/* * Copyright (C) 2016 The Android Open Source Project * * 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 #include #include #include #include #include #include #include #include #include "log_portability.h" #define MAX_EVENT_PAYLOAD (LOGGER_ENTRY_MAX_PAYLOAD - sizeof(int32_t)) typedef struct { uint32_t tag; unsigned pos; /* Read/write position into buffer */ unsigned count[ANDROID_MAX_LIST_NEST_DEPTH + 1]; /* Number of elements */ unsigned list[ANDROID_MAX_LIST_NEST_DEPTH + 1]; /* pos for list counter */ unsigned list_nest_depth; unsigned len; /* Length or raw buffer. */ bool overflow; bool list_stop; /* next call decrement list_nest_depth and issue a stop */ enum { kAndroidLoggerRead = 1, kAndroidLoggerWrite = 2, } read_write_flag; uint8_t storage[LOGGER_ENTRY_MAX_PAYLOAD]; } android_log_context_internal; LIBLOG_ABI_PUBLIC android_log_context create_android_logger(uint32_t tag) { size_t needed, i; android_log_context_internal *context; context = calloc(1, sizeof(android_log_context_internal)); if (!context) { return NULL; } context->tag = tag; context->read_write_flag = kAndroidLoggerWrite; needed = sizeof(uint8_t) + sizeof(uint8_t); if ((context->pos + needed) > MAX_EVENT_PAYLOAD) { context->overflow = true; } /* Everything is a list */ context->storage[context->pos + 0] = EVENT_TYPE_LIST; context->list[0] = context->pos + 1; context->pos += needed; return (android_log_context)context; } LIBLOG_ABI_PUBLIC android_log_context create_android_log_parser( const char *msg, size_t len) { android_log_context_internal *context; size_t i; context = calloc(1, sizeof(android_log_context_internal)); if (!context) { return NULL; } len = (len <= MAX_EVENT_PAYLOAD) ? len : MAX_EVENT_PAYLOAD; context->len = len; memcpy(context->storage, msg, len); context->read_write_flag = kAndroidLoggerRead; return (android_log_context)context; } LIBLOG_ABI_PUBLIC int android_log_destroy(android_log_context *ctx) { android_log_context_internal *context; context = (android_log_context_internal *)*ctx; if (!context) { return -EBADF; } memset(context, 0, sizeof(*context)); free(context); *ctx = NULL; return 0; } LIBLOG_ABI_PUBLIC int android_log_write_list_begin(android_log_context ctx) { size_t needed; android_log_context_internal *context; context = (android_log_context_internal *)ctx; if (!context || (kAndroidLoggerWrite != context->read_write_flag)) { return -EBADF; } if (context->list_nest_depth > ANDROID_MAX_LIST_NEST_DEPTH) { context->overflow = true; return -EOVERFLOW; } needed = sizeof(uint8_t) + sizeof(uint8_t); if ((context->pos + needed) > MAX_EVENT_PAYLOAD) { context->overflow = true; return -EIO; } context->count[context->list_nest_depth]++; context->list_nest_depth++; if (context->list_nest_depth > ANDROID_MAX_LIST_NEST_DEPTH) { context->overflow = true; return -EOVERFLOW; } if (context->overflow) { return -EIO; } context->storage[context->pos + 0] = EVENT_TYPE_LIST; context->storage[context->pos + 1] = 0; context->list[context->list_nest_depth] = context->pos + 1; context->count[context->list_nest_depth] = 0; context->pos += needed; return 0; } static inline void copy4LE(uint8_t *buf, uint32_t val) { buf[0] = val & 0xFF; buf[1] = (val >> 8) & 0xFF; buf[2] = (val >> 16) & 0xFF; buf[3] = (val >> 24) & 0xFF; } LIBLOG_ABI_PUBLIC int android_log_write_int32(android_log_context ctx, int32_t value) { size_t needed; android_log_context_internal *context; context = (android_log_context_internal *)ctx; if (!context || (kAndroidLoggerWrite != context->read_write_flag)) { return -EBADF; } if (context->overflow) { return -EIO; } needed = sizeof(uint8_t) + sizeof(value); if ((context->pos + needed) > MAX_EVENT_PAYLOAD) { context->overflow = true; return -EIO; } context->count[context->list_nest_depth]++; context->storage[context->pos + 0] = EVENT_TYPE_INT; copy4LE(&context->storage[context->pos + 1], value); context->pos += needed; return 0; } static inline void copy8LE(uint8_t *buf, uint64_t val) { buf[0] = val & 0xFF; buf[1] = (val >> 8) & 0xFF; buf[2] = (val >> 16) & 0xFF; buf[3] = (val >> 24) & 0xFF; buf[4] = (val >> 32) & 0xFF; buf[5] = (val >> 40) & 0xFF; buf[6] = (val >> 48) & 0xFF; buf[7] = (val >> 56) & 0xFF; } LIBLOG_ABI_PUBLIC int android_log_write_int64(android_log_context ctx, int64_t value) { size_t needed; android_log_context_internal *context; context = (android_log_context_internal *)ctx; if (!context || (kAndroidLoggerWrite != context->read_write_flag)) { return -EBADF; } if (context->overflow) { return -EIO; } needed = sizeof(uint8_t) + sizeof(value); if ((context->pos + needed) > MAX_EVENT_PAYLOAD) { context->overflow = true; return -EIO; } context->count[context->list_nest_depth]++; context->storage[context->pos + 0] = EVENT_TYPE_LONG; copy8LE(&context->storage[context->pos + 1], value); context->pos += needed; return 0; } LIBLOG_ABI_PUBLIC int android_log_write_string8_len(android_log_context ctx, const char *value, size_t maxlen) { size_t needed; ssize_t len; android_log_context_internal *context; context = (android_log_context_internal *)ctx; if (!context || (kAndroidLoggerWrite != context->read_write_flag)) { return -EBADF; } if (context->overflow) { return -EIO; } if (!value) { value = ""; } len = strnlen(value, maxlen); needed = sizeof(uint8_t) + sizeof(int32_t) + len; if ((context->pos + needed) > MAX_EVENT_PAYLOAD) { /* Truncate string for delivery */ len = MAX_EVENT_PAYLOAD - context->pos - 1 - sizeof(int32_t); if (len <= 0) { context->overflow = true; return -EIO; } } context->count[context->list_nest_depth]++; context->storage[context->pos + 0] = EVENT_TYPE_STRING; copy4LE(&context->storage[context->pos + 1], len); if (len) { memcpy(&context->storage[context->pos + 5], value, len); } context->pos += needed; return len; } LIBLOG_ABI_PUBLIC int android_log_write_string8(android_log_context ctx, const char *value) { return android_log_write_string8_len(ctx, value, MAX_EVENT_PAYLOAD); } LIBLOG_ABI_PUBLIC int android_log_write_float32(android_log_context ctx, float value) { size_t needed; uint32_t ivalue; android_log_context_internal *context; context = (android_log_context_internal *)ctx; if (!context || (kAndroidLoggerWrite != context->read_write_flag)) { return -EBADF; } if (context->overflow) { return -EIO; } needed = sizeof(uint8_t) + sizeof(ivalue); if ((context->pos + needed) > MAX_EVENT_PAYLOAD) { context->overflow = true; return -EIO; } ivalue = *(uint32_t *)&value; context->count[context->list_nest_depth]++; context->storage[context->pos + 0] = EVENT_TYPE_FLOAT; copy4LE(&context->storage[context->pos + 1], ivalue); context->pos += needed; return 0; } LIBLOG_ABI_PUBLIC int android_log_write_list_end(android_log_context ctx) { android_log_context_internal *context; context = (android_log_context_internal *)ctx; if (!context || (kAndroidLoggerWrite != context->read_write_flag)) { return -EBADF; } if (context->list_nest_depth > ANDROID_MAX_LIST_NEST_DEPTH) { context->overflow = true; context->list_nest_depth--; return -EOVERFLOW; } if (!context->list_nest_depth) { context->overflow = true; return -EOVERFLOW; } if (context->list[context->list_nest_depth] <= 0) { context->list_nest_depth--; context->overflow = true; return -EOVERFLOW; } context->storage[context->list[context->list_nest_depth]] = context->count[context->list_nest_depth]; context->list_nest_depth--; return 0; } /* * Logs the list of elements to the event log. */ LIBLOG_ABI_PUBLIC int android_log_write_list(android_log_context ctx, log_id_t id) { android_log_context_internal *context; const char *msg; ssize_t len; if ((id != LOG_ID_EVENTS) && (id != LOG_ID_SECURITY)) { return -EINVAL; } context = (android_log_context_internal *)ctx; if (!context || (kAndroidLoggerWrite != context->read_write_flag)) { return -EBADF; } if (context->list_nest_depth) { return -EIO; } /* NB: if there was overflow, then log is truncated. Nothing reported */ context->storage[1] = context->count[0]; len = context->len = context->pos; msg = (const char *)context->storage; /* it'snot a list */ if (context->count[0] <= 1) { len -= sizeof(uint8_t) + sizeof(uint8_t); if (len < 0) { len = 0; } msg += sizeof(uint8_t) + sizeof(uint8_t); } return (id == LOG_ID_EVENTS) ? __android_log_bwrite(context->tag, msg, len) : __android_log_security_bwrite(context->tag, msg, len); } /* * Extract a 4-byte value from a byte stream. */ static inline uint32_t get4LE(const uint8_t* src) { return src[0] | (src[1] << 8) | (src[2] << 16) | (src[3] << 24); } /* * Extract an 8-byte value from a byte stream. */ static inline uint64_t get8LE(const uint8_t* src) { uint32_t low = src[0] | (src[1] << 8) | (src[2] << 16) | (src[3] << 24); uint32_t high = src[4] | (src[5] << 8) | (src[6] << 16) | (src[7] << 24); return ((uint64_t) high << 32) | (uint64_t) low; } /* * Gets the next element. Parsing errors result in an EVENT_TYPE_UNKNOWN type. * If there is nothing to process, the complete field is set to non-zero. If * an EVENT_TYPE_UNKNOWN type is returned once, and the caller does not check * this and continues to call this function, the behavior is undefined * (although it won't crash). */ static android_log_list_element android_log_read_next_internal( android_log_context ctx, int peek) { android_log_list_element elem; unsigned pos; android_log_context_internal *context; context = (android_log_context_internal *)ctx; memset(&elem, 0, sizeof(elem)); /* Nothing to parse from this context, so return complete. */ if (!context || (kAndroidLoggerRead != context->read_write_flag) || (context->list_nest_depth > ANDROID_MAX_LIST_NEST_DEPTH) || (context->count[context->list_nest_depth] >= (MAX_EVENT_PAYLOAD / (sizeof(uint8_t) + sizeof(uint8_t))))) { elem.type = EVENT_TYPE_UNKNOWN; if (context && (context->list_stop || ((context->list_nest_depth <= ANDROID_MAX_LIST_NEST_DEPTH) && !context->count[context->list_nest_depth]))) { elem.type = EVENT_TYPE_LIST_STOP; } elem.complete = true; return elem; } /* * Use a different variable to update the position in case this * operation is a "peek". */ pos = context->pos; if (context->list_stop) { elem.type = EVENT_TYPE_LIST_STOP; elem.complete = !context->count[0] && (!context->list_nest_depth || ((context->list_nest_depth == 1) && !context->count[1])); if (!peek) { /* Suck in superfluous stop */ if (context->storage[pos] == EVENT_TYPE_LIST_STOP) { context->pos = pos + 1; } if (context->list_nest_depth) { --context->list_nest_depth; if (context->count[context->list_nest_depth]) { context->list_stop = false; } } else { context->list_stop = false; } } return elem; } if ((pos + 1) > context->len) { elem.type = EVENT_TYPE_UNKNOWN; elem.complete = true; return elem; } elem.type = context->storage[pos++]; switch ((int)elem.type) { case EVENT_TYPE_FLOAT: /* Rely on union to translate elem.data.int32 into elem.data.float32 */ /* FALLTHRU */ case EVENT_TYPE_INT: elem.len = sizeof(int32_t); if ((pos + elem.len) > context->len) { elem.type = EVENT_TYPE_UNKNOWN; return elem; } elem.data.int32 = get4LE(&context->storage[pos]); /* common tangeable object suffix */ pos += elem.len; elem.complete = !context->list_nest_depth && !context->count[0]; if (!peek) { if (!context->count[context->list_nest_depth] || !--(context->count[context->list_nest_depth])) { context->list_stop = true; } context->pos = pos; } return elem; case EVENT_TYPE_LONG: elem.len = sizeof(int64_t); if ((pos + elem.len) > context->len) { elem.type = EVENT_TYPE_UNKNOWN; return elem; } elem.data.int64 = get8LE(&context->storage[pos]); /* common tangeable object suffix */ pos += elem.len; elem.complete = !context->list_nest_depth && !context->count[0]; if (!peek) { if (!context->count[context->list_nest_depth] || !--(context->count[context->list_nest_depth])) { context->list_stop = true; } context->pos = pos; } return elem; case EVENT_TYPE_STRING: if ((pos + sizeof(int32_t)) > context->len) { elem.type = EVENT_TYPE_UNKNOWN; elem.complete = true; return elem; } elem.len = get4LE(&context->storage[pos]); pos += sizeof(int32_t); if ((pos + elem.len) > context->len) { elem.len = context->len - pos; /* truncate string */ elem.complete = true; if (!elem.len) { elem.type = EVENT_TYPE_UNKNOWN; return elem; } } elem.data.string = (char *)&context->storage[pos]; /* common tangeable object suffix */ pos += elem.len; elem.complete = !context->list_nest_depth && !context->count[0]; if (!peek) { if (!context->count[context->list_nest_depth] || !--(context->count[context->list_nest_depth])) { context->list_stop = true; } context->pos = pos; } return elem; case EVENT_TYPE_LIST: if ((pos + sizeof(uint8_t)) > context->len) { elem.type = EVENT_TYPE_UNKNOWN; elem.complete = true; return elem; } elem.complete = context->list_nest_depth >= ANDROID_MAX_LIST_NEST_DEPTH; if (peek) { return elem; } if (context->count[context->list_nest_depth]) { context->count[context->list_nest_depth]--; } context->list_stop = !context->storage[pos]; context->list_nest_depth++; if (context->list_nest_depth <= ANDROID_MAX_LIST_NEST_DEPTH) { context->count[context->list_nest_depth] = context->storage[pos]; } context->pos = pos + sizeof(uint8_t); return elem; case EVENT_TYPE_LIST_STOP: /* Suprise Newline terminates lists. */ if (!peek) { context->pos = pos; } elem.type = EVENT_TYPE_UNKNOWN; elem.complete = !context->list_nest_depth; if (context->list_nest_depth > 0) { elem.type = EVENT_TYPE_LIST_STOP; if (!peek) { context->list_nest_depth--; } } return elem; default: elem.type = EVENT_TYPE_UNKNOWN; return elem; } } LIBLOG_ABI_PUBLIC android_log_list_element android_log_read_next( android_log_context ctx) { return android_log_read_next_internal(ctx, 0); } LIBLOG_ABI_PUBLIC android_log_list_element android_log_peek_next( android_log_context ctx) { return android_log_read_next_internal(ctx, 1); }