am "additional HAL APIs"

merged from goog/mirror-m-wireless-internal-release
47fb7ab additional HAL APIs

Change-Id: I359141b6d11093441d430071f020bf140a13e866

include/hardware_legacy/link_layer_stats.h

@@ -12,21 +12,6 @@ extern "C"
 #define STATS_MINOR_VERSION      0
 #define STATS_MICRO_VERSION      0
 
-typedef int wifi_radio;
-typedef int wifi_channel;
-
-/* channel operating width */
-typedef enum {
-   WIFI_CHAN_WIDTH_20    = 0,
-   WIFI_CHAN_WIDTH_40    = 1,
-   WIFI_CHAN_WIDTH_80    = 2,
-   WIFI_CHAN_WIDTH_160   = 3,
-   WIFI_CHAN_WIDTH_80P80 = 4,
-   WIFI_CHAN_WIDTH_5     = 5,
-   WIFI_CHAN_WIDTH_10    = 6,
-   WIFI_CHAN_WIDTH_INVALID = -1
-} wifi_channel_width;
-
 typedef enum {
     WIFI_DISCONNECTED = 0,
     WIFI_AUTHENTICATING = 1,

include/hardware_legacy/wifi_hal.h

@@ -23,6 +23,29 @@ extern "C"
 #endif
 #include <stdint.h>
 
+/* WiFi Common definitions */
+/* channel operating width */
+typedef enum {
+   WIFI_CHAN_WIDTH_20    = 0,
+   WIFI_CHAN_WIDTH_40    = 1,
+   WIFI_CHAN_WIDTH_80    = 2,
+   WIFI_CHAN_WIDTH_160   = 3,
+   WIFI_CHAN_WIDTH_80P80 = 4,
+   WIFI_CHAN_WIDTH_5     = 5,
+   WIFI_CHAN_WIDTH_10    = 6,
+   WIFI_CHAN_WIDTH_INVALID = -1
+} wifi_channel_width;
+
+typedef int wifi_radio;
+typedef int wifi_channel;
+
+typedef struct {
+    wifi_channel_width width;
+    int center_frequency0;
+    int center_frequency1;
+    int primary_frequency;
+} wifi_channel_spec;
+
 typedef enum {
     WIFI_SUCCESS = 0,
     WIFI_ERROR_NONE = 0,

include/hardware_legacy/wifi_logger.h

@@ -12,6 +12,27 @@ extern "C"
 #define LOGGER_MINOR_VERSION      0
 #define LOGGER_MICRO_VERSION      0
 
+
+
+/**
+ * WiFi logger life cycle is as follow:
+ *
+ * - at initialization time, framework will call wifi_get_ring_buffers_status so as to obtain the
+ * names and list of supported buffers
+ * - when WiFi operation start framework will call wifi_start_logging so as to trigger log collection
+ * - Developper UI will provide an option to the user, so as it can set the verbose level of individual buffer
+ *    as reported by wifi_get_ring_buffers_status
+ * - during wifi operations, driver will periodically report per ring data to framework by invoking the
+ *    on_ring_buffer_data call back
+ * - when capturing a bug report, framework will indicate to driver that all the data has to be uploaded,
+ *   urgently, by calling wifi_get_ring_data
+ *
+ * The data uploaded by driver will be stored by framework in separate files, with one stream of file per ring.
+ * Framework will store the files in pcapng format, allowing for easy merging and parsing with network
+ * analyzer tools.
+ */
+
+
 typedef int wifi_radio;
 typedef int wifi_ring_buffer_id;
 
@@ -71,31 +92,78 @@ static char per_packet_status_ring_name[] = "wifi_per_packet_status"; // Ring bu
                                                             // with EAPOL index 1-4
 #define WIFI_EVENT_FW_EAPOL_FRAME_RECEIVED 24 // with rate, regardless of the fact that EAPOL frame
                                            // is accepted or rejected by firmware
-#define WIFI_EVENT_DRIVER_EAPOL_FRAME_RECEIVED 26 // with rate, and eapol index, driver has received EAPOL
-                                                    //frame and will queue it up to wpa_supplicant
+#define WIFI_EVENT_DRIVER_EAPOL_FRAME_RECEIVED 26 // with rate, and eapol index, driver has received
+                                                  // EAPOL frame and will queue it up to wpa_supplicant
 #define WIFI_EVENT_BLOCK_ACK_NEGOTIATION_COMPLETE 27 // with success/failure, parameters
 #define WIFI_EVENT_BT_COEX_BT_SCO_START 28
 #define WIFI_EVENT_BT_COEX_BT_SCO_STOP 29
-#define WIFI_EVENT_BT_COEX_BT_SCAN_START 30 // for paging/scan etc..., when BT starts transmiting twice per BT slot
+#define WIFI_EVENT_BT_COEX_BT_SCAN_START 30 // for paging/scan etc..., when BT starts transmiting
+                                            //    twice per BT slot
 #define WIFI_EVENT_BT_COEX_BT_SCAN_STOP 31
 #define WIFI_EVENT_BT_COEX_BT_HID_START 32
 #define WIFI_EVENT_BT_COEX_BT_HID_STOP 33
 #define WIFI_EVENT_ROAM_AUTH_STARTED 34 // firmware sends auth frame in roaming to next candidate
 #define WIFI_EVENT_ROAM_AUTH_COMPLETE 35 // firmware receive auth confirm from ap
-#define WIFI_EVENT_ROAM_ASSOC_STARTED 36 // firmware sends assoc/reassoc frame in roaming to next candidate
+#define WIFI_EVENT_ROAM_ASSOC_STARTED 36 // firmware sends assoc/reassoc frame in
+                                         //     roaming to next candidate
 #define WIFI_EVENT_ROAM_ASSOC_COMPLETE 37 // firmware receive assoc/reassoc confirm from ap
 
 
+
+// Parameters of wifi logger events are TLVs
+// Event parameters tags are defined as:
+#define WIFI_TAG_VENDOR_SPECIFIC 0 // take a byte stream as parameter
+#define WIFI_TAG_BSSID 1 // takes a 6 bytes MAC address as parameter
+#define WIFI_TAG_ADDR 2 // takes a 6 bytes MAC address as parameter
+#define WIFI_TAG_SSID 3 // takes a 32 bytes SSID address as parameter
+#define WIFI_TAG_STATUS 4 // takes an integer as parameter
+#define WIFI_TAG_CHANNEL_SPEC 5 // takes one or more wifi_channel_spec as parameter
+#define WIFI_TAG_WAKE_LOCK_EVENT 6 // takes a wake_lock_event struct as parameter
+#define WIFI_TAG_ADDR1 7 // takes a 6 bytes MAC address as parameter
+#define WIFI_TAG_ADDR2 8 // takes a 6 bytes MAC address as parameter
+#define WIFI_TAG_ADDR3 9 // takes a 6 bytes MAC address as parameter
+#define WIFI_TAG_ADDR4 10 // takes a 6 bytes MAC address as parameter
+#define WIFI_TAG_TSF 11 // take a 64 bits TSF value as parameter
+#define WIFI_TAG_IE 12  // take one or more specific 802.11 IEs parameter, IEs are in turn indicated
+                        // in TLV format as per 802.11 spec
+#define WIFI_TAG_INTERFACE 13 // take interface name as parameter
+#define WIFI_TAG_REASON_CODE 14 // take a reason code as per 802.11 as parameter
+#define WIFI_TAG_RATE_MBPS 15 // take a wifi rate in 0.5 mbps
+
+typedef struct {
+    u16 tag;
+    u16 length; // length of value
+    u8 value[0];
+} tlv_log;
+
 typedef struct {
     u16 event;
-    u8 event_data[0]; // separate parameter structure per event to be provided and optional data
-                        // the event_data is expected to include an official android part, with some parameter
-                        // as transmit rate, num retries, num scan result found etc...
-                        // as well, event_data can include a vendor proprietary part which is understood
-                        // by the developer only.
+    tlv_log tlvs[0];    // separate parameter structure per event to be provided and optional data
+                        // the event_data is expected to include an official android part, with some
+                        // parameter as transmit rate, num retries, num scan result found etc...
+                        // as well, event_data can include a vendor proprietary part which is
+                        // understood by the developer only.
 } wifi_ring_buffer_driver_connectivity_event;
 
-static char connectivity_event_ring_name[] = "wifi_connectivity_events"; //ring buffer name for connectivity events ring
+// Ring buffer name for connectivity events ring
+static char connectivity_event_ring_name[] = "wifi_connectivity_events";
+
+// Ring buffer name for power events ring. note that power event are extremely frequents
+// and thus should be stored in their own ring/file so as not to clobber connectivity events
+
+typedef struct {
+    int status;   // 0 taken, 1 released
+    int reason;   // reason why this wake lock is taken
+    char name[0]; // null terminated
+} wake_lock_event;
+
+typedef struct {
+    u16 event;
+    tlv_log tlvs[0];
+} wifi_power_event;
+
+static char power_event_ring_name[] = "wifi_power_events";
+
 
 /**
  * This structure represent a logger entry within a ring buffer.
@@ -122,13 +190,13 @@ typedef struct {
     u64 timestamp; //present if has_timestamp bit is set.
     union {
         u8 data[0];
-        wifi_ring_buffer_driver_connectivity_event connectivity_event[0];
-        wifi_ring_per_packet_status_entry packet_status[0];
+        wifi_ring_buffer_driver_connectivity_event connectivity_event;
+        wifi_ring_per_packet_status_entry packet_status;
         };
 } wifi_ring_buffer_entry;
 
-#define WIFI_RING_BUFFER_FLAG_HAS_BINARY_ENTRIES         0x00000001     // set if binary entries are present
-#define WIFI_RING_BUFFER_FLAG_HAS_ASCII_ENTRIES          0x00000002     // set if ascii entries are present
+#define WIFI_RING_BUFFER_FLAG_HAS_BINARY_ENTRIES 0x00000001     // set if binary entries are present
+#define WIFI_RING_BUFFER_FLAG_HAS_ASCII_ENTRI    0x00000002     // set if ascii entries are present
 
 /* ring buffer params */
 /**
@@ -153,36 +221,50 @@ typedef struct {
 /**
  * Callback for reporting ring data
  *
- * The ring buffer data collection supports 2 modes:
- *   - polling : framework periodically calls wifi_get_ringdata()
- *   - event based: driver calls on_ring_buffer_data when new records are available
+ * The ring buffer data collection is event based:
+ *    - driver calls on_ring_buffer_data when new records are available, the wifi_ring_buffer_status
+ *      passed up to framework in the call back indicates to framework if more data is available in
+ *      the ring buffer. It is not expected that driver will necessarily always empty the ring
+ *      immediately as data is available, instead driver will report data every X seconds or if
+ *      N bytes are available.
+ *    - in the case where a bug report has to be captured, framework will require driver to upload
+ *      all data immediately. This is indicated to driver when framework calls wifi_get_ringdata.
+ *      When framework calls wifi_get_ring_data, driver will start sending all available data in the
+ *      indicated ring by repeatedly invoking the on_ring_buffer_data callback
  *
  * The callback is called by driver whenever new data is
  */
 typedef struct {
-  void (*on_ring_buffer_data) (wifi_request_id id, wifi_ring_buffer_id ring_id, char * buffer, int buffer_size, wifi_ring_buffer_status *status);
+  void (*on_ring_buffer_data) (wifi_request_id id, wifi_ring_buffer_id ring_id, char *buffer, int buffer_size, wifi_ring_buffer_status *status);
 } wifi_ring_buffer_data_handler;
 
 
+/* api for framework to indicate driver has to upload and drain all data of a given ring */
+wifi_error wifi_get_ring_data(wifi_request_id id,
+        wifi_interface_handle iface, wifi_ring_buffer_id ring_id);
+
 
 /**
  * API to trigger the debug collection.
  *  Unless his API is invoked - logging is not triggered.
  *  - verbose_level 0 corresponds to no collection
- *  - verbose_level 1+ are TBD, with increasing level of logging
+ *  - verbose_level 1 correspond to normal log level, with minimal user impact. this is the default value
+ *  - verbose_level 2 are enabled when user is lazily trying to reproduce a problem, wifi performances and power
+ *     can be impacted but device should not otherwise be significantly impacted
+ *  - verbose_level 3+ are used when trying to actively debug a problem
  *
  * buffer_name represent the name of the ring for which data collection shall start.
+ *
+ * flags: TBD parameter used to enable/disable specific events on a ring
+ * max_interval: maximum interval in seconds for driver to invoke on_ring_buffer_data, ignore if zero
+ * min_data_size: minimum data size in buffer for driver to invoke on_ring_buffer_data, ignore if zero
  */
-wifi_error wifi_set_logging_level(wifi_interface_handle iface, u32 verbose_level, u8 * buffer_name, wifi_ring_buffer_data_handler handler);
 
-/* callback for reporting ring buffer status */
-typedef struct {
-  void (*on_ring_buffer_status_results) (wifi_request_id id, u32 num_buffers, wifi_ring_buffer_status *status);
-} wifi_ring_buffer_status_result_handler;
+wifi_error wifi_start_logging(wifi_interface_handle iface, u32 verbose_level, u32 flags, u32 max_interval_sec, u32 min_data_size, u8 *buffer_name, wifi_ring_buffer_data_handler handler);
 
-/* api to get the status of a ring buffer */
-wifi_error wifi_get_ring_buffer_status(wifi_request_id id,
-        wifi_interface_handle iface, wifi_ring_buffer_id ring_id, wifi_ring_buffer_status_result_handler handler);
+/* api to get the status of all ring buffers supported by driver */
+wifi_error wifi_get_ring_buffers_status(wifi_request_id id,
+        wifi_interface_handle iface, u32 num_buffers, wifi_ring_buffer_status *status);
 
 /* api to collect a firmware memory dump for a given iface */
 wifi_error wifi_get_firmware_memory_dump(wifi_request_id id,
@@ -196,15 +278,6 @@ wifi_error wifi_get_firmware_version(wifi_request_id id,
 wifi_error wifi_get_driver_version(wifi_request_id id,
         wifi_interface_handle iface, char * buffer, int buffer_size);
 
-/* api to collect driver records */
-wifi_error wifi_get_ringdata(wifi_request_id id,
-        wifi_interface_handle iface, wifi_ring_buffer_id ring_id);
-
-/* api to collect driver records */
-wifi_error wifi_get_ringdata(wifi_request_id id,
-        wifi_interface_handle iface, wifi_ring_buffer_id ring_id);
-
-
 /* Feature set */
 #define WIFI_LOGGER_MEMORY_DUMP_SUPPORTED 1
 #define WIFI_LOGGER_PER_PACKET_TX_RX_STATUS_SUPPORTED 2