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include/23-Mar-2024-2,2531,093

include_vndk/23-Mar-2024-1,040523

tests/23-Mar-2024-5,3944,029

.clang-formatD23-Mar-2024239

Android.bpD23-Mar-20244 KiB155144

NOTICED23-Mar-202410.4 KiB191158

OWNERSD23-Mar-202421 21

README.mdD23-Mar-20247.3 KiB162134

README.protocol.mdD23-Mar-20242.6 KiB9369

event.logtagsD23-Mar-20241.2 KiB3836

event_tag_map.cppD23-Mar-202418.9 KiB649509

liblog.map.txtD23-Mar-20242.6 KiB9688

log_event_list.cppD23-Mar-202416.5 KiB544452

log_event_write.cppD23-Mar-20241.4 KiB4927

log_time.cppD23-Mar-20242.7 KiB130104

logd_reader.cppD23-Mar-20248.5 KiB372277

logd_reader.hD23-Mar-2024916 329

logd_writer.cppD23-Mar-20245.9 KiB196128

logd_writer.hD23-Mar-2024782 255

logger.hD23-Mar-20241.3 KiB5221

logger_name.cppD23-Mar-20241.9 KiB7343

logger_read.cppD23-Mar-20243.9 KiB150100

logger_write.cppD23-Mar-202413.9 KiB520377

logger_write.hD23-Mar-2024684 223

logprint.cppD23-Mar-202450 KiB1,7491,317

pmsg_reader.cppD23-Mar-202413.2 KiB472372

pmsg_reader.hD23-Mar-2024851 308

pmsg_writer.cppD23-Mar-20246.3 KiB248159

pmsg_writer.hD23-Mar-2024782 255

properties.cppD23-Mar-202414.7 KiB533393

uio.hD23-Mar-2024763 2810

README.md

1Android liblog
2--------------
3
4Public Functions and Macros
5---------------------------
6
7    /*
8     * Please limit to 24 characters for runtime is loggable,
9     * 16 characters for persist is loggable, and logcat pretty
10     * alignment with limit of 7 characters.
11    */
12    #define LOG_TAG "yourtag"
13    #include <log/log.h>
14
15    ALOG(android_priority, tag, format, ...)
16    IF_ALOG(android_priority, tag)
17    LOG_PRI(priority, tag, format, ...)
18    LOG_PRI_VA(priority, tag, format, args)
19    #define LOG_TAG NULL
20    ALOGV(format, ...)
21    SLOGV(format, ...)
22    RLOGV(format, ...)
23    ALOGV_IF(cond, format, ...)
24    SLOGV_IF(cond, format, ...)
25    RLOGV_IF(cond, format, ...)
26    IF_ALOGC()
27    ALOGD(format, ...)
28    SLOGD(format, ...)
29    RLOGD(format, ...)
30    ALOGD_IF(cond, format, ...)
31    SLOGD_IF(cond, format, ...)
32    RLOGD_IF(cond, format, ...)
33    IF_ALOGD()
34    ALOGI(format, ...)
35    SLOGI(format, ...)
36    RLOGI(format, ...)
37    ALOGI_IF(cond, format, ...)
38    SLOGI_IF(cond, format, ...)
39    RLOGI_IF(cond, format, ...)
40    IF_ALOGI()
41    ALOGW(format, ...)
42    SLOGW(format, ...)
43    RLOGW(format, ...)
44    ALOGW_IF(cond, format, ...)
45    SLOGW_IF(cond, format, ...)
46    RLOGW_IF(cond, format, ...)
47    IF_ALOGW()
48    ALOGE(format, ...)
49    SLOGE(format, ...)
50    RLOGE(format, ...)
51    ALOGE_IF(cond, format, ...)
52    SLOGE_IF(cond, format, ...)
53    RLOGE_IF(cond, format, ...)
54    IF_ALOGE()
55    LOG_FATAL(format, ...)
56    LOG_ALWAYS_FATAL(format, ...)
57    LOG_FATAL_IF(cond, format, ...)
58    LOG_ALWAYS_FATAL_IF(cond, format, ...)
59    ALOG_ASSERT(cond, format, ...)
60    LOG_EVENT_INT(tag, value)
61    LOG_EVENT_LONG(tag, value)
62
63    log_id_t android_logger_get_id(struct logger *logger)
64    int android_logger_clear(struct logger *logger)
65    int android_logger_get_log_size(struct logger *logger)
66    int android_logger_get_log_readable_size(struct logger *logger)
67    int android_logger_get_log_version(struct logger *logger)
68
69    struct logger_list *android_logger_list_alloc(int mode, unsigned int tail, pid_t pid)
70    struct logger *android_logger_open(struct logger_list *logger_list, log_id_t id)
71    struct logger_list *android_logger_list_open(log_id_t id, int mode, unsigned int tail, pid_t pid)
72    int android_logger_list_read(struct logger_list *logger_list, struct log_msg *log_msg)
73    void android_logger_list_free(struct logger_list *logger_list)
74
75    log_id_t android_name_to_log_id(const char *logName)
76    const char *android_log_id_to_name(log_id_t log_id)
77
78    android_log_context create_android_logger(uint32_t tag)
79
80    int android_log_write_list_begin(android_log_context ctx)
81    int android_log_write_list_end(android_log_context ctx)
82
83    int android_log_write_int32(android_log_context ctx, int32_t value)
84    int android_log_write_int64(android_log_context ctx, int64_t value)
85    int android_log_write_string8(android_log_context ctx, const char *value)
86    int android_log_write_string8_len(android_log_context ctx, const char *value, size_t maxlen)
87    int android_log_write_float32(android_log_context ctx, float value)
88
89    int android_log_write_list(android_log_context ctx, log_id_t id = LOG_ID_EVENTS)
90
91    android_log_context create_android_log_parser(const char *msg, size_t len)
92    android_log_list_element android_log_read_next(android_log_context ctx)
93    android_log_list_element android_log_peek_next(android_log_context ctx)
94
95    int android_log_destroy(android_log_context *ctx)
96
97Description
98-----------
99
100liblog represents an interface to the volatile Android Logging system for NDK (Native) applications
101and libraries.  Interfaces for either writing or reading logs.  The log buffers are divided up in
102Main, System, Radio and Events sub-logs.
103
104The logging interfaces are a series of macros, all of which can be overridden individually in order
105to control the verbosity of the application or library.  `[ASR]LOG[VDIWE]` calls are used to log to
106BAsic, System or Radio sub-logs in either the Verbose, Debug, Info, Warning or Error priorities.
107`[ASR]LOG[VDIWE]_IF` calls are used to perform thus based on a condition being true.
108`IF_ALOG[VDIWE]` calls are true if the current `LOG_TAG` is enabled at the specified priority.
109`LOG_ALWAYS_FATAL` is used to `ALOG` a message, then kill the process.  `LOG_FATAL` call is a
110variant of `LOG_ALWAYS_FATAL`, only enabled in engineering, and not release builds.  `ALOG_ASSERT`
111is used to `ALOG` a message if the condition is false; the condition is part of the logged message.
112`LOG_EVENT_(INT|LONG)` is used to drop binary content into the Events sub-log.
113
114The log reading interfaces permit opening the logs either singly or multiply, retrieving a log entry
115at a time in time sorted order, optionally limited to a specific pid and tail of the log(s) and
116finally a call closing the logs.  A single log can be opened with `android_logger_list_open()`; or
117multiple logs can be opened with `android_logger_list_alloc()`, calling in turn the
118`android_logger_open()` for each log id.  Each entry can be retrieved with
119`android_logger_list_read()`.  The log(s) can be closed with `android_logger_list_free()`.
120`ANDROID_LOG_NONBLOCK` mode will report when the log reading is done with an `EAGAIN` error return
121code, otherwise the `android_logger_list_read()` call will block for new entries.
122
123The `ANDROID_LOG_WRAP` mode flag to the `android_logger_list_alloc_time()` signals logd to quiesce
124the reader until the buffer is about to prune at the start time then proceed to dumping content.
125
126The `ANDROID_LOG_PSTORE` mode flag to the `android_logger_open()` is used to switch from the active
127logs to the persistent logs from before the last reboot.
128
129The value returned by `android_logger_open()` can be used as a parameter to the
130`android_logger_clear()` function to empty the sub-log.
131
132The value returned by `android_logger_open()` can be used as a parameter to the
133`android_logger_get_log_(size|readable_size|version)` to retrieve the sub-log maximum size, readable
134size and log buffer format protocol version respectively.  `android_logger_get_id()` returns the id
135that was used when opening the sub-log.
136
137Errors
138------
139
140If messages fail, a negative error code will be returned to the caller.
141
142The `-ENOTCONN` return code indicates that the logger daemon is stopped.
143
144The `-EBADF` return code indicates that the log access point can not be opened, or the log buffer id
145is out of range.
146
147For the `-EAGAIN` return code, this means that the logging message was temporarily backed-up either
148because of Denial Of Service (DOS) logging pressure from some chatty application or service in the
149Android system, or if too small of a value is set in /proc/sys/net/unix/max_dgram_qlen.  To aid in
150diagnosing the occurence of this, a binary event from liblog will be sent to the log daemon once a
151new message can get through indicating how many messages were dropped as a result.  Please take
152action to resolve the structural problems at the source.
153
154It is generally not advised for the caller to retry the `-EAGAIN` return code as this will only make
155the problem(s) worse and cause your application to temporarily drop to the logger daemon priority,
156BATCH scheduling policy and background task cgroup. If you require a group of messages to be passed
157atomically, merge them into one message with embedded newlines to the maximum length
158`LOGGER_ENTRY_MAX_PAYLOAD`.
159
160Other return codes from writing operation can be returned.  Since the library retries on `EINTR`,
161`-EINTR` should never be returned.
162

README.protocol.md

1# liblog -> logd
2
3The data that liblog sends to logd is represented below.
4
5    struct {
6        android_log_header_t header;
7        union {
8           struct {
9                char     prio;
10                char     tag[...];
11                char     message[...];
12            } string;
13            struct {
14                android_event_header_t event_header;
15                android_event_*_t      payload[...];
16            } binary;
17        };
18    };
19
20where the embedded structs are defined as:
21
22    struct android_log_header_t {
23        uint8_t id;
24        uint16_t tid;
25        log_time realtime;
26    };
27
28    struct log_time {
29        uint32_t tv_sec = 0;
30        uint32_t tv_nsec = 0;
31    }
32
33    struct android_event_header_t {
34        int32_t tag;
35    };
36
37    struct android_event_list_t {
38        int8_t type;  // EVENT_TYPE_LIST
39        int8_t element_count;
40    };
41
42    struct android_event_float_t {
43        int8_t type;  // EVENT_TYPE_FLOAT
44        float data;
45    };
46
47    struct android_event_int_t {
48        int8_t type;   // EVENT_TYPE_INT
49        int32_t data;
50    } android_event_int_t;
51
52    struct android_event_long_t {
53        int8_t type;   // EVENT_TYPE_LONG
54        int64_t data;
55    };
56
57    struct android_event_string_t {
58        int8_t type;     // EVENT_TYPE_STRING;
59        int32_t length;
60        char data[];
61    };
62
63The payload, excluding the header, has a max size of LOGGER_ENTRY_MAX_PAYLOAD.
64
65## header
66
67The header is added immediately before sending the log message to logd.
68
69## `string` payload
70
71The `string` part of the union is for normal buffers (main, system, radio, etc) and consists of a
72single character priority, followed by a variable length null terminated string for the tag, and
73finally a variable length null terminated string for the message.
74
75This payload is used for the `__android_log_buf_write()` family of functions.
76
77## `binary` payload
78
79The `binary` part of the union is for binary buffers (events, security, etc) and consists of an
80android_event_header_t struct followed by a variable number of android_event_*_t
81(android_event_list_t, android_event_int_t, etc) structs.
82
83If multiple android_event_*_t elements are present, then they must be in a list and the first
84element in payload must be an android_event_list_t.
85
86This payload is used for the `__android_log_bwrite()` family of functions. It is additionally used
87for `android_log_write_list()` and the related functions that manipulate event lists.
88
89# logd -> liblog
90
91logd sends a `logger_entry` struct to liblog followed by the payload. The payload is identical to
92the payloads defined above. The max size of the entire message from logd is LOGGER_ENTRY_MAX_LEN.
93