Repostiory containing DAPLink source code with Reset Pin workaround for HANI_IOT board.
Upstream: https://github.com/ARMmbed/DAPLink
Diff: source/daplink/cmsis-dap/SWO.c
- Revision:
- 0:01f31e923fe2
diff -r 000000000000 -r 01f31e923fe2 source/daplink/cmsis-dap/SWO.c --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/source/daplink/cmsis-dap/SWO.c Tue Apr 07 12:55:42 2020 +0200 @@ -0,0 +1,800 @@ +/* + * Copyright (c) 2013-2017 ARM Limited. All rights reserved. + * + * SPDX-License-Identifier: Apache-2.0 + * + * Licensed under the Apache License, Version 2.0 (the License); you may + * not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an AS IS BASIS, WITHOUT + * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + * + * ---------------------------------------------------------------------- + * + * $Date: 1. December 2017 + * $Revision: V2.0.0 + * + * Project: CMSIS-DAP Source + * Title: SWO.c CMSIS-DAP SWO I/O + * + *---------------------------------------------------------------------------*/ + +#include "DAP_config.h" +#include "DAP.h" +#if (SWO_UART != 0) +#include "Driver_USART.h" +#endif +#if (SWO_STREAM != 0) +#include "cmsis_os2.h" +#endif + +#if (SWO_STREAM != 0) +#ifdef DAP_FW_V1 +#error "SWO Streaming Trace not supported in DAP V1!" +#endif +#endif + +#if (SWO_UART != 0) + +#ifndef SWO_USART_PORT +#define SWO_USART_PORT 0 /* USART Port Number */ +#endif + +// USART Driver +#define _USART_Driver_(n) Driver_USART##n +#define USART_Driver_(n) _USART_Driver_(n) +extern ARM_DRIVER_USART USART_Driver_(SWO_USART_PORT); +#define pUSART (&USART_Driver_(SWO_USART_PORT)) + +static uint8_t USART_Ready = 0U; + +#endif /* (SWO_UART != 0) */ + + +#if ((SWO_UART != 0) || (SWO_MANCHESTER != 0)) + + +#define SWO_STREAM_TIMEOUT 50U /* Stream timeout in ms */ + +#define USB_BLOCK_SIZE 512U /* USB Block Size */ +#define TRACE_BLOCK_SIZE 64U /* Trace Block Size (2^n: 32...512) */ + +// Trace State +static uint8_t TraceTransport = 0U; /* Trace Transport */ +static uint8_t TraceMode = 0U; /* Trace Mode */ +static uint8_t TraceStatus = 0U; /* Trace Status without Errors */ +static uint8_t TraceError[2] = {0U, 0U}; /* Trace Error flags (banked) */ +static uint8_t TraceError_n = 0U; /* Active Trace Error bank */ + +// Trace Buffer +static uint8_t TraceBuf[SWO_BUFFER_SIZE]; /* Trace Buffer (must be 2^n) */ +static volatile uint32_t TraceIndexI = 0U; /* Incoming Trace Index */ +static volatile uint32_t TraceIndexO = 0U; /* Outgoing Trace Index */ +static volatile uint8_t TraceUpdate; /* Trace Update Flag */ +static uint32_t TraceBlockSize; /* Current Trace Block Size */ + +#if (TIMESTAMP_CLOCK != 0U) +// Trace Timestamp +static volatile struct { + uint32_t index; + uint32_t tick; +} TraceTimestamp; +#endif + +// Trace Helper functions +static void ClearTrace (void); +static void ResumeTrace (void); +static uint32_t GetTraceCount (void); +static uint8_t GetTraceStatus (void); +static void SetTraceError (uint8_t flag); + +#if (SWO_STREAM != 0) +extern osThreadId_t SWO_ThreadId; +static volatile uint8_t TransferBusy = 0U; /* Transfer Busy Flag */ +static uint32_t TransferSize; /* Current Transfer Size */ +#endif + + +#if (SWO_UART != 0) + +// USART Driver Callback function +// event: event mask +static void USART_Callback (uint32_t event) { + uint32_t index_i; + uint32_t index_o; + uint32_t count; + uint32_t num; + + if (event & ARM_USART_EVENT_RECEIVE_COMPLETE) { +#if (TIMESTAMP_CLOCK != 0U) + TraceTimestamp.tick = TIMESTAMP_GET(); +#endif + index_o = TraceIndexO; + index_i = TraceIndexI; + index_i += TraceBlockSize; + TraceIndexI = index_i; +#if (TIMESTAMP_CLOCK != 0U) + TraceTimestamp.index = index_i; +#endif + num = TRACE_BLOCK_SIZE - (index_i & (TRACE_BLOCK_SIZE - 1U)); + count = index_i - index_o; + if (count <= (SWO_BUFFER_SIZE - num)) { + index_i &= SWO_BUFFER_SIZE - 1U; + TraceBlockSize = num; + pUSART->Receive(&TraceBuf[index_i], num); + } else { + TraceStatus = DAP_SWO_CAPTURE_ACTIVE | DAP_SWO_CAPTURE_PAUSED; + } + TraceUpdate = 1U; +#if (SWO_STREAM != 0) + if (TraceTransport == 2U) { + if (count >= (USB_BLOCK_SIZE - (index_o & (USB_BLOCK_SIZE - 1U)))) { + osThreadFlagsSet(SWO_ThreadId, 1U); + } + } +#endif + } + if (event & ARM_USART_EVENT_RX_OVERFLOW) { + SetTraceError(DAP_SWO_BUFFER_OVERRUN); + } + if (event & (ARM_USART_EVENT_RX_BREAK | + ARM_USART_EVENT_RX_FRAMING_ERROR | + ARM_USART_EVENT_RX_PARITY_ERROR)) { + SetTraceError(DAP_SWO_STREAM_ERROR); + } +} + +// Enable or disable UART SWO Mode +// enable: enable flag +// return: 1 - Success, 0 - Error +__WEAK uint32_t UART_SWO_Mode (uint32_t enable) { + int32_t status; + + USART_Ready = 0U; + + if (enable != 0U) { + status = pUSART->Initialize(USART_Callback); + if (status != ARM_DRIVER_OK) { + return (0U); + } + status = pUSART->PowerControl(ARM_POWER_FULL); + if (status != ARM_DRIVER_OK) { + pUSART->Uninitialize(); + return (0U); + } + } else { + pUSART->Control(ARM_USART_CONTROL_RX, 0U); + pUSART->Control(ARM_USART_ABORT_RECEIVE, 0U); + pUSART->PowerControl(ARM_POWER_OFF); + pUSART->Uninitialize(); + } + return (1U); +} + +// Configure UART SWO Baudrate +// baudrate: requested baudrate +// return: actual baudrate or 0 when not configured +__WEAK uint32_t UART_SWO_Baudrate (uint32_t baudrate) { + int32_t status; + uint32_t index; + uint32_t num; + + if (baudrate > SWO_UART_MAX_BAUDRATE) { + baudrate = SWO_UART_MAX_BAUDRATE; + } + + if (TraceStatus & DAP_SWO_CAPTURE_ACTIVE) { + pUSART->Control(ARM_USART_CONTROL_RX, 0U); + if (pUSART->GetStatus().rx_busy) { + TraceIndexI += pUSART->GetRxCount(); + pUSART->Control(ARM_USART_ABORT_RECEIVE, 0U); + } + } + + status = pUSART->Control(ARM_USART_MODE_ASYNCHRONOUS | + ARM_USART_DATA_BITS_8 | + ARM_USART_PARITY_NONE | + ARM_USART_STOP_BITS_1, + baudrate); + + if (status == ARM_DRIVER_OK) { + USART_Ready = 1U; + } else { + USART_Ready = 0U; + return (0U); + } + + if (TraceStatus & DAP_SWO_CAPTURE_ACTIVE) { + if ((TraceStatus & DAP_SWO_CAPTURE_PAUSED) == 0U) { + index = TraceIndexI & (SWO_BUFFER_SIZE - 1U); + num = TRACE_BLOCK_SIZE - (index & (TRACE_BLOCK_SIZE - 1U)); + TraceBlockSize = num; + pUSART->Receive(&TraceBuf[index], num); + } + pUSART->Control(ARM_USART_CONTROL_RX, 1U); + } + + return (baudrate); +} + +// Control UART SWO Capture +// active: active flag +// return: 1 - Success, 0 - Error +__WEAK uint32_t UART_SWO_Control (uint32_t active) { + int32_t status; + + if (active) { + if (!USART_Ready) { + return (0U); + } + TraceBlockSize = 1U; + status = pUSART->Receive(&TraceBuf[0], 1U); + if (status != ARM_DRIVER_OK) { + return (0U); + } + status = pUSART->Control(ARM_USART_CONTROL_RX, 1U); + if (status != ARM_DRIVER_OK) { + return (0U); + } + } else { + pUSART->Control(ARM_USART_CONTROL_RX, 0U); + if (pUSART->GetStatus().rx_busy) { + TraceIndexI += pUSART->GetRxCount(); + pUSART->Control(ARM_USART_ABORT_RECEIVE, 0U); + } + } + return (1U); +} + +// Start UART SWO Capture +// buf: pointer to buffer for capturing +// num: number of bytes to capture +__WEAK void UART_SWO_Capture (uint8_t *buf, uint32_t num) { + TraceBlockSize = num; + pUSART->Receive(buf, num); +} + +// Get UART SWO Pending Trace Count +// return: number of pending trace data bytes +__WEAK uint32_t UART_SWO_GetCount (void) { + uint32_t count; + + if (pUSART->GetStatus().rx_busy) { + count = pUSART->GetRxCount(); + } else { + count = 0U; + } + return (count); +} + +#endif /* (SWO_UART != 0) */ + + +#if (SWO_MANCHESTER != 0) + +// Enable or disable Manchester SWO Mode +// enable: enable flag +// return: 1 - Success, 0 - Error +__WEAK uint32_t Manchester_SWO_Mode (uint32_t enable) { + return (0U); +} + +// Configure Manchester SWO Baudrate +// baudrate: requested baudrate +// return: actual baudrate or 0 when not configured +__WEAK uint32_t Manchester_SWO_Baudrate (uint32_t baudrate) { + return (0U); +} + +// Control Manchester SWO Capture +// active: active flag +// return: 1 - Success, 0 - Error +__WEAK uint32_t Manchester_SWO_Control (uint32_t active) { + return (0U); +} + +// Start Manchester SWO Capture +// buf: pointer to buffer for capturing +// num: number of bytes to capture +__WEAK void Manchester_SWO_Capture (uint8_t *buf, uint32_t num) { +} + +// Get Manchester SWO Pending Trace Count +// return: number of pending trace data bytes +__WEAK uint32_t Manchester_SWO_GetCount (void) { +} + +#endif /* (SWO_MANCHESTER != 0) */ + + +// Clear Trace Errors and Data +static void ClearTrace (void) { + +#if (SWO_STREAM != 0) + if (TraceTransport == 2U) { + if (TransferBusy != 0U) { + SWO_AbortTransfer(); + TransferBusy = 0U; + } + } +#endif + + TraceError[0] = 0U; + TraceError[1] = 0U; + TraceError_n = 0U; + TraceIndexI = 0U; + TraceIndexO = 0U; + +#if (TIMESTAMP_CLOCK != 0U) + TraceTimestamp.index = 0U; + TraceTimestamp.tick = 0U; +#endif +} + +// Resume Trace Capture +static void ResumeTrace (void) { + uint32_t index_i; + uint32_t index_o; + + if (TraceStatus == (DAP_SWO_CAPTURE_ACTIVE | DAP_SWO_CAPTURE_PAUSED)) { + index_i = TraceIndexI; + index_o = TraceIndexO; + if ((index_i - index_o) < SWO_BUFFER_SIZE) { + index_i &= SWO_BUFFER_SIZE - 1U; + switch (TraceMode) { +#if (SWO_UART != 0) + case DAP_SWO_UART: + TraceStatus = DAP_SWO_CAPTURE_ACTIVE; + UART_SWO_Capture(&TraceBuf[index_i], 1U); + break; +#endif +#if (SWO_MANCHESTER != 0) + case DAP_SWO_MANCHESTER: + TraceStatus = DAP_SWO_CAPTURE_ACTIVE; + Manchester_SWO_Capture(&TraceBuf[index_i], 1U); + break; +#endif + default: + break; + } + } + } +} + +// Get Trace Count +// return: number of available data bytes in trace buffer +static uint32_t GetTraceCount (void) { + uint32_t count; + + if (TraceStatus == DAP_SWO_CAPTURE_ACTIVE) { + do { + TraceUpdate = 0U; + count = TraceIndexI - TraceIndexO; + switch (TraceMode) { +#if (SWO_UART != 0) + case DAP_SWO_UART: + count += UART_SWO_GetCount(); + break; +#endif +#if (SWO_MANCHESTER != 0) + case DAP_SWO_MANCHESTER: + count += Manchester_SWO_GetCount(); + break; +#endif + default: + break; + } + } while (TraceUpdate != 0U); + } else { + count = TraceIndexI - TraceIndexO; + } + + return (count); +} + +// Get Trace Status (clear Error flags) +// return: Trace Status (Active flag and Error flags) +static uint8_t GetTraceStatus (void) { + uint8_t status; + uint32_t n; + + n = TraceError_n; + TraceError_n ^= 1U; + status = TraceStatus | TraceError[n]; + TraceError[n] = 0U; + + return (status); +} + +// Set Trace Error flag(s) +// flag: error flag(s) to set +static void SetTraceError (uint8_t flag) { + TraceError[TraceError_n] |= flag; +} + + +// Process SWO Transport command and prepare response +// request: pointer to request data +// response: pointer to response data +// return: number of bytes in response (lower 16 bits) +// number of bytes in request (upper 16 bits) +uint32_t SWO_Transport (const uint8_t *request, uint8_t *response) { + uint8_t transport; + uint32_t result; + + if ((TraceStatus & DAP_SWO_CAPTURE_ACTIVE) == 0U) { + transport = *request; + switch (transport) { + case 0U: + case 1U: +#if (SWO_STREAM != 0) + case 2U: +#endif + TraceTransport = transport; + result = 1U; + break; + default: + result = 0U; + break; + } + } else { + result = 0U; + } + + if (result != 0U) { + *response = DAP_OK; + } else { + *response = DAP_ERROR; + } + + return ((1U << 16) | 1U); +} + + +// Process SWO Mode command and prepare response +// request: pointer to request data +// response: pointer to response data +// return: number of bytes in response (lower 16 bits) +// number of bytes in request (upper 16 bits) +uint32_t SWO_Mode (const uint8_t *request, uint8_t *response) { + uint8_t mode; + uint32_t result; + + mode = *request; + + switch (TraceMode) { +#if (SWO_UART != 0) + case DAP_SWO_UART: + UART_SWO_Mode(0U); + break; +#endif +#if (SWO_MANCHESTER != 0) + case DAP_SWO_MANCHESTER: + Manchester_SWO_Mode(0U); + break; +#endif + default: + break; + } + + switch (mode) { + case DAP_SWO_OFF: + result = 1U; + break; +#if (SWO_UART != 0) + case DAP_SWO_UART: + result = UART_SWO_Mode(1U); + break; +#endif +#if (SWO_MANCHESTER != 0) + case DAP_SWO_MANCHESTER: + result = Manchester_SWO_Mode(1U); + break; +#endif + default: + result = 0U; + break; + } + if (result != 0U) { + TraceMode = mode; + } else { + TraceMode = DAP_SWO_OFF; + } + + TraceStatus = 0U; + + if (result != 0U) { + *response = DAP_OK; + } else { + *response = DAP_ERROR; + } + + return ((1U << 16) | 1U); +} + + +// Process SWO Baudrate command and prepare response +// request: pointer to request data +// response: pointer to response data +// return: number of bytes in response (lower 16 bits) +// number of bytes in request (upper 16 bits) +uint32_t SWO_Baudrate (const uint8_t *request, uint8_t *response) { + uint32_t baudrate; + + baudrate = (uint32_t)(*(request+0) << 0) | + (uint32_t)(*(request+1) << 8) | + (uint32_t)(*(request+2) << 16) | + (uint32_t)(*(request+3) << 24); + + switch (TraceMode) { +#if (SWO_UART != 0) + case DAP_SWO_UART: + baudrate = UART_SWO_Baudrate(baudrate); + break; +#endif +#if (SWO_MANCHESTER != 0) + case DAP_SWO_MANCHESTER: + baudrate = Manchester_SWO_Baudrate(baudrate); + break; +#endif + default: + baudrate = 0U; + break; + } + + if (baudrate == 0U) { + TraceStatus = 0U; + } + + *response++ = (uint8_t)(baudrate >> 0); + *response++ = (uint8_t)(baudrate >> 8); + *response++ = (uint8_t)(baudrate >> 16); + *response = (uint8_t)(baudrate >> 24); + + return ((4U << 16) | 4U); +} + + +// Process SWO Control command and prepare response +// request: pointer to request data +// response: pointer to response data +// return: number of bytes in response (lower 16 bits) +// number of bytes in request (upper 16 bits) +uint32_t SWO_Control (const uint8_t *request, uint8_t *response) { + uint8_t active; + uint32_t result; + + active = *request & DAP_SWO_CAPTURE_ACTIVE; + + if (active != (TraceStatus & DAP_SWO_CAPTURE_ACTIVE)) { + if (active) { + ClearTrace(); + } + switch (TraceMode) { +#if (SWO_UART != 0) + case DAP_SWO_UART: + result = UART_SWO_Control(active); + break; +#endif +#if (SWO_MANCHESTER != 0) + case DAP_SWO_MANCHESTER: + result = Manchester_SWO_Control(active); + break; +#endif + default: + result = 0U; + break; + } + if (result != 0U) { + TraceStatus = active; +#if (SWO_STREAM != 0) + if (TraceTransport == 2U) { + osThreadFlagsSet(SWO_ThreadId, 1U); + } +#endif + } + } else { + result = 1U; + } + + if (result != 0U) { + *response = DAP_OK; + } else { + *response = DAP_ERROR; + } + + return ((1U << 16) | 1U); +} + + +// Process SWO Status command and prepare response +// response: pointer to response data +// return: number of bytes in response +uint32_t SWO_Status (uint8_t *response) { + uint8_t status; + uint32_t count; + + status = GetTraceStatus(); + count = GetTraceCount(); + + *response++ = status; + *response++ = (uint8_t)(count >> 0); + *response++ = (uint8_t)(count >> 8); + *response++ = (uint8_t)(count >> 16); + *response = (uint8_t)(count >> 24); + + return (5U); +} + + +// Process SWO Extended Status command and prepare response +// request: pointer to request data +// response: pointer to response data +// return: number of bytes in response (lower 16 bits) +// number of bytes in request (upper 16 bits) +uint32_t SWO_ExtendedStatus (const uint8_t *request, uint8_t *response) { + uint8_t cmd; + uint8_t status; + uint32_t count; +#if (TIMESTAMP_CLOCK != 0U) + uint32_t index; + uint32_t tick; +#endif + uint32_t num; + + num = 0U; + cmd = *request; + + if (cmd & 0x01U) { + status = GetTraceStatus(); + *response++ = status; + num += 1U; + } + + if (cmd & 0x02U) { + count = GetTraceCount(); + *response++ = (uint8_t)(count >> 0); + *response++ = (uint8_t)(count >> 8); + *response++ = (uint8_t)(count >> 16); + *response++ = (uint8_t)(count >> 24); + num += 4U; + } + +#if (TIMESTAMP_CLOCK != 0U) + if (cmd & 0x04U) { + do { + TraceUpdate = 0U; + index = TraceTimestamp.index; + tick = TraceTimestamp.tick; + } while (TraceUpdate != 0U); + *response++ = (uint8_t)(index >> 0); + *response++ = (uint8_t)(index >> 8); + *response++ = (uint8_t)(index >> 16); + *response++ = (uint8_t)(index >> 24); + *response++ = (uint8_t)(tick >> 0); + *response++ = (uint8_t)(tick >> 8); + *response++ = (uint8_t)(tick >> 16); + *response++ = (uint8_t)(tick >> 24); + num += 4U; + } +#endif + + return ((1U << 16) | num); +} + + +// Process SWO Data command and prepare response +// request: pointer to request data +// response: pointer to response data +// return: number of bytes in response (lower 16 bits) +// number of bytes in request (upper 16 bits) +uint32_t SWO_Data (const uint8_t *request, uint8_t *response) { + uint8_t status; + uint32_t count; + uint32_t index; + uint32_t n, i; + + status = GetTraceStatus(); + count = GetTraceCount(); + + if (TraceTransport == 1U) { + n = (uint32_t)(*(request+0) << 0) | + (uint32_t)(*(request+1) << 8); + if (n > (DAP_PACKET_SIZE - 4U)) { + n = DAP_PACKET_SIZE - 4U; + } + if (count > n) { + count = n; + } + } else { + count = 0U; + } + + *response++ = status; + *response++ = (uint8_t)(count >> 0); + *response++ = (uint8_t)(count >> 8); + + if (TraceTransport == 1U) { + index = TraceIndexO; + for (i = index, n = count; n; n--) { + i &= SWO_BUFFER_SIZE - 1U; + *response++ = TraceBuf[i++]; + } + TraceIndexO = index + count; + ResumeTrace(); + } + + return ((2U << 16) | (3U + count)); +} + + +#if (SWO_STREAM != 0) + +// SWO Data Transfer complete callback +void SWO_TransferComplete (void) { + TraceIndexO += TransferSize; + TransferBusy = 0U; + ResumeTrace(); + osThreadFlagsSet(SWO_ThreadId, 1U); +} + +// SWO Thread +__NO_RETURN void SWO_Thread (void *argument) { + uint32_t timeout; + uint32_t flags; + uint32_t count; + uint32_t index; + uint32_t i, n; + (void) argument; + + timeout = osWaitForever; + + for (;;) { + flags = osThreadFlagsWait(1U, osFlagsWaitAny, timeout); + if (TraceStatus & DAP_SWO_CAPTURE_ACTIVE) { + timeout = SWO_STREAM_TIMEOUT; + } else { + timeout = osWaitForever; + flags = osFlagsErrorTimeout; + } + if (TransferBusy == 0U) { + count = GetTraceCount(); + if (count != 0U) { + index = TraceIndexO & (SWO_BUFFER_SIZE - 1U); + n = SWO_BUFFER_SIZE - index; + if (count > n) { + count = n; + } + if (flags != osFlagsErrorTimeout) { + i = index & (USB_BLOCK_SIZE - 1U); + if (i == 0U) { + count &= ~(USB_BLOCK_SIZE - 1U); + } else { + n = USB_BLOCK_SIZE - i; + if (count >= n) { + count = n; + } else { + count = 0U; + } + } + } + if (count != 0U) { + TransferSize = count; + TransferBusy = 1U; + SWO_QueueTransfer(&TraceBuf[index], count); + } + } + } + } +} + +#endif /* (SWO_STREAM != 0) */ + + +#endif /* ((SWO_UART != 0) || (SWO_MANCHESTER != 0)) */