This is a fork due to permission issues
Dependencies: mbed Socket lwip-eth lwip-sys lwip
Fork of 6_songs-from-the-cloud by
mbed-client/nanostack-libservice/source/libTrace/ns_trace.c
- Committer:
- maclobdell
- Date:
- 2016-05-18
- Revision:
- 0:f7c60d3e7b8a
File content as of revision 0:f7c60d3e7b8a:
/* * Copyright (c) 2014-2015 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 * * http://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. */ #include <stdio.h> #include <string.h> #include <stdarg.h> #include <stdlib.h> #define HAVE_DEBUG 1 #include "ns_trace.h" #include "ip6string.h" #include "common_functions.h" #if defined(_WIN32) || defined(__unix__) || defined(__unix) || defined(unix) || (defined(YOTTA_CFG) && !defined(NDEBUG)) //NOTE! It is not allowed to use this MEM_ALLOC/MEM_FREE from interrupt context. #ifndef MEM_ALLOC #define MEM_ALLOC malloc #endif #ifndef MEM_FREE #define MEM_FREE free #endif #else #include "nsdynmemLIB.h" #ifndef MEM_ALLOC #define MEM_ALLOC ns_dyn_mem_alloc #endif #ifndef MEM_FREE #define MEM_FREE ns_dyn_mem_free #endif #endif #define VT100_COLOR_ERROR "\x1b[31m" #define VT100_COLOR_WARN "\x1b[33m" #define VT100_COLOR_INFO "\x1b[39m" #define VT100_COLOR_DEBUG "\x1b[90m" /** default max trace line size in bytes */ #define DEFAULT_TRACE_LINE_LENGTH 1024 /** default max temporary buffer size in bytes, used in trace_ipv6, trace_array and trace_strn */ #define DEFAULT_TRACE_TMP_LINE_LEN 128 /** default max filters (include/exclude) length in bytes */ #define DEFAULT_TRACE_FILTER_LENGTH 24 /** default print function, just redirect str to printf */ static void default_print(const char *str); typedef struct { /** trace configuration bits */ uint8_t trace_config; /** exclude filters list, related group name */ char *filters_exclude; /** include filters list, related group name */ char *filters_include; /** Filters length */ int filters_length; /** trace line */ char *line; /** trace line length */ int line_length; /** temporary data */ char *tmp_data; /** temporary data array length */ int tmp_data_length; /** temporary data pointer */ char *tmp_data_ptr; /** prefix function, which can be used to put time to the trace line */ char *(*prefix_f)(size_t); /** suffix function, which can be used to some string to the end of trace line */ char *(*suffix_f)(void); /** print out function. Can be redirect to flash for example. */ void (*printf)(const char *); /** print out function for TRACE_LEVEL_CMD */ void (*cmd_printf)(const char *); } trace_s; static trace_s m_trace = { .filters_exclude = 0, .filters_include = 0, .line = 0, .tmp_data = 0, .prefix_f = 0, .suffix_f = 0, .printf = 0, .cmd_printf = 0 }; int trace_init(void) { m_trace.trace_config = TRACE_MODE_COLOR | TRACE_ACTIVE_LEVEL_ALL | TRACE_CARRIAGE_RETURN; m_trace.line_length = DEFAULT_TRACE_LINE_LENGTH; if (m_trace.line == NULL) { m_trace.line = MEM_ALLOC(m_trace.line_length); } m_trace.tmp_data_length = DEFAULT_TRACE_TMP_LINE_LEN; if (m_trace.tmp_data == NULL) { m_trace.tmp_data = MEM_ALLOC(m_trace.tmp_data_length); } m_trace.tmp_data_ptr = m_trace.tmp_data; m_trace.filters_length = DEFAULT_TRACE_FILTER_LENGTH; if (m_trace.filters_exclude == NULL) { m_trace.filters_exclude = MEM_ALLOC(m_trace.filters_length); } if (m_trace.filters_include == NULL) { m_trace.filters_include = MEM_ALLOC(m_trace.filters_length); } if (m_trace.line == NULL || m_trace.tmp_data == NULL || m_trace.filters_exclude == NULL || m_trace.filters_include == NULL) { //memory allocation fail trace_free(); return -1; } memset(m_trace.tmp_data, 0, m_trace.tmp_data_length); memset(m_trace.filters_exclude, 0, m_trace.filters_length); memset(m_trace.filters_include, 0, m_trace.filters_length); memset(m_trace.line, 0, m_trace.line_length); m_trace.prefix_f = 0; m_trace.suffix_f = 0; m_trace.printf = default_print; m_trace.cmd_printf = 0; return 0; } void trace_free(void) { MEM_FREE(m_trace.line); m_trace.line_length = 0; m_trace.line = 0; MEM_FREE(m_trace.tmp_data); m_trace.tmp_data = 0; m_trace.tmp_data_ptr = 0; MEM_FREE(m_trace.filters_exclude); m_trace.filters_exclude = 0; MEM_FREE(m_trace.filters_include); m_trace.filters_include = 0; m_trace.filters_length = 0; } /** @TODO do we need dynamically change trace buffer sizes ? // reconfigure trace buffer sizes void set_trace_buffer_sizes(int lineLength, int tmpLength) { REALLOC( m_trace.line, dataLength ); REALLOC( m_trace.tmp_data, tmpLength); m_trace.tmp_data_length = tmpLength; } */ void set_trace_config(uint8_t config) { m_trace.trace_config = config; } uint8_t get_trace_config(void) { return m_trace.trace_config; } void set_trace_prefix_function(char *(*pref_f)(size_t)) { m_trace.prefix_f = pref_f; } void set_trace_suffix_function(char *(*suffix_f)(void)) { m_trace.suffix_f = suffix_f; } void set_trace_print_function(void (*printf)(const char *)) { m_trace.printf = printf; } void set_trace_cmdprint_function(void (*printf)(const char *)) { m_trace.cmd_printf = printf; } void set_trace_exclude_filters(char *filters) { if (filters) { (void)strncpy(m_trace.filters_exclude, filters, m_trace.filters_length); } else { m_trace.filters_exclude[0] = 0; } } const char *get_trace_exclude_filters(void) { return m_trace.filters_exclude; } const char *get_trace_include_filters(void) { return m_trace.filters_include; } void set_trace_include_filters(char *filters) { if (filters) { (void)strncpy(m_trace.filters_include, filters, m_trace.filters_length); } else { m_trace.filters_include[0] = 0; } } static int8_t trace_skip(int8_t dlevel, const char *grp) { if (dlevel >= 0 && grp != 0) { // filter debug prints only when dlevel is >0 and grp is given /// @TODO this could be much better.. if (m_trace.filters_exclude[0] != '\0' && strstr(m_trace.filters_exclude, grp) != 0) { //grp was in exclude list return 1; } if (m_trace.filters_include[0] != '\0' && strstr(m_trace.filters_include, grp) == 0) { //grp was in include list return 1; } } return 0; } static void default_print(const char *str) { puts(str); } void tracef(uint8_t dlevel, const char *grp, const char *fmt, ...) { if (m_trace.line == NULL) { // Quite likely the trace_init() has not been called yet, // but it is better to just shut up instead of crashing with // null pointer dereference. return; } m_trace.line[0] = 0; //by default trace is empty if (trace_skip(dlevel, grp) || fmt == 0 || grp == 0) { return; } if ((m_trace.trace_config & TRACE_MASK_LEVEL) & dlevel) { bool color = (m_trace.trace_config & TRACE_MODE_COLOR) != 0; bool plain = (m_trace.trace_config & TRACE_MODE_PLAIN) != 0; bool cr = (m_trace.trace_config & TRACE_CARRIAGE_RETURN) != 0; //printf("CFG: 0x%02x, plain: %i, color: %i, cr: %i\n", m_trace.trace_config, plain, color, cr); int retval = 0, bLeft = m_trace.line_length; char *ptr = m_trace.line; if (plain == true || dlevel == TRACE_LEVEL_CMD) { va_list ap; va_start(ap, fmt); //add trace data retval = vsnprintf(ptr, bLeft, fmt, ap); va_end(ap); if (dlevel == TRACE_LEVEL_CMD && m_trace.cmd_printf) { m_trace.cmd_printf(m_trace.line); m_trace.cmd_printf("\n"); } else { //print out whole data m_trace.printf(m_trace.line); } } else { if (color) { if (cr) { retval = snprintf(ptr, bLeft, "\r\x1b[2K"); if (retval >= bLeft) { retval = 0; } if (retval > 0) { ptr += retval; bLeft -= retval; } } if (bLeft > 0) { //include color in ANSI/VT100 escape code switch (dlevel) { case (TRACE_LEVEL_ERROR): retval = snprintf(ptr, bLeft, "%s", VT100_COLOR_ERROR); break; case (TRACE_LEVEL_WARN): retval = snprintf(ptr, bLeft, "%s", VT100_COLOR_WARN); break; case (TRACE_LEVEL_INFO): retval = snprintf(ptr, bLeft, "%s", VT100_COLOR_INFO); break; case (TRACE_LEVEL_DEBUG): retval = snprintf(ptr, bLeft, "%s", VT100_COLOR_DEBUG); break; default: color = 0; //avoid unneeded color-terminate code retval = 0; break; } if (retval >= bLeft) { retval = 0; } if (retval > 0 && color) { ptr += retval; bLeft -= retval; } } } if (bLeft > 0 && m_trace.prefix_f) { va_list ap; va_start(ap, fmt); //find out length of body size_t sz = 0; sz = vsnprintf(NULL, 0, fmt, ap) + retval + (retval ? 4 : 0); //add prefix string retval = snprintf(ptr, bLeft, "%s", m_trace.prefix_f(sz)); if (retval >= bLeft) { retval = 0; } if (retval > 0) { ptr += retval; bLeft -= retval; } va_end(ap); } if (bLeft > 0) { //add group tag switch (dlevel) { case (TRACE_LEVEL_ERROR): retval = snprintf(ptr, bLeft, "[ERR ][%-4s]: ", grp); break; case (TRACE_LEVEL_WARN): retval = snprintf(ptr, bLeft, "[WARN][%-4s]: ", grp); break; case (TRACE_LEVEL_INFO): retval = snprintf(ptr, bLeft, "[INFO][%-4s]: ", grp); break; case (TRACE_LEVEL_DEBUG): retval = snprintf(ptr, bLeft, "[DBG ][%-4s]: ", grp); break; default: retval = snprintf(ptr, bLeft, " "); break; } if (retval >= bLeft) { retval = 0; } if (retval > 0) { ptr += retval; bLeft -= retval; } } if (retval > 0 && bLeft > 0) { va_list ap; va_start(ap, fmt); //add trace text retval = vsnprintf(ptr, bLeft, fmt, ap); if (retval >= bLeft) { retval = 0; } if (retval > 0) { ptr += retval; bLeft -= retval; } va_end(ap); } if (retval > 0 && bLeft > 0 && m_trace.suffix_f) { //add suffix string retval = snprintf(ptr, bLeft, "%s", m_trace.suffix_f()); if (retval >= bLeft) { retval = 0; } if (retval > 0) { ptr += retval; bLeft -= retval; } } if (retval > 0 && bLeft > 0 && color) { //add zero color VT100 when color mode retval = snprintf(ptr, bLeft, "\x1b[0m"); if (retval >= bLeft) { retval = 0; } if (retval > 0) { ptr += retval; bLeft -= retval; } } //print out whole data m_trace.printf(m_trace.line); } //return tmp data pointer back to the beginning m_trace.tmp_data_ptr = m_trace.tmp_data; } } const char *trace_last(void) { return m_trace.line; } /* Helping functions */ #define tmp_data_left() m_trace.tmp_data_length-(m_trace.tmp_data_ptr-m_trace.tmp_data) char *trace_ipv6(const void *addr_ptr) { char *str = m_trace.tmp_data_ptr; if (str == NULL) { return ""; } if (tmp_data_left() < 41) { return ""; } if (addr_ptr == NULL) { return "<null>"; } str[0] = 0; ip6tos(addr_ptr, str); m_trace.tmp_data_ptr += strlen(str) + 1; return str; } char *trace_ipv6_prefix(const uint8_t *prefix, uint8_t prefix_len) { char *str = m_trace.tmp_data_ptr; int retval, bLeft = tmp_data_left(); char tmp[40]; uint8_t addr[16] = {0}; if (str == NULL) { return ""; } if (bLeft < 43) { return ""; } if (prefix_len != 0) { if (prefix == NULL || prefix_len > 128) { return "<err>"; } bitcopy(addr, prefix, prefix_len); } ip6tos(addr, tmp); retval = snprintf(str, bLeft, "%s/%u", tmp, prefix_len); if (retval <= 0 || retval > bLeft) { return ""; } m_trace.tmp_data_ptr += retval + 1; return str; } char *trace_array(const uint8_t *buf, uint16_t len) { int i, retval, bLeft = tmp_data_left(); char *str, *wptr; str = m_trace.tmp_data_ptr; if (str == NULL) { return ""; } if (buf == NULL) { return "<null>"; } wptr = str; wptr[0] = 0; const uint8_t *ptr = buf; for (i = 0; i < len; i++) { if (bLeft <= 0) { break; } retval = snprintf(wptr, bLeft, "%02x:", *ptr++); if (retval <= 0 || retval > bLeft) { break; } bLeft -= retval; wptr += retval; } if (wptr > str) { *(wptr - 1) = 0; //null to replace last ':' character } m_trace.tmp_data_ptr = wptr; return str; } // rest of debug print functions will be obsolete and will be overridden with new trace interface.. void debugf(const char *fmt, ...) { va_list ap; va_start(ap, fmt); vprintf(fmt, ap); va_end(ap); } void debug(const char *s) { fputs(s, stdout); } void debug_put(char c) { putchar(c); } void debug_hex(uint8_t x) { printf("%02x", x); } void debug_int(int i) { printf("%d", i); } void printf_array(const void *buf , uint16_t len) { int i; const uint8_t *ptr = buf; for (i = 0; i < len; i++) { if (i && (0 == i % 16)) { putchar('\n'); } printf("%02x:", *ptr++); } putchar('\n'); } void printf_ipv6_address(const void *addr_ptr) { char buf[40] = {0}; ip6tos(addr_ptr, buf); printf("%s\n", buf); } void printf_string(const void *ptr, uint16_t len) { printf("%.*s\n", len, (const char *)ptr); }