x\r\n", is, txis, rxis); is &= USB0->IE; /* Clear disabled interrupts */ if (is & USB_IS_DISCON) { diff --git a/src/portable/mentor/musb/hcd_musb.c b/src/portable/mentor/musb/hcd_musb.c index 5d1fba6d9e..02090df857 100644 --- a/src/portable/mentor/musb/hcd_musb.c +++ b/src/portable/mentor/musb/hcd_musb.c @@ -418,7 +418,7 @@ static void process_ep0(uint8_t rhport) (void)rhport; uint_fast8_t csrl = USB0->CSRL0; - // TU_LOG1(" EP0 CSRL = %x\n", csrl); + // TU_LOG1(" EP0 CSRL = %x\r\n", csrl); unsigned const dev_addr = USB0->TXFUNCADDR0; unsigned const req = _hcd.bmRequestType; @@ -508,7 +508,7 @@ static void process_pipe_tx(uint8_t rhport, uint_fast8_t pipenum) volatile hw_endpoint_t *regs = edpt_regs(pipenum - 1); unsigned const csrl = regs->TXCSRL; - // TU_LOG1(" TXCSRL%d = %x\n", pipenum, csrl); + // TU_LOG1(" TXCSRL%d = %x\r\n", pipenum, csrl); if (csrl & (USB_TXCSRL1_STALLED | USB_TXCSRL1_ERROR)) { if (csrl & USB_TXCSRL1_TXRDY) regs->TXCSRL = (csrl & ~(USB_TXCSRL1_STALLED | USB_TXCSRL1_ERROR)) | USB_TXCSRL1_FLUSH; @@ -537,7 +537,7 @@ static void process_pipe_rx(uint8_t rhport, uint_fast8_t pipenum) volatile hw_endpoint_t *regs = edpt_regs(pipenum - 1); unsigned const csrl = regs->RXCSRL; - // TU_LOG1(" RXCSRL%d = %x\n", pipenum, csrl); + // TU_LOG1(" RXCSRL%d = %x\r\n", pipenum, csrl); if (csrl & (USB_RXCSRL1_STALLED | USB_RXCSRL1_ERROR)) { if (csrl & USB_RXCSRL1_RXRDY) regs->RXCSRL = (csrl & ~(USB_RXCSRL1_STALLED | USB_RXCSRL1_ERROR)) | USB_RXCSRL1_FLUSH; @@ -854,7 +854,7 @@ void hcd_int_handler(uint8_t rhport) is = USB0->IS; /* read and clear interrupt status */ txis = USB0->TXIS; /* read and clear interrupt status */ rxis = USB0->RXIS; /* read and clear interrupt status */ - // TU_LOG1("D%2x T%2x R%2x\n", is, txis, rxis); + // TU_LOG1("D%2x T%2x R%2x\r\n", is, txis, rxis); is &= USB0->IE; /* Clear disabled interrupts */ if (is & USB_IS_RESUME) { diff --git a/src/portable/nxp/khci/hcd_khci.c b/src/portable/nxp/khci/hcd_khci.c index 928564e261..55327e02df 100644 --- a/src/portable/nxp/khci/hcd_khci.c +++ b/src/portable/nxp/khci/hcd_khci.c @@ -161,7 +161,7 @@ static int prepare_packets(int pipenum) buffer_descriptor_t *bd = _hcd.bdt[dir_tx]; TU_ASSERT(0 == bd[odd].own, -1); - // TU_LOG1(" %p dir %d odd %d data %d\n", &bd[odd], dir_tx, odd, pipe->data); + // TU_LOG1(" %p dir %d odd %d data %d\r\n", &bd[odd], dir_tx, odd, pipe->data); ep->pipenum = pipenum; @@ -251,7 +251,7 @@ static bool resume_transfer(int pipenum) flags |= USB_ENDPT_EPHSHK_MASK | USB_ENDPT_EPCTLDIS_MASK | USB_ENDPT_RETRYDIS_MASK; break; } - // TU_LOG1(" resume pipenum %d flags %x\n", pipenum, flags); + // TU_LOG1(" resume pipenum %d flags %x\r\n", pipenum, flags); KHCI->ENDPOINT[0].ENDPT = flags; KHCI->ADDR = (KHCI->ADDR & USB_ADDR_LSEN_MASK) | pipe->dev_addr; @@ -302,7 +302,7 @@ static void process_tokdne(uint8_t rhport) int pipenum = ep->pipenum; int next_pipenum; - // TU_LOG1("TOKDNE %x PID %x pipe %d\n", s, pid, pipenum); + // TU_LOG1("TOKDNE %x PID %x pipe %d\r\n", s, pid, pipenum); xfer_result_t result; switch (pid) { @@ -479,7 +479,7 @@ void hcd_device_close(uint8_t rhport, uint8_t dev_addr) bool hcd_setup_send(uint8_t rhport, uint8_t dev_addr, uint8_t const setup_packet[8]) { (void)rhport; - // TU_LOG1("SETUP %u\n", dev_addr); + // TU_LOG1("SETUP %u\r\n", dev_addr); TU_ASSERT(0 == (_hcd.in_progress & TU_BIT(0))); int pipenum = find_pipe(dev_addr, 0); @@ -510,7 +510,7 @@ bool hcd_edpt_open(uint8_t rhport, uint8_t dev_addr, tusb_desc_endpoint_t const { (void)rhport; uint8_t const ep_addr = ep_desc->bEndpointAddress; - // TU_LOG1("O %u %x\n", dev_addr, ep_addr); + // TU_LOG1("O %u %x\r\n", dev_addr, ep_addr); /* Find a free pipe */ pipe_state_t *p = &_hcd.pipe[0]; pipe_state_t *end = &_hcd.pipe[CFG_TUH_ENDPOINT_MAX * 2]; @@ -543,7 +543,7 @@ bool hcd_edpt_open(uint8_t rhport, uint8_t dev_addr, tusb_desc_endpoint_t const bool hcd_edpt_xfer(uint8_t rhport, uint8_t dev_addr, uint8_t ep_addr, uint8_t * buffer, uint16_t buflen) { (void)rhport; - // TU_LOG1("X %u %x %x %d\n", dev_addr, ep_addr, (uintptr_t)buffer, buflen); + // TU_LOG1("X %u %x %x %d\r\n", dev_addr, ep_addr, (uintptr_t)buffer, buflen); int pipenum = find_pipe(dev_addr, ep_addr); TU_ASSERT(0 <= pipenum); @@ -588,7 +588,7 @@ void hcd_int_handler(uint8_t rhport) uint32_t is = KHCI->ISTAT; uint32_t msk = KHCI->INTEN; - // TU_LOG1("S %lx\n", is); + // TU_LOG1("S %lx\r\n", is); /* clear disabled interrupts */ KHCI->ISTAT = (is & ~msk & ~USB_ISTAT_TOKDNE_MASK) | USB_ISTAT_SOFTOK_MASK; @@ -597,7 +597,7 @@ void hcd_int_handler(uint8_t rhport) if (is & USB_ISTAT_ERROR_MASK) { unsigned err = KHCI->ERRSTAT; if (err) { - TU_LOG1(" ERR %x\n", err); + TU_LOG1(" ERR %x\r\n", err); KHCI->ERRSTAT = err; } else { KHCI->INTEN &= ~USB_ISTAT_ERROR_MASK; diff --git a/src/portable/raspberrypi/pio_usb/hcd_pio_usb.c b/src/portable/raspberrypi/pio_usb/hcd_pio_usb.c index 45a3e80ef3..adb83e97d3 100644 --- a/src/portable/raspberrypi/pio_usb/hcd_pio_usb.c +++ b/src/portable/raspberrypi/pio_usb/hcd_pio_usb.c @@ -155,11 +155,11 @@ bool hcd_setup_send(uint8_t rhport, uint8_t dev_addr, uint8_t const setup_packet // // so if any transfer is active on epx, we are busy. Interrupt endpoints have their own // // EPX so ep->active will only be busy if there is a pending transfer on that interrupt endpoint // // on that device -// pico_trace("hcd_edpt_busy dev addr %d ep_addr 0x%x\n", dev_addr, ep_addr); +// pico_trace("hcd_edpt_busy dev addr %d ep_addr 0x%x\r\n", dev_addr, ep_addr); // struct hw_endpoint *ep = get_dev_ep(dev_addr, ep_addr); // assert(ep); // bool busy = ep->active; -// pico_trace("busy == %d\n", busy); +// pico_trace("busy == %d\r\n", busy); // return busy; //} diff --git a/src/portable/raspberrypi/rp2040/dcd_rp2040.c b/src/portable/raspberrypi/rp2040/dcd_rp2040.c index 479b17b679..e8cee73fd1 100644 --- a/src/portable/raspberrypi/rp2040/dcd_rp2040.c +++ b/src/portable/raspberrypi/rp2040/dcd_rp2040.c @@ -189,7 +189,7 @@ static void hw_endpoint_xfer(uint8_t ep_addr, uint8_t *buffer, uint16_t total_by static void __tusb_irq_path_func(hw_handle_buff_status)(void) { uint32_t remaining_buffers = usb_hw->buf_status; - pico_trace("buf_status = 0x%08lx\n", remaining_buffers); + pico_trace("buf_status = 0x%08lx\r\n", remaining_buffers); uint bit = 1u; for (uint8_t i = 0; remaining_buffers && i < USB_MAX_ENDPOINTS * 2; i++) { @@ -331,7 +331,7 @@ static void __tusb_irq_path_func(dcd_rp2040_irq)(void) // SE0 for 2.5 us or more (will last at least 10ms) if ( status & USB_INTS_BUS_RESET_BITS ) { - pico_trace("BUS RESET\n"); + pico_trace("BUS RESET\r\n"); handled |= USB_INTS_BUS_RESET_BITS; @@ -565,7 +565,7 @@ void dcd_edpt_close (uint8_t rhport, uint8_t ep_addr) { (void) rhport; - pico_trace("dcd_edpt_close %02x\n", ep_addr); + pico_trace("dcd_edpt_close %02x\r\n", ep_addr); hw_endpoint_close(ep_addr); } diff --git a/src/portable/raspberrypi/rp2040/hcd_rp2040.c b/src/portable/raspberrypi/rp2040/hcd_rp2040.c index 6db8e2a0a3..21dc3f67d2 100644 --- a/src/portable/raspberrypi/rp2040/hcd_rp2040.c +++ b/src/portable/raspberrypi/rp2040/hcd_rp2040.c @@ -219,7 +219,7 @@ static void __tusb_irq_path_func(hcd_rp2040_irq)(void) if ( status & USB_INTS_BUFF_STATUS_BITS ) { handled |= USB_INTS_BUFF_STATUS_BITS; - TU_LOG(2, "Buffer complete\n"); + TU_LOG(2, "Buffer complete\r\n"); hw_handle_buff_status(); } @@ -227,7 +227,7 @@ static void __tusb_irq_path_func(hcd_rp2040_irq)(void) { handled |= USB_INTS_TRANS_COMPLETE_BITS; usb_hw_clear->sie_status = USB_SIE_STATUS_TRANS_COMPLETE_BITS; - TU_LOG(2, "Transfer complete\n"); + TU_LOG(2, "Transfer complete\r\n"); hw_trans_complete(); } diff --git a/src/portable/raspberrypi/rp2040/rp2040_usb.c b/src/portable/raspberrypi/rp2040/rp2040_usb.c index 1f49665ff0..a512dc34fe 100644 --- a/src/portable/raspberrypi/rp2040/rp2040_usb.c +++ b/src/portable/raspberrypi/rp2040/rp2040_usb.c @@ -219,7 +219,7 @@ void hw_endpoint_xfer_start(struct hw_endpoint *ep, uint8_t *buffer, uint16_t to if ( ep->active ) { // TODO: Is this acceptable for interrupt packets? - TU_LOG(1, "WARN: starting new transfer on already active ep %d %s\n", tu_edpt_number(ep->ep_addr), + TU_LOG(1, "WARN: starting new transfer on already active ep %d %s\r\n", tu_edpt_number(ep->ep_addr), ep_dir_string[tu_edpt_dir(ep->ep_addr)]); hw_endpoint_reset_transfer(ep); @@ -276,7 +276,7 @@ static uint16_t __tusb_irq_path_func(sync_ep_buffer)(struct hw_endpoint *ep, uin // Short packet if (xferred_bytes < ep->wMaxPacketSize) { - pico_trace(" Short packet on buffer %d with %u bytes\n", buf_id, xferred_bytes); + pico_trace(" Short packet on buffer %d with %u bytes\r\n", buf_id, xferred_bytes); // Reduce total length as this is last packet ep->remaining_len = 0; } @@ -352,7 +352,7 @@ bool __tusb_irq_path_func(hw_endpoint_xfer_continue)(struct hw_endpoint *ep) // If we are done then notify tinyusb if (ep->remaining_len == 0) { - pico_trace("Completed transfer of %d bytes on ep %d %s\n", + pico_trace("Completed transfer of %d bytes on ep %d %s\r\n", ep->xferred_len, tu_edpt_number(ep->ep_addr), ep_dir_string[tu_edpt_dir(ep->ep_addr)]); // Notify caller we are done so it can notify the tinyusb stack hw_endpoint_lock_update(ep, -1); @@ -419,7 +419,7 @@ static bool __tusb_irq_path_func(e15_is_critical_frame_period) (struct hw_endpoi if (delta < 800 || delta > 998) { return false; } - TU_LOG(3, "Avoiding sof %lu now %lu last %lu\n", (usb_hw->sof_rd + 1) & USB_SOF_RD_BITS, time_us_32(), e15_last_sof); + TU_LOG(3, "Avoiding sof %lu now %lu last %lu\r\n", (usb_hw->sof_rd + 1) & USB_SOF_RD_BITS, time_us_32(), e15_last_sof); return true; } diff --git a/src/portable/renesas/rusb2/hcd_rusb2.c b/src/portable/renesas/rusb2/hcd_rusb2.c index f6683529a5..55bf6de4db 100644 --- a/src/portable/renesas/rusb2/hcd_rusb2.c +++ b/src/portable/renesas/rusb2/hcd_rusb2.c @@ -414,7 +414,7 @@ static void process_pipe_nrdy(uint8_t rhport, unsigned num) rusb2_reg_t* rusb = RUSB2_REG(rhport); xfer_result_t result; uint16_t volatile *ctr = get_pipectr(rusb, num); - TU_LOG(TU_RUSB2_HCD_DBG, "NRDY %d %x\n", num, *ctr); + TU_LOG(TU_RUSB2_HCD_DBG, "NRDY %d %x\r\n", num, *ctr); switch (*ctr & RUSB2_PIPE_CTR_PID_Msk) { default: return; case RUSB2_PIPE_CTR_PID_STALL: result = XFER_RESULT_STALLED; break; @@ -636,7 +636,7 @@ bool hcd_setup_send(uint8_t rhport, uint8_t dev_addr, uint8_t const setup_packet TU_ASSERT(dev_addr < 6); /* USBa can only handle addresses from 0 to 5. */ rusb2_reg_t* rusb = RUSB2_REG(rhport); - TU_LOG(TU_RUSB2_HCD_DBG, "S %d %x\n", dev_addr, rusb->DCPCTR); + TU_LOG(TU_RUSB2_HCD_DBG, "S %d %x\r\n", dev_addr, rusb->DCPCTR); TU_ASSERT(0 == rusb->DCPCTR_b.SUREQ); @@ -735,7 +735,7 @@ bool hcd_edpt_xfer(uint8_t rhport, uint8_t dev_addr, uint8_t ep_addr, uint8_t *b { bool r; hcd_int_disable(rhport); - TU_LOG(TU_RUSB2_HCD_DBG, "X %d %x %u\n", dev_addr, ep_addr, buflen); + TU_LOG(TU_RUSB2_HCD_DBG, "X %d %x %u\r\n", dev_addr, ep_addr, buflen); r = process_edpt_xfer(rhport, dev_addr, ep_addr, buffer, buflen); hcd_int_enable(rhport); return r; @@ -781,7 +781,7 @@ void hcd_int_handler(uint8_t rhport) rusb->INTSTS1 = ~((RUSB2_INTSTS1_SACK_Msk | RUSB2_INTSTS1_SIGN_Msk | RUSB2_INTSTS1_ATTCH_Msk | RUSB2_INTSTS1_DTCH_Msk) & is1); rusb->INTSTS0 = ~((RUSB2_INTSTS0_BRDY_Msk | RUSB2_INTSTS0_NRDY_Msk | RUSB2_INTSTS0_BEMP_Msk) & is0); - TU_LOG3("IS %04x %04x\n", is0, is1); + TU_LOG3("IS %04x %04x\r\n", is0, is1); is1 &= rusb->INTENB1; is0 &= rusb->INTENB0; diff --git a/src/portable/st/typec/typec_stm32.c b/src/portable/st/typec/typec_stm32.c index bf8b660f04..8da2e39bac 100644 --- a/src/portable/st/typec/typec_stm32.c +++ b/src/portable/st/typec/typec_stm32.c @@ -246,7 +246,7 @@ void tcd_int_handler(uint8_t rhport) { v_cc[0] = (UCPD1->SR >> UCPD_SR_TYPEC_VSTATE_CC1_Pos) & 0x03; v_cc[1] = (UCPD1->SR >> UCPD_SR_TYPEC_VSTATE_CC2_Pos) & 0x03; - TU_LOG3("VState CC1 = %lu, CC2 = %lu\n", v_cc[0], v_cc[1]); + TU_LOG3("VState CC1 = %lu, CC2 = %lu\r\n", v_cc[0], v_cc[1]); uint32_t cr = UCPD1->CR; @@ -255,15 +255,15 @@ void tcd_int_handler(uint8_t rhport) { // FIXME somehow CC2 is vstate is not correct, always 1 even not attached. // on DPOW1 board, it is connected to PA10 (USBPD_DBCC2), we probably miss something. if ((sr & UCPD_SR_TYPECEVT1) && (v_cc[0] == 3)) { - TU_LOG3("Attach CC1\n"); + TU_LOG3("Attach CC1\r\n"); cr &= ~(UCPD_CR_PHYCCSEL | UCPD_CR_CCENABLE); cr |= UCPD_CR_PHYRXEN | UCPD_CR_CCENABLE_0; } else if ((sr & UCPD_SR_TYPECEVT2) && (v_cc[1] == 3)) { - TU_LOG3("Attach CC2\n"); + TU_LOG3("Attach CC2\r\n"); cr &= ~UCPD_CR_CCENABLE; cr |= (UCPD_CR_PHYCCSEL | UCPD_CR_PHYRXEN | UCPD_CR_CCENABLE_1); } else { - TU_LOG3("Detach\n"); + TU_LOG3("Detach\r\n"); cr &= ~UCPD_CR_PHYRXEN; cr |= UCPD_CR_CCENABLE_0 | UCPD_CR_CCENABLE_1; } @@ -290,7 +290,7 @@ void tcd_int_handler(uint8_t rhport) { //------------- RX -------------// if (sr & UCPD_SR_RXORDDET) { // SOP: Start of Packet. - TU_LOG3("SOP\n"); + TU_LOG3("SOP\r\n"); // UCPD1->RX_ORDSET & UCPD_RX_ORDSET_RXORDSET_Msk; // ack @@ -299,7 +299,7 @@ void tcd_int_handler(uint8_t rhport) { // Received full message if (sr & UCPD_SR_RXMSGEND) { - TU_LOG3("RX MSG END\n"); + TU_LOG3("RX MSG END\r\n"); // stop TX dma_stop(rhport, true); @@ -328,7 +328,7 @@ void tcd_int_handler(uint8_t rhport) { } if (sr & UCPD_SR_RXOVR) { - TU_LOG3("RXOVR\n"); + TU_LOG3("RXOVR\r\n"); // ack UCPD1->ICR = UCPD_ICR_RXOVRCF; } @@ -343,12 +343,12 @@ void tcd_int_handler(uint8_t rhport) { uint8_t result; if ( sr & UCPD_SR_TXMSGSENT ) { - TU_LOG3("TX MSG SENT\n"); + TU_LOG3("TX MSG SENT\r\n"); result = XFER_RESULT_SUCCESS; // ack UCPD1->ICR = UCPD_ICR_TXMSGSENTCF; }else { - TU_LOG3("TX Error\n"); + TU_LOG3("TX Error\r\n"); result = XFER_RESULT_FAILED; // ack UCPD1->ICR = UCPD_SR_TXMSGDISC | UCPD_SR_TXMSGABT | UCPD_SR_TXUND; diff --git a/src/portable/sunxi/dcd_sunxi_musb.c b/src/portable/sunxi/dcd_sunxi_musb.c index e26be775d5..6cc1975a81 100644 --- a/src/portable/sunxi/dcd_sunxi_musb.c +++ b/src/portable/sunxi/dcd_sunxi_musb.c @@ -408,9 +408,9 @@ static inline unsigned free_block_size(free_block_t const *blk) #if 0 static inline void print_block_list(free_block_t const *blk, unsigned num) { - TU_LOG1("*************\n"); + TU_LOG1("*************\r\n"); for (unsigned i = 0; i < num; ++i) { - TU_LOG1(" Blk%u %u %u\n", i, blk->beg, blk->end); + TU_LOG1(" Blk%u %u %u\r\n", i, blk->beg, blk->end); ++blk; } } @@ -590,7 +590,7 @@ static bool handle_xfer_in(uint_fast8_t ep_addr) const unsigned mps = USBC_Readw(USBC_REG_TXMAXP(USBC0_BASE)); const unsigned len = TU_MIN(mps, rem); uint8_t *buf = pipe->buf; - // TU_LOG1(" %p mps %d len %d rem %d\n", buf, mps, len, rem); + // TU_LOG1(" %p mps %d len %d rem %d\r\n", buf, mps, len, rem); if (len) { volatile void* addr = (volatile void*)(USBC_REG_EPFIFO1(USBC0_BASE) + (epnum_minus1 << 2)); if (_dcd.pipe_buf_is_fifo[TUSB_DIR_IN] & TU_BIT(epnum_minus1)) { @@ -602,7 +602,7 @@ static bool handle_xfer_in(uint_fast8_t ep_addr) pipe->remaining = rem - len; } __USBC_Dev_Tx_WriteDataComplete(); - // TU_LOG1(" TXCSRL%d = %x %d\n", epnum_minus1 + 1, regs->TXCSRL, rem - len); + // TU_LOG1(" TXCSRL%d = %x %d\r\n", epnum_minus1 + 1, regs->TXCSRL, rem - len); return false; } @@ -610,7 +610,7 @@ static bool handle_xfer_out(uint_fast8_t ep_addr) { unsigned epnum_minus1 = tu_edpt_number(ep_addr) - 1; pipe_state_t *pipe = &_dcd.pipe[tu_edpt_dir(ep_addr)][epnum_minus1]; - // TU_LOG1(" RXCSRL%d = %x\n", epnum_minus1 + 1, regs->RXCSRL); + // TU_LOG1(" RXCSRL%d = %x\r\n", epnum_minus1 + 1, regs->RXCSRL); TU_ASSERT(__USBC_Dev_Rx_IsReadDataReady()); @@ -677,14 +677,14 @@ static bool edpt0_xfer(uint8_t rhport, uint8_t ep_addr, uint8_t *buffer, uint16_ * may have already finished and received the next setup packet * without calling this function, so we have no choice but to * invoke the callback function of status packet here. */ - // TU_LOG1(" STATUS OUT CSRL0 = %x\n", CSRL0); + // TU_LOG1(" STATUS OUT CSRL0 = %x\r\n", CSRL0); _dcd.status_out = 0; if (req == REQUEST_TYPE_INVALID) { dcd_event_xfer_complete(rhport, ep_addr, total_bytes, XFER_RESULT_SUCCESS, false); } else { /* The next setup packet has already been received, it aborts * invoking callback function to avoid confusing TUSB stack. */ - TU_LOG1("Drop CONTROL_STAGE_ACK\n"); + TU_LOG1("Drop CONTROL_STAGE_ACK\r\n"); } return true; } @@ -709,16 +709,16 @@ static bool edpt0_xfer(uint8_t rhport, uint8_t ep_addr, uint8_t *buffer, uint16_ } else { __USBC_Dev_ep0_WriteDataHalf(); } - // TU_LOG1(" IN CSRL0 = %x\n", CSRL0); + // TU_LOG1(" IN CSRL0 = %x\r\n", CSRL0); } else { - // TU_LOG1(" OUT CSRL0 = %x\n", CSRL0); + // TU_LOG1(" OUT CSRL0 = %x\r\n", CSRL0); _dcd.pipe0.buf = buffer; _dcd.pipe0.length = len; _dcd.pipe0.remaining = len; __USBC_Dev_ep0_ReadDataHalf(); } } else if (dir_in) { - // TU_LOG1(" STATUS IN CSRL0 = %x\n", CSRL0); + // TU_LOG1(" STATUS IN CSRL0 = %x\r\n", CSRL0); _dcd.pipe0.buf = NULL; _dcd.pipe0.length = 0; _dcd.pipe0.remaining = 0; @@ -733,7 +733,7 @@ static void process_ep0(uint8_t rhport) USBC_SelectActiveEp(0); uint_fast8_t csrl = USBC_Readw(USBC_REG_CSR0(USBC0_BASE)); - // TU_LOG1(" EP0 CSRL0 = %x\n", csrl); + // TU_LOG1(" EP0 CSRL0 = %x\r\n", csrl); if (csrl & USB_CSRL0_STALLED) { /* Returned STALL packet to HOST. */ @@ -743,7 +743,7 @@ static void process_ep0(uint8_t rhport) unsigned req = _dcd.setup_packet.bmRequestType; if (csrl & USB_CSRL0_SETEND) { - // TU_LOG1(" ABORT by the next packets\n"); + // TU_LOG1(" ABORT by the next packets\r\n"); USBC_Dev_Ctrl_ClearSetupEnd(); if (req != REQUEST_TYPE_INVALID && _dcd.pipe0.buf) { /* DATA stage was aborted by receiving STATUS or SETUP packet. */ @@ -819,14 +819,14 @@ static void process_edpt_n(uint8_t rhport, uint_fast8_t ep_addr) USBC_SelectActiveEp(epn); if (dir_in) { - // TU_LOG1(" TXCSRL%d = %x\n", epn_minus1 + 1, regs->TXCSRL); + // TU_LOG1(" TXCSRL%d = %x\r\n", epn_minus1 + 1, regs->TXCSRL); if (__USBC_Dev_Tx_IsEpStall()) { __USBC_Dev_Tx_ClearStall(); return; } completed = handle_xfer_in(ep_addr); } else { - // TU_LOG1(" RXCSRL%d = %x\n", epn_minus1 + 1, regs->RXCSRL); + // TU_LOG1(" RXCSRL%d = %x\r\n", epn_minus1 + 1, regs->RXCSRL); if (__USBC_Dev_Rx_IsEpStall()) { __USBC_Dev_Rx_ClearStall(); return; @@ -1092,7 +1092,7 @@ bool dcd_edpt_xfer(uint8_t rhport, uint8_t ep_addr, uint8_t * buffer, uint16_t t { (void)rhport; bool ret; - // TU_LOG1("X %x %d\n", ep_addr, total_bytes); + // TU_LOG1("X %x %d\r\n", ep_addr, total_bytes); unsigned const epnum = tu_edpt_number(ep_addr); musb_int_mask(); @@ -1111,7 +1111,7 @@ bool dcd_edpt_xfer_fifo(uint8_t rhport, uint8_t ep_addr, tu_fifo_t * ff, uint16_ { (void)rhport; bool ret; - // TU_LOG1("X %x %d\n", ep_addr, total_bytes); + // TU_LOG1("X %x %d\r\n", ep_addr, total_bytes); unsigned const epnum = tu_edpt_number(ep_addr); TU_ASSERT(epnum);