Home | History | Annotate | Download | only in src 
      1 /*
      2  * Copyright (c) 2013, The Linux Foundation. All rights reserved.
      3  * Not a Contribution.
      4  * Copyright 2012 The Android Open Source Project
      5  *
      6  * Licensed under the Apache License, Version 2.0 (the "License");
      7  * you may not use this file except in compliance with the License.
      8  * You may obtain a copy of the License at
      9  *
     10  *      http://www.apache.org/licenses/LICENSE-2.0
     11  *
     12  * Unless required by applicable law or agreed to in writing, software
     13  * distributed under the License is distributed on an "AS IS" BASIS,
     14  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     15  * See the License for the specific language governing permissions and
     16  * limitations under the License.
     17  */
     18 
     19 /******************************************************************************
     20  *
     21  *  Filename:      userial_vendor.c
     22  *
     23  *  Description:   Contains vendor-specific userial functions
     24  *
     25  ******************************************************************************/
     26 
     27 #define LOG_TAG "bt_vendor"
     28 
     29 #include <utils/Log.h>
     30 #include <termios.h>
     31 #include <fcntl.h>
     32 #include <errno.h>
     33 #include <stdio.h>
     34 #include <string.h>
     35 #include "bt_vendor_qcom.h"
     36 #include "hci_uart.h"
     37 
     38 
     39 /******************************************************************************
     40 **  Constants & Macros
     41 ******************************************************************************/
     42 
     43 #ifndef VNDUSERIAL_DBG
     44 #define VNDUSERIAL_DBG TRUE
     45 #endif
     46 
     47 #if (VNDUSERIAL_DBG == TRUE)
     48 #define VNDUSERIALDBG(param, ...) {ALOGI(param, ## __VA_ARGS__);}
     49 #else
     50 #define VNDUSERIALDBG(param, ...) {}
     51 #endif
     52 
     53 /******************************************************************************
     54 **  Global variables
     55 ******************************************************************************/
     56 vnd_userial_cb_t vnd_userial;
     57 
     58 /*****************************************************************************
     59 **   Functions
     60 *****************************************************************************/
     61 
     62 /*******************************************************************************
     63 **
     64 ** Function        userial_to_tcio_baud
     65 **
     66 ** Description     helper function converts USERIAL baud rates into TCIO
     67 **                  conforming baud rates
     68 **
     69 ** Returns         TRUE/FALSE
     70 **
     71 *******************************************************************************/
     72 uint8_t userial_to_tcio_baud(uint8_t cfg_baud, uint32_t *baud)
     73 {
     74     if (cfg_baud == USERIAL_BAUD_115200)
     75         *baud = B115200;
     76     else if (cfg_baud == USERIAL_BAUD_4M)
     77         *baud = B4000000;
     78     else if (cfg_baud == USERIAL_BAUD_3M)
     79         *baud = B3000000;
     80     else if (cfg_baud == USERIAL_BAUD_2M)
     81         *baud = B2000000;
     82     else if (cfg_baud == USERIAL_BAUD_1M)
     83         *baud = B1000000;
     84     else if (cfg_baud == USERIAL_BAUD_921600)
     85         *baud = B921600;
     86     else if (cfg_baud == USERIAL_BAUD_460800)
     87         *baud = B460800;
     88     else if (cfg_baud == USERIAL_BAUD_230400)
     89         *baud = B230400;
     90     else if (cfg_baud == USERIAL_BAUD_57600)
     91         *baud = B57600;
     92     else if (cfg_baud == USERIAL_BAUD_19200)
     93         *baud = B19200;
     94     else if (cfg_baud == USERIAL_BAUD_9600)
     95         *baud = B9600;
     96     else if (cfg_baud == USERIAL_BAUD_1200)
     97         *baud = B1200;
     98     else if (cfg_baud == USERIAL_BAUD_600)
     99         *baud = B600;
    100     else
    101     {
    102         ALOGE( "userial vendor open: unsupported baud idx %i", cfg_baud);
    103         *baud = B115200;
    104         return FALSE;
    105     }
    106 
    107     return TRUE;
    108 }
    109 
    110 /*******************************************************************************
    111 **
    112 ** Function        userial_to_baud_tcio
    113 **
    114 ** Description     helper function converts TCIO baud rate into integer
    115 **
    116 ** Returns         uint32_t
    117 **
    118 *******************************************************************************/
    119 int userial_tcio_baud_to_int(uint32_t baud)
    120 {
    121     int baud_rate =0;
    122 
    123     switch (baud)
    124     {
    125         case B600:
    126             baud_rate = 600;
    127             break;
    128         case B1200:
    129             baud_rate = 1200;
    130             break;
    131         case B9600:
    132             baud_rate = 9600;
    133             break;
    134         case B19200:
    135             baud_rate = 19200;
    136             break;
    137         case B57600:
    138             baud_rate = 57600;
    139             break;
    140         case B115200:
    141             baud_rate = 115200;
    142             break;
    143         case B230400:
    144             baud_rate = 230400;
    145             break;
    146         case B460800:
    147             baud_rate = 460800;
    148             break;
    149         case B921600:
    150             baud_rate = 921600;
    151             break;
    152         case B1000000:
    153             baud_rate = 1000000;
    154             break;
    155         case B2000000:
    156             baud_rate = 2000000;
    157             break;
    158         case B3000000:
    159             baud_rate = 3000000;
    160             break;
    161         case B4000000:
    162             baud_rate = 4000000;
    163             break;
    164         default:
    165             ALOGE( "%s: unsupported baud %d", __FUNCTION__, baud);
    166             break;
    167     }
    168 
    169     ALOGI( "%s: Current Baudrate = %d bps", __FUNCTION__, baud_rate);
    170     return baud_rate;
    171 }
    172 
    173 
    174 #if (BT_WAKE_VIA_USERIAL_IOCTL==TRUE)
    175 /*******************************************************************************
    176 **
    177 ** Function        userial_ioctl_init_bt_wake
    178 **
    179 ** Description     helper function to set the open state of the bt_wake if ioctl
    180 **                  is used. it should not hurt in the rfkill case but it might
    181 **                  be better to compile it out.
    182 **
    183 ** Returns         none
    184 **
    185 *******************************************************************************/
    186 void userial_ioctl_init_bt_wake(int fd)
    187 {
    188     uint32_t bt_wake_state;
    189 
    190     /* assert BT_WAKE through ioctl */
    191     ioctl(fd, USERIAL_IOCTL_BT_WAKE_ASSERT, NULL);
    192     ioctl(fd, USERIAL_IOCTL_BT_WAKE_GET_ST, &bt_wake_state);
    193     VNDUSERIALDBG("userial_ioctl_init_bt_wake read back BT_WAKE state=%i", \
    194                bt_wake_state);
    195 }
    196 #endif // (BT_WAKE_VIA_USERIAL_IOCTL==TRUE)
    197 
    198 
    199 /*****************************************************************************
    200 **   Userial Vendor API Functions
    201 *****************************************************************************/
    202 
    203 /*******************************************************************************
    204 **
    205 ** Function        userial_vendor_init
    206 **
    207 ** Description     Initialize userial vendor-specific control block
    208 **
    209 ** Returns         None
    210 **
    211 *******************************************************************************/
    212 void userial_vendor_init(void)
    213 {
    214     vnd_userial.fd = -1;
    215     snprintf(vnd_userial.port_name, VND_PORT_NAME_MAXLEN, "%s", BT_HS_UART_DEVICE);
    216 }
    217 
    218 /*******************************************************************************
    219 **
    220 ** Function        userial_vendor_open
    221 **
    222 ** Description     Open the serial port with the given configuration
    223 **
    224 ** Returns         device fd
    225 **
    226 *******************************************************************************/
    227 int userial_vendor_open(tUSERIAL_CFG *p_cfg)
    228 {
    229     uint32_t baud;
    230     uint8_t data_bits;
    231     uint16_t parity;
    232     uint8_t stop_bits;
    233 
    234     vnd_userial.fd = -1;
    235 
    236     if (!userial_to_tcio_baud(p_cfg->baud, &baud))
    237     {
    238         return -1;
    239     }
    240 
    241     if(p_cfg->fmt & USERIAL_DATABITS_8)
    242         data_bits = CS8;
    243     else if(p_cfg->fmt & USERIAL_DATABITS_7)
    244         data_bits = CS7;
    245     else if(p_cfg->fmt & USERIAL_DATABITS_6)
    246         data_bits = CS6;
    247     else if(p_cfg->fmt & USERIAL_DATABITS_5)
    248         data_bits = CS5;
    249     else
    250     {
    251         ALOGE("userial vendor open: unsupported data bits");
    252         return -1;
    253     }
    254 
    255     if(p_cfg->fmt & USERIAL_PARITY_NONE)
    256         parity = 0;
    257     else if(p_cfg->fmt & USERIAL_PARITY_EVEN)
    258         parity = PARENB;
    259     else if(p_cfg->fmt & USERIAL_PARITY_ODD)
    260         parity = (PARENB | PARODD);
    261     else
    262     {
    263         ALOGE("userial vendor open: unsupported parity bit mode");
    264         return -1;
    265     }
    266 
    267     if(p_cfg->fmt & USERIAL_STOPBITS_1)
    268         stop_bits = 0;
    269     else if(p_cfg->fmt & USERIAL_STOPBITS_2)
    270         stop_bits = CSTOPB;
    271     else
    272     {
    273         ALOGE("userial vendor open: unsupported stop bits");
    274         return -1;
    275     }
    276 
    277     ALOGI("userial vendor open: opening %s", vnd_userial.port_name);
    278 
    279     if ((vnd_userial.fd = open(vnd_userial.port_name, O_RDWR|O_NOCTTY)) == -1)
    280     {
    281         ALOGE("userial vendor open: unable to open %s", vnd_userial.port_name);
    282         return -1;
    283     }
    284 
    285     tcflush(vnd_userial.fd, TCIOFLUSH);
    286 
    287     tcgetattr(vnd_userial.fd, &vnd_userial.termios);
    288     cfmakeraw(&vnd_userial.termios);
    289 
    290     /* Set UART Control Modes */
    291     vnd_userial.termios.c_cflag |= CLOCAL;
    292     vnd_userial.termios.c_cflag |= (CRTSCTS | stop_bits);
    293 
    294     tcsetattr(vnd_userial.fd, TCSANOW, &vnd_userial.termios);
    295 
    296     /* set input/output baudrate */
    297     cfsetospeed(&vnd_userial.termios, baud);
    298     cfsetispeed(&vnd_userial.termios, baud);
    299     tcsetattr(vnd_userial.fd, TCSANOW, &vnd_userial.termios);
    300 
    301     tcflush(vnd_userial.fd, TCIOFLUSH);
    302 
    303 #if (BT_WAKE_VIA_USERIAL_IOCTL==TRUE)
    304     userial_ioctl_init_bt_wake(vnd_userial.fd);
    305 #endif
    306 
    307     ALOGI("device fd = %d open", vnd_userial.fd);
    308 
    309     return vnd_userial.fd;
    310 }
    311 
    312 /*******************************************************************************
    313 **
    314 ** Function        userial_vendor_close
    315 **
    316 ** Description     Conduct vendor-specific close work
    317 **
    318 ** Returns         None
    319 **
    320 *******************************************************************************/
    321 void userial_vendor_close(void)
    322 {
    323     int result;
    324 
    325     if (vnd_userial.fd == -1)
    326         return;
    327 
    328 #if (BT_WAKE_VIA_USERIAL_IOCTL==TRUE)
    329     /* de-assert bt_wake BEFORE closing port */
    330     ioctl(vnd_userial.fd, USERIAL_IOCTL_BT_WAKE_DEASSERT, NULL);
    331 #endif
    332 
    333     ALOGI("device fd = %d close", vnd_userial.fd);
    334 
    335     if ((result = close(vnd_userial.fd)) < 0)
    336         ALOGE( "close(fd:%d) FAILED result:%d", vnd_userial.fd, result);
    337 
    338     vnd_userial.fd = -1;
    339 }
    340 
    341 /*******************************************************************************
    342 **
    343 ** Function        userial_vendor_set_baud
    344 **
    345 ** Description     Set new baud rate
    346 **
    347 ** Returns         None
    348 **
    349 *******************************************************************************/
    350 void userial_vendor_set_baud(uint8_t userial_baud)
    351 {
    352     uint32_t tcio_baud;
    353 
    354     VNDUSERIALDBG("## userial_vendor_set_baud: %d", userial_baud);
    355 
    356     userial_to_tcio_baud(userial_baud, &tcio_baud);
    357 
    358     cfsetospeed(&vnd_userial.termios, tcio_baud);
    359     cfsetispeed(&vnd_userial.termios, tcio_baud);
    360     tcsetattr(vnd_userial.fd, TCSADRAIN, &vnd_userial.termios); /* don't change speed until last write done */
    361 }
    362 
    363 /*******************************************************************************
    364 **
    365 ** Function        userial_vendor_get_baud
    366 **
    367 ** Description     Get current baud rate
    368 **
    369 ** Returns         int
    370 **
    371 *******************************************************************************/
    372 int userial_vendor_get_baud(void)
    373 {
    374     if (vnd_userial.fd == -1)
    375     {
    376         ALOGE( "%s: uart port(%s) has not been opened", __FUNCTION__, BT_HS_UART_DEVICE );
    377         return -1;
    378     }
    379 
    380     return userial_tcio_baud_to_int(cfgetispeed(&vnd_userial.termios));
    381 }
    382 
    383 /*******************************************************************************
    384 **
    385 ** Function        userial_vendor_ioctl
    386 **
    387 ** Description     ioctl inteface
    388 **
    389 ** Returns         None
    390 **
    391 *******************************************************************************/
    392 int userial_vendor_ioctl(userial_vendor_ioctl_op_t op, int *p_data)
    393 {
    394     int err;
    395 
    396     switch(op)
    397     {
    398 #if (BT_WAKE_VIA_USERIAL_IOCTL==TRUE)
    399         case USERIAL_OP_ASSERT_BT_WAKE:
    400             VNDUSERIALDBG("## userial_vendor_ioctl: Asserting BT_Wake ##");
    401             err = ioctl(vnd_userial.fd, USERIAL_IOCTL_BT_WAKE_ASSERT, NULL);
    402             break;
    403 
    404         case USERIAL_OP_DEASSERT_BT_WAKE:
    405             VNDUSERIALDBG("## userial_vendor_ioctl: De-asserting BT_Wake ##");
    406             err = ioctl(vnd_userial.fd, USERIAL_IOCTL_BT_WAKE_DEASSERT, NULL);
    407             break;
    408 
    409         case USERIAL_OP_GET_BT_WAKE_STATE:
    410             err = ioctl(vnd_userial.fd, USERIAL_IOCTL_BT_WAKE_GET_ST, p_data);
    411             break;
    412 #endif  //  (BT_WAKE_VIA_USERIAL_IOCTL==TRUE)
    413         case USERIAL_OP_FLOW_ON:
    414             ALOGI("## userial_vendor_ioctl: UART Flow On ");
    415             *p_data |=TIOCM_RTS;
    416             err = ioctl(vnd_userial.fd, TIOCMSET, p_data);
    417             break;
    418 
    419         case USERIAL_OP_FLOW_OFF:
    420             ALOGI("## userial_vendor_ioctl: UART Flow Off ");
    421             ioctl(vnd_userial.fd, TIOCMGET, p_data);
    422             *p_data &= ~TIOCM_RTS;
    423             err = ioctl(vnd_userial.fd, TIOCMSET, p_data);
    424             break;
    425 
    426         default:
    427             break;
    428     }
    429 
    430     return err;
    431 }
    432 
    433 /*******************************************************************************
    434 **
    435 ** Function        userial_set_port
    436 **
    437 ** Description     Configure UART port name
    438 **
    439 ** Returns         0 : Success
    440 **                 Otherwise : Fail
    441 **
    442 *******************************************************************************/
    443 int userial_set_port(char *p_conf_name, char *p_conf_value, int param)
    444 {
    445     strlcpy(vnd_userial.port_name, p_conf_value, VND_PORT_NAME_MAXLEN);
    446 
    447     return 0;
    448 }
    449 
    450 /*******************************************************************************
    451 **
    452 ** Function        read_hci_event
    453 **
    454 ** Description     Read HCI event during vendor initialization
    455 **
    456 ** Returns         int: size to read
    457 **
    458 *******************************************************************************/
    459 int read_hci_event(int fd, unsigned char* buf, int size)
    460 {
    461     int remain, r;
    462     int count = 0;
    463 
    464     if (size <= 0) {
    465         ALOGE("Invalid size arguement!");
    466         return -1;
    467     }
    468 
    469     ALOGI("%s: Wait for Command Compete Event from SOC", __FUNCTION__);
    470 
    471     /* The first byte identifies the packet type. For HCI event packets, it
    472      * should be 0x04, so we read until we get to the 0x04. */
    473     while (1) {
    474             r = read(fd, buf, 1);
    475             if (r <= 0)
    476                     return -1;
    477             if (buf[0] == 0x04)
    478                     break;
    479     }
    480     count++;
    481 
    482     /* The next two bytes are the event code and parameter total length. */
    483     while (count < 3) {
    484             r = read(fd, buf + count, 3 - count);
    485             if (r <= 0)
    486                     return -1;
    487             count += r;
    488     }
    489 
    490     /* Now we read the parameters. */
    491     if (buf[2] < (size - 3))
    492             remain = buf[2];
    493     else
    494             remain = size - 3;
    495 
    496     while ((count - 3) < remain) {
    497             r = read(fd, buf + count, remain - (count - 3));
    498             if (r <= 0)
    499                     return -1;
    500             count += r;
    501     }
    502     return count;
    503 }
    504 
    505 int userial_clock_operation(int fd, int cmd)
    506 {
    507     int ret = 0;
    508 
    509     switch (cmd)
    510     {
    511         case USERIAL_OP_CLK_ON:
    512         case USERIAL_OP_CLK_OFF:
    513              ioctl(fd, cmd);
    514              break;
    515         case USERIAL_OP_CLK_STATE:
    516              ret = ioctl(fd, cmd);
    517              break;
    518     }
    519 
    520     return ret;
    521 }
    522