/* * * Copyright (c) 2013, The Linux Foundation. All rights reserved. * Not a Contribution. * * Copyright 2012 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. * */ /****************************************************************************** * * Filename: hw_ar3k.c * * Description: Contains controller-specific functions, like * firmware patch download * low power mode operations * ******************************************************************************/ #ifdef __cplusplus extern "C" { #endif #define LOG_TAG "bt_vendor" #include <sys/socket.h> #include <utils/Log.h> #include <sys/types.h> #include <sys/stat.h> #include <signal.h> #include <time.h> #include <errno.h> #include <fcntl.h> #include <dirent.h> #include <ctype.h> #include <cutils/properties.h> #include <stdlib.h> #include <termios.h> #include <string.h> #include "bt_hci_bdroid.h" #include "bt_vendor_qcom.h" #include "hci_uart.h" #include "hw_ar3k.h" #include "bt_vendor_qcom.h" /****************************************************************************** ** Variables ******************************************************************************/ int cbstat = 0; #define PATCH_LOC_STRING_LEN 8 char ARbyte[3]; char ARptr[MAX_PATCH_CMD + 1]; int byte_cnt; int patch_count = 0; char patch_loc[PATCH_LOC_STRING_LEN + 1]; int PSCounter=0; uint32_t dev_type = 0; uint32_t rom_version = 0; uint32_t build_version = 0; char patch_file[PATH_MAX]; char ps_file[PATH_MAX]; FILE *stream; int tag_count=0; /* for friendly debugging outpout string */ static char *lpm_mode[] = { "UNKNOWN", "disabled", "enabled" }; static char *lpm_state[] = { "UNKNOWN", "de-asserted", "asserted" }; static uint8_t upio_state[UPIO_MAX_COUNT]; struct ps_cfg_entry ps_list[MAX_TAGS]; #define PS_EVENT_LEN 100 #ifdef __cplusplus } #endif #define RESERVED(p) if(p) ALOGI( "%s: reserved param", __FUNCTION__); /***************************************************************************** ** Functions *****************************************************************************/ int is_bt_soc_ath() { int ret = 0; char bt_soc_type[PROPERTY_VALUE_MAX]; ret = property_get("qcom.bluetooth.soc", bt_soc_type, NULL); if (ret != 0) { ALOGI("qcom.bluetooth.soc set to %s\n", bt_soc_type); if (!strncasecmp(bt_soc_type, "ath3k", sizeof("ath3k"))) return 1; } else { ALOGI("qcom.bluetooth.soc not set, so using default.\n"); } return 0; } /* * Send HCI command and wait for command complete event. * The event buffer has to be freed by the caller. */ static int send_hci_cmd_sync(int dev, uint8_t *cmd, int len, uint8_t **event) { int err; uint8_t *hci_event; uint8_t pkt_type = HCI_COMMAND_PKT; if (len == 0) return len; if (write(dev, &pkt_type, 1) != 1) return -EILSEQ; if (write(dev, (unsigned char *)cmd, len) != len) return -EILSEQ; hci_event = (uint8_t *)malloc(PS_EVENT_LEN); if (!hci_event) return -ENOMEM; err = read_hci_event(dev, (unsigned char *)hci_event, PS_EVENT_LEN); if (err > 0) { *event = hci_event; } else { free(hci_event); return -EILSEQ; } return len; } static void convert_bdaddr(char *str_bdaddr, char *bdaddr) { char bdbyte[3]; char *str_byte = str_bdaddr; int i, j; int colon_present = 0; if (strstr(str_bdaddr, ":")) colon_present = 1; bdbyte[2] = '\0'; /* Reverse the BDADDR to LSB first */ for (i = 0, j = 5; i < 6; i++, j--) { bdbyte[0] = str_byte[0]; bdbyte[1] = str_byte[1]; bdaddr[j] = strtol(bdbyte, NULL, 16); if (colon_present == 1) str_byte += 3; else str_byte += 2; } } static int uart_speed(int s) { switch (s) { case 9600: return B9600; case 19200: return B19200; case 38400: return B38400; case 57600: return B57600; case 115200: return B115200; case 230400: return B230400; case 460800: return B460800; case 500000: return B500000; case 576000: return B576000; case 921600: return B921600; case 1000000: return B1000000; case 1152000: return B1152000; case 1500000: return B1500000; case 2000000: return B2000000; #ifdef B2500000 case 2500000: return B2500000; #endif #ifdef B3000000 case 3000000: return B3000000; #endif #ifdef B3500000 case 3500000: return B3500000; #endif #ifdef B4000000 case 4000000: return B4000000; #endif default: return B57600; } } int set_speed(int fd, struct termios *ti, int speed) { if (cfsetospeed(ti, uart_speed(speed)) < 0) return -errno; if (cfsetispeed(ti, uart_speed(speed)) < 0) return -errno; if (tcsetattr(fd, TCSANOW, ti) < 0) return -errno; return 0; } static void load_hci_ps_hdr(uint8_t *cmd, uint8_t ps_op, int len, int index) { hci_command_hdr *ch = (void *)cmd; ch->opcode = htobs(cmd_opcode_pack(HCI_VENDOR_CMD_OGF, HCI_PS_CMD_OCF)); ch->plen = len + PS_HDR_LEN; cmd += HCI_COMMAND_HDR_SIZE; cmd[0] = ps_op; cmd[1] = index; cmd[2] = index >> 8; cmd[3] = len; } static int read_ps_event(uint8_t *event, uint16_t ocf) { hci_event_hdr *eh; uint16_t opcode = htobs(cmd_opcode_pack(HCI_VENDOR_CMD_OGF, ocf)); event++; eh = (void *)event; event += HCI_EVENT_HDR_SIZE; if (eh->evt == EVT_CMD_COMPLETE) { evt_cmd_complete *cc = (void *)event; event += EVT_CMD_COMPLETE_SIZE; if (cc->opcode == opcode && event[0] == HCI_EV_SUCCESS) return 0; else return -EILSEQ; } return -EILSEQ; } #define PS_WRITE 1 #define PS_RESET 2 #define WRITE_PATCH 8 #define ENABLE_PATCH 11 #define HCI_PS_CMD_HDR_LEN 7 static int write_cmd(int fd, uint8_t *buffer, int len) { uint8_t *event; int err; err = send_hci_cmd_sync(fd, buffer, len, &event); if (err < 0) return err; err = read_ps_event(event, HCI_PS_CMD_OCF); free(event); return err; } #define PS_RESET_PARAM_LEN 6 #define PS_RESET_CMD_LEN (HCI_PS_CMD_HDR_LEN + PS_RESET_PARAM_LEN) #define PS_ID_MASK 0xFF /* Sends PS commands using vendor specficic HCI commands */ static int write_ps_cmd(int fd, uint8_t opcode, uint32_t ps_param) { uint8_t cmd[HCI_MAX_CMD_SIZE]; uint32_t i; switch (opcode) { case ENABLE_PATCH: load_hci_ps_hdr(cmd, opcode, 0, 0x00); if (write_cmd(fd, cmd, HCI_PS_CMD_HDR_LEN) < 0) return -EILSEQ; break; case PS_RESET: load_hci_ps_hdr(cmd, opcode, PS_RESET_PARAM_LEN, 0x00); cmd[7] = 0x00; cmd[PS_RESET_CMD_LEN - 2] = ps_param & PS_ID_MASK; cmd[PS_RESET_CMD_LEN - 1] = (ps_param >> 8) & PS_ID_MASK; if (write_cmd(fd, cmd, PS_RESET_CMD_LEN) < 0) return -EILSEQ; break; case PS_WRITE: for (i = 0; i < ps_param; i++) { load_hci_ps_hdr(cmd, opcode, ps_list[i].len, ps_list[i].id); memcpy(&cmd[HCI_PS_CMD_HDR_LEN], ps_list[i].data, ps_list[i].len); if (write_cmd(fd, cmd, ps_list[i].len + HCI_PS_CMD_HDR_LEN) < 0) return -EILSEQ; } break; } return 0; } #define PS_ASIC_FILE "PS_ASIC.pst" #define PS_FPGA_FILE "PS_FPGA.pst" #define MAXPATHLEN 4096 static void get_ps_file_name(uint32_t devtype, uint32_t rom_version,char *path) { char *filename; if (devtype == 0xdeadc0de) filename = PS_ASIC_FILE; else filename = PS_FPGA_FILE; snprintf(path, MAXPATHLEN, "%s%x/%s", FW_PATH, rom_version, filename); } #define PATCH_FILE "RamPatch.txt" #define FPGA_ROM_VERSION 0x99999999 #define ROM_DEV_TYPE 0xdeadc0de static void get_patch_file_name(uint32_t dev_type, uint32_t rom_version, uint32_t build_version, char *path) { if (rom_version == FPGA_ROM_VERSION && dev_type != ROM_DEV_TYPE &&dev_type != 0 && build_version == 1) path[0] = '\0'; else snprintf(path, MAXPATHLEN, "%s%x/%s", FW_PATH, rom_version, PATCH_FILE); } static int set_cntrlr_baud(int fd, int speed) { int baud; struct timespec tm = { 0, 500000}; unsigned char cmd[MAX_CMD_LEN], rsp[HCI_MAX_EVENT_SIZE]; unsigned char *ptr = cmd + 1; hci_command_hdr *ch = (void *)ptr; cmd[0] = HCI_COMMAND_PKT; /* set controller baud rate to user specified value */ ptr = cmd + 1; ch->opcode = htobs(cmd_opcode_pack(HCI_VENDOR_CMD_OGF, HCI_CHG_BAUD_CMD_OCF)); ch->plen = 2; ptr += HCI_COMMAND_HDR_SIZE; baud = speed/100; ptr[0] = (char)baud; ptr[1] = (char)(baud >> 8); if (write(fd, cmd, WRITE_BAUD_CMD_LEN) != WRITE_BAUD_CMD_LEN) { ALOGI("Failed to write change baud rate command"); return -ETIMEDOUT; } nanosleep(&tm, NULL); if (read_hci_event(fd, rsp, sizeof(rsp)) < 0) return -ETIMEDOUT; return 0; } #define PS_UNDEF 0 #define PS_ID 1 #define PS_LEN 2 #define PS_DATA 3 #define PS_MAX_LEN 500 #define LINE_SIZE_MAX (PS_MAX_LEN * 2) #define ENTRY_PER_LINE 16 #define __check_comment(buf) (((buf)[0] == '/') && ((buf)[1] == '/')) #define __skip_space(str) while (*(str) == ' ') ((str)++) #define __is_delim(ch) ((ch) == ':') #define MAX_PREAMBLE_LEN 4 /* Parse PS entry preamble of format [X:X] for main type and subtype */ static int get_ps_type(char *ptr, int index, char *type, char *sub_type) { int i; int delim = FALSE; if (index > MAX_PREAMBLE_LEN) return -EILSEQ; for (i = 1; i < index; i++) { if (__is_delim(ptr[i])) { delim = TRUE; continue; } if (isalpha(ptr[i])) { if (delim == FALSE) (*type) = toupper(ptr[i]); else (*sub_type) = toupper(ptr[i]); } } return 0; } #define ARRAY 'A' #define STRING 'S' #define DECIMAL 'D' #define BINARY 'B' #define PS_HEX 0 #define PS_DEC 1 static int get_input_format(char *buf, struct ps_entry_type *format) { char *ptr = NULL; char type = '\0'; char sub_type = '\0'; format->type = PS_HEX; format->array = TRUE; if (strstr(buf, "[") != buf) return 0; ptr = strstr(buf, "]"); if (!ptr) return -EILSEQ; if (get_ps_type(buf, ptr - buf, &type, &sub_type) < 0) return -EILSEQ; /* Check is data type is of array */ if (type == ARRAY || sub_type == ARRAY) format->array = TRUE; if (type == STRING || sub_type == STRING) format->array = FALSE; if (type == DECIMAL || type == BINARY) format->type = PS_DEC; else format->type = PS_HEX; return 0; } #define UNDEFINED 0xFFFF static unsigned int read_data_in_section(char *buf, struct ps_entry_type type) { char *ptr = buf; if (!buf) return UNDEFINED; if (buf == strstr(buf, "[")) { ptr = strstr(buf, "]"); if (!ptr) return UNDEFINED; ptr++; } if (type.type == PS_HEX && type.array != TRUE) return strtol(ptr, NULL, 16); return UNDEFINED; } /* Read PS entries as string, convert and add to Hex array */ static void update_tag_data(struct ps_cfg_entry *tag, struct tag_info *info, const char *ptr) { char buf[3]; buf[2] = '\0'; strlcpy(buf, &ptr[info->char_cnt],sizeof(buf)); tag->data[info->byte_count] = strtol(buf, NULL, 16); info->char_cnt += 3; info->byte_count++; strlcpy(buf, &ptr[info->char_cnt], sizeof(buf)); tag->data[info->byte_count] = strtol(buf, NULL, 16); info->char_cnt += 3; info->byte_count++; } static inline int update_char_count(const char *buf) { char *end_ptr; if (strstr(buf, "[") == buf) { end_ptr = strstr(buf, "]"); if (!end_ptr) return 0; else return(end_ptr - buf) + 1; } return 0; } #define PS_HEX 0 #define PS_DEC 1 static int ath_parse_ps(FILE *stream) { char buf[LINE_SIZE_MAX + 1]; char *ptr; uint8_t tag_cnt = 0; int16_t byte_count = 0; struct ps_entry_type format; struct tag_info status = { 0, 0, 0, 0}; do { int read_count; struct ps_cfg_entry *tag; ptr = fgets(buf, LINE_SIZE_MAX, stream); if (!ptr) break; __skip_space(ptr); if (__check_comment(ptr)) continue; /* Lines with a '#' will be followed by new PS entry */ if (ptr == strstr(ptr, "#")) { if (status.section != PS_UNDEF) { return -EILSEQ; } else { status.section = PS_ID; continue; } } tag = &ps_list[tag_cnt]; switch (status.section) { case PS_ID: if (get_input_format(ptr, &format) < 0) return -EILSEQ; tag->id = read_data_in_section(ptr, format); status.section = PS_LEN; break; case PS_LEN: if (get_input_format(ptr, &format) < 0) return -EILSEQ; byte_count = read_data_in_section(ptr, format); if (byte_count > PS_MAX_LEN) return -EILSEQ; tag->len = byte_count; tag->data = (uint8_t *)malloc(byte_count); status.section = PS_DATA; status.line_count = 0; break; case PS_DATA: if (status.line_count == 0) if (get_input_format(ptr, &format) < 0) return -EILSEQ; __skip_space(ptr); status.char_cnt = update_char_count(ptr); read_count = (byte_count > ENTRY_PER_LINE) ? ENTRY_PER_LINE : byte_count; if (format.type == PS_HEX && format.array == TRUE) { while (read_count > 0) { update_tag_data(tag, &status, ptr); read_count -= 2; } if (byte_count > ENTRY_PER_LINE) byte_count -= ENTRY_PER_LINE; else byte_count = 0; } status.line_count++; if (byte_count == 0) memset(&status, 0x00, sizeof(struct tag_info)); if (status.section == PS_UNDEF) tag_cnt++; if (tag_cnt == MAX_TAGS) return -EILSEQ; break; } } while (ptr); return tag_cnt; } #define PS_RAM_SIZE 2048 static int ps_config_download(int fd, int tag_count) { if (write_ps_cmd(fd, PS_RESET, PS_RAM_SIZE) < 0) return -1; if (tag_count > 0) if (write_ps_cmd(fd, PS_WRITE, tag_count) < 0) return -1; return 0; } static int write_bdaddr(int pConfig, char *bdaddr) { uint8_t *event; int err; uint8_t cmd[13]; uint8_t *ptr = cmd; hci_command_hdr *ch = (void *)cmd; memset(cmd, 0, sizeof(cmd)); ch->opcode = htobs(cmd_opcode_pack(HCI_VENDOR_CMD_OGF, HCI_PS_CMD_OCF)); ch->plen = 10; ptr += HCI_COMMAND_HDR_SIZE; ptr[0] = 0x01; ptr[1] = 0x01; ptr[2] = 0x00; ptr[3] = 0x06; convert_bdaddr(bdaddr, (char *)&ptr[4]); err = send_hci_cmd_sync(pConfig, cmd, sizeof(cmd), &event); if (err < 0) return err; err = read_ps_event(event, HCI_PS_CMD_OCF); free(event); return err; } static void write_bdaddr_from_file(int rom_version, int fd) { FILE *stream; char bdaddr[PATH_MAX]; char bdaddr_file[PATH_MAX]; snprintf(bdaddr_file, MAXPATHLEN, "%s%x/%s", FW_PATH, rom_version, BDADDR_FILE); stream = fopen(bdaddr_file, "r"); if (!stream) return; if (fgets(bdaddr, PATH_MAX - 1, stream)) write_bdaddr(fd, bdaddr); fclose(stream); } #define HCI_EVT_CMD_CMPL_OPCODE 3 #define HCI_EVT_CMD_CMPL_STATUS_RET_BYTE 5 void baswap(bdaddr_t *dst, const bdaddr_t *src) { register unsigned char *d = (unsigned char *) dst; register const unsigned char *s = (const unsigned char *) src; register int i; for (i = 0; i < 6; i++) d[i] = s[5-i]; } int str2ba(const char *str, bdaddr_t *ba) { uint8_t b[6]; const char *ptr = str; int i; for (i = 0; i < 6; i++) { b[i] = (uint8_t) strtol(ptr, NULL, 16); ptr = strchr(ptr, ':'); if (i != 5 && !ptr) ptr = ":00:00:00:00:00"; ptr++; } baswap(ba, (bdaddr_t *) b); return 0; } #define DEV_REGISTER 0x4FFC #define GET_DEV_TYPE_OCF 0x05 static int get_device_type(int dev, uint32_t *code) { uint8_t cmd[8] = {0}; uint8_t *event; uint32_t reg; int err; uint8_t *ptr = cmd; hci_command_hdr *ch = (void *)cmd; ch->opcode = htobs(cmd_opcode_pack(HCI_VENDOR_CMD_OGF, GET_DEV_TYPE_OCF)); ch->plen = 5; ptr += HCI_COMMAND_HDR_SIZE; ptr[0] = (uint8_t)DEV_REGISTER; ptr[1] = (uint8_t)DEV_REGISTER >> 8; ptr[2] = (uint8_t)DEV_REGISTER >> 16; ptr[3] = (uint8_t)DEV_REGISTER >> 24; ptr[4] = 0x04; err = send_hci_cmd_sync(dev, cmd, sizeof(cmd), &event); if (err < 0) return err; err = read_ps_event(event, GET_DEV_TYPE_OCF); if (err < 0) goto cleanup; reg = event[10]; reg = (reg << 8) | event[9]; reg = (reg << 8) | event[8]; reg = (reg << 8) | event[7]; *code = reg; cleanup: free(event); return err; } #define GET_VERSION_OCF 0x1E static int read_ath3k_version(int pConfig, uint32_t *rom_version, uint32_t *build_version) { uint8_t cmd[3] = {0}; uint8_t *event; int err; int status; hci_command_hdr *ch = (void *)cmd; ch->opcode = htobs(cmd_opcode_pack(HCI_VENDOR_CMD_OGF, GET_VERSION_OCF)); ch->plen = 0; err = send_hci_cmd_sync(pConfig, cmd, sizeof(cmd), &event); if (err < 0) return err; err = read_ps_event(event, GET_VERSION_OCF); if (err < 0) goto cleanup; status = event[10]; status = (status << 8) | event[9]; status = (status << 8) | event[8]; status = (status << 8) | event[7]; *rom_version = status; status = event[14]; status = (status << 8) | event[13]; status = (status << 8) | event[12]; status = (status << 8) | event[11]; *build_version = status; cleanup: free(event); return err; } #define VERIFY_CRC 9 #define PS_REGION 1 #define PATCH_REGION 2 static int get_ath3k_crc(int dev) { uint8_t cmd[7] = {0}; uint8_t *event; int err; load_hci_ps_hdr(cmd, VERIFY_CRC, 0, PS_REGION | PATCH_REGION); err = send_hci_cmd_sync(dev, cmd, sizeof(cmd), &event); if (err < 0) return err; /* Send error code if CRC check patched */ if (read_ps_event(event, HCI_PS_CMD_OCF) >= 0) err = -EILSEQ; free(event); return err; } #define SET_PATCH_RAM_ID 0x0D #define SET_PATCH_RAM_CMD_SIZE 11 #define ADDRESS_LEN 4 static int set_patch_ram(int dev, char *patch_loc, int len) { int err; uint8_t cmd[20] = {0}; int i, j; char loc_byte[3]; uint8_t *event; uint8_t *loc_ptr = &cmd[7]; RESERVED(len); if (!patch_loc) return -1; loc_byte[2] = '\0'; load_hci_ps_hdr(cmd, SET_PATCH_RAM_ID, ADDRESS_LEN, 0); for (i = 0, j = 3; i < 4; i++, j--) { loc_byte[0] = patch_loc[0]; loc_byte[1] = patch_loc[1]; loc_ptr[j] = strtol(loc_byte, NULL, 16); patch_loc += 2; } err = send_hci_cmd_sync(dev, cmd, SET_PATCH_RAM_CMD_SIZE, &event); if (err < 0) return err; err = read_ps_event(event, HCI_PS_CMD_OCF); free(event); return err; } #define PATCH_LOC_KEY "DA:" #define PATCH_LOC_STRING_LEN 8 static int ps_patch_download(int fd, FILE *stream) { char byte[3]; char ptr[MAX_PATCH_CMD + 1]; int byte_cnt; int patch_count = 0; char patch_loc[PATCH_LOC_STRING_LEN + 1]; byte[2] = '\0'; while (fgets(ptr, MAX_PATCH_CMD, stream)) { if (strlen(ptr) <= 1) continue; else if (strstr(ptr, PATCH_LOC_KEY) == ptr) { strlcpy(patch_loc, &ptr[sizeof(PATCH_LOC_KEY) - 1], PATCH_LOC_STRING_LEN); if (set_patch_ram(fd, patch_loc, sizeof(patch_loc)) < 0) return -1; } else if (isxdigit(ptr[0])) break; else return -1; } byte_cnt = strtol(ptr, NULL, 16); while (byte_cnt > 0) { int i; uint8_t cmd[HCI_MAX_CMD_SIZE] = {0}; struct patch_entry patch; if (byte_cnt > MAX_PATCH_CMD) patch.len = MAX_PATCH_CMD; else patch.len = byte_cnt; for (i = 0; i < patch.len; i++) { if (!fgets(byte, 3, stream)) return -1; patch.data[i] = strtoul(byte, NULL, 16); } load_hci_ps_hdr(cmd, WRITE_PATCH, patch.len, patch_count); memcpy(&cmd[HCI_PS_CMD_HDR_LEN], patch.data, patch.len); if (write_cmd(fd, cmd, patch.len + HCI_PS_CMD_HDR_LEN) < 0) return -1; patch_count++; byte_cnt = byte_cnt - MAX_PATCH_CMD; } if (write_ps_cmd(fd, ENABLE_PATCH, 0) < 0) return -1; return patch_count; } static int ath_ps_download(int fd) { int err = 0; int tag_count; int patch_count = 0; uint32_t rom_version = 0; uint32_t build_version = 0; uint32_t dev_type = 0; char patch_file[PATH_MAX]; char ps_file[PATH_MAX]; FILE *stream; /* * Verfiy firmware version. depending on it select the PS * config file to download. */ if (get_device_type(fd, &dev_type) < 0) { err = -EILSEQ; goto download_cmplete; } if (read_ath3k_version(fd, &rom_version, &build_version) < 0) { err = -EILSEQ; goto download_cmplete; } /* Do not download configuration if CRC passes */ if (get_ath3k_crc(fd) < 0) { err = 0; goto download_cmplete; } get_ps_file_name(dev_type, rom_version, ps_file); get_patch_file_name(dev_type, rom_version, build_version, patch_file); stream = fopen(ps_file, "r"); if (!stream) { ALOGI("firmware file open error:%s, ver:%x\n",ps_file, rom_version); if (rom_version == 0x1020201) err = 0; else err = -EILSEQ; goto download_cmplete; } tag_count = ath_parse_ps(stream); fclose(stream); if (tag_count < 0) { err = -EILSEQ; goto download_cmplete; } /* * It is not necessary that Patch file be available, * continue with PS Operations if patch file is not available. */ if (patch_file[0] == '\0') err = 0; stream = fopen(patch_file, "r"); if (!stream) err = 0; else { patch_count = ps_patch_download(fd, stream); fclose(stream); if (patch_count < 0) { err = -EILSEQ; goto download_cmplete; } } err = ps_config_download(fd, tag_count); download_cmplete: if (!err) write_bdaddr_from_file(rom_version, fd); return err; } int ath3k_init(int fd, int speed, int init_speed, char *bdaddr, struct termios *ti) { ALOGI(" %s ", __FUNCTION__); int r; int err = 0; struct timespec tm = { 0, 500000}; unsigned char cmd[MAX_CMD_LEN] = {0}; unsigned char rsp[HCI_MAX_EVENT_SIZE]; unsigned char *ptr = cmd + 1; hci_command_hdr *ch = (void *)ptr; int flags = 0; if (ioctl(fd, TIOCMGET, &flags) < 0) { ALOGI("TIOCMGET failed in init\n"); return -1; } flags |= TIOCM_RTS; if (ioctl(fd, TIOCMSET, &flags) < 0) { ALOGI("TIOCMSET failed in init: HW Flow-on error\n"); return -1; } /* set both controller and host baud rate to maximum possible value */ err = set_cntrlr_baud(fd, speed); ALOGI("set_cntrlr_baud : ret:%d \n", err); if (err < 0) return err; err = set_speed(fd, ti, speed); if (err < 0) { ALOGI("Can't set required baud rate"); return err; } /* Download PS and patch */ r = ath_ps_download(fd); if (r < 0) { ALOGI("Failed to Download configuration"); err = -ETIMEDOUT; goto failed; } ALOGI("ath_ps_download is done\n"); cmd[0] = HCI_COMMAND_PKT; /* Write BDADDR */ if (bdaddr) { ch->opcode = htobs(cmd_opcode_pack(HCI_VENDOR_CMD_OGF, HCI_PS_CMD_OCF)); ch->plen = 10; ptr += HCI_COMMAND_HDR_SIZE; ptr[0] = 0x01; ptr[1] = 0x01; ptr[2] = 0x00; ptr[3] = 0x06; str2ba(bdaddr, (bdaddr_t *)(ptr + 4)); if (write(fd, cmd, WRITE_BDADDR_CMD_LEN) != WRITE_BDADDR_CMD_LEN) { ALOGI("Failed to write BD_ADDR command\n"); err = -ETIMEDOUT; goto failed; } if (read_hci_event(fd, rsp, sizeof(rsp)) < 0) { ALOGI("Failed to set BD_ADDR\n"); err = -ETIMEDOUT; goto failed; } } /* Send HCI Reset */ cmd[1] = 0x03; cmd[2] = 0x0C; cmd[3] = 0x00; r = write(fd, cmd, 4); if (r != 4) { err = -ETIMEDOUT; goto failed; } nanosleep(&tm, NULL); if (read_hci_event(fd, rsp, sizeof(rsp)) < 0) { err = -ETIMEDOUT; goto failed; } ALOGI("HCI Reset is done\n"); err = set_cntrlr_baud(fd, speed); if (err < 0) ALOGI("set_cntrlr_baud0:%d,%d\n", speed, err); failed: if (err < 0) { set_cntrlr_baud(fd, init_speed); set_speed(fd, ti, init_speed); } return err; } #define BTPROTO_HCI 1 /* Open HCI device. * Returns device descriptor (dd). */ int hci_open_dev(int dev_id) { struct sockaddr_hci a; int dd, err; /* Create HCI socket */ dd = socket(AF_BLUETOOTH, SOCK_RAW, BTPROTO_HCI); if (dd < 0) return dd; /* Bind socket to the HCI device */ memset(&a, 0, sizeof(a)); a.hci_family = AF_BLUETOOTH; a.hci_dev = dev_id; if (bind(dd, (struct sockaddr *) &a, sizeof(a)) < 0) goto failed; return dd; failed: err = errno; close(dd); errno = err; return -1; } int hci_close_dev(int dd) { return close(dd); } /* HCI functions that require open device * dd - Device descriptor returned by hci_open_dev. */ int hci_send_cmd(int dd, uint16_t ogf, uint16_t ocf, uint8_t plen, void *param) { uint8_t type = HCI_COMMAND_PKT; hci_command_hdr hc; struct iovec iv[3]; int ivn; hc.opcode = htobs(cmd_opcode_pack(ogf, ocf)); hc.plen= plen; iv[0].iov_base = &type; iv[0].iov_len = 1; iv[1].iov_base = &hc; iv[1].iov_len = HCI_COMMAND_HDR_SIZE; ivn = 2; if (plen) { iv[2].iov_base = param; iv[2].iov_len = plen; ivn = 3; } while (writev(dd, iv, ivn) < 0) { if (errno == EAGAIN || errno == EINTR) continue; return -1; } return 0; } #define HCI_SLEEP_CMD_OCF 0x04 #define TIOCSETD 0x5423 #define HCIUARTSETFLAGS _IOW('U', 204, int) #define HCIUARTSETPROTO _IOW('U', 200, int) #define HCIUARTGETDEVICE _IOW('U', 202, int) /* * Atheros AR300x specific initialization post callback */ int ath3k_post(int fd, int pm) { int dev_id, dd; struct timespec tm = { 0, 50000}; sleep(1); dev_id = ioctl(fd, HCIUARTGETDEVICE, 0); if (dev_id < 0) { perror("cannot get device id"); return dev_id; } dd = hci_open_dev(dev_id); if (dd < 0) { perror("HCI device open failed"); return dd; } if (ioctl(dd, HCIDEVUP, dev_id) < 0 && errno != EALREADY) { perror("hci down:Power management Disabled"); hci_close_dev(dd); return -1; } /* send vendor specific command with Sleep feature Enabled */ if (hci_send_cmd(dd, OGF_VENDOR_CMD, HCI_SLEEP_CMD_OCF, 1, &pm) < 0) perror("PM command failed, power management Disabled"); nanosleep(&tm, NULL); hci_close_dev(dd); return 0; } #define FLOW_CTL 0x0001 #define ENABLE_PM 1 #define DISABLE_PM 0 /* Initialize UART driver */ static int init_uart(char *dev, struct uart_t *u, int send_break, int raw) { ALOGI(" %s ", __FUNCTION__); struct termios ti; int i, fd; unsigned long flags = 0; if (raw) flags |= 1 << HCI_UART_RAW_DEVICE; fd = open(dev, O_RDWR | O_NOCTTY); if (fd < 0) { ALOGI("Can't open serial port"); return -1; } tcflush(fd, TCIOFLUSH); if (tcgetattr(fd, &ti) < 0) { ALOGI("Can't get port settings: %d\n", errno); return -1; } cfmakeraw(&ti); ti.c_cflag |= CLOCAL; if (u->flags & FLOW_CTL) ti.c_cflag |= CRTSCTS; else ti.c_cflag &= ~CRTSCTS; if (tcsetattr(fd, TCSANOW, &ti) < 0) { ALOGI("Can't set port settings"); return -1; } if (set_speed(fd, &ti, u->init_speed) < 0) { ALOGI("Can't set initial baud rate"); return -1; } tcflush(fd, TCIOFLUSH); if (send_break) { tcsendbreak(fd, 0); usleep(500000); } ath3k_init(fd,u->speed,u->init_speed,u->bdaddr, &ti); ALOGI("Device setup complete\n"); tcflush(fd, TCIOFLUSH); // Set actual baudrate /* if (set_speed(fd, &ti, u->speed) < 0) { perror("Can't set baud rate"); return -1; } i = N_HCI; if (ioctl(fd, TIOCSETD, &i) < 0) { perror("Can't set line discipline"); return -1; } if (flags && ioctl(fd, HCIUARTSETFLAGS, flags) < 0) { perror("Can't set UART flags"); return -1; } if (ioctl(fd, HCIUARTSETPROTO, u->proto) < 0) { perror("Can't set device"); return -1; } #if !defined(SW_BOARD_HAVE_BLUETOOTH_RTK) ath3k_post(fd, u->pm); #endif */ return fd; } int hw_config_ath3k(char *port_name) { ALOGI(" %s ", __FUNCTION__); PSCounter=0; struct sigaction sa; struct uart_t u ; int n=0,send_break=0,raw=0; memset(&u, 0, sizeof(u)); u.speed =3000000; u.init_speed =115200; u.flags |= FLOW_CTL; u.pm = DISABLE_PM; n = init_uart(port_name, &u, send_break, raw); if (n < 0) { ALOGI("Can't initialize device"); } return n; } void lpm_set_ar3k(uint8_t pio, uint8_t action, uint8_t polarity) { int rc; int fd = -1; char buffer; ALOGI("lpm mode: %d action: %d", pio, action); RESERVED(polarity); switch (pio) { case UPIO_LPM_MODE: if (upio_state[UPIO_LPM_MODE] == action) { ALOGI("LPM is %s already", lpm_mode[action]); return; } fd = open(VENDOR_LPM_PROC_NODE, O_WRONLY); if (fd < 0) { ALOGE("upio_set : open(%s) for write failed: %s (%d)", VENDOR_LPM_PROC_NODE, strerror(errno), errno); return; } if (action == UPIO_ASSERT) { buffer = '1'; } else { buffer = '0'; } if (write(fd, &buffer, 1) < 0) { ALOGE("upio_set : write(%s) failed: %s (%d)", VENDOR_LPM_PROC_NODE, strerror(errno),errno); } else { upio_state[UPIO_LPM_MODE] = action; ALOGI("LPM is set to %s", lpm_mode[action]); } if (fd >= 0) close(fd); break; case UPIO_BT_WAKE: /* UPIO_DEASSERT should be allowed because in Rx case assert occur * from the remote side where as deassert will be initiated from Host */ if ((action == UPIO_ASSERT) && (upio_state[UPIO_BT_WAKE] == action)) { ALOGI("BT_WAKE is %s already", lpm_state[action]); return; } if (action == UPIO_DEASSERT) buffer = '0'; else buffer = '1'; fd = open(VENDOR_BTWRITE_PROC_NODE, O_WRONLY); if (fd < 0) { ALOGE("upio_set : open(%s) for write failed: %s (%d)", VENDOR_BTWRITE_PROC_NODE, strerror(errno), errno); return; } if (write(fd, &buffer, 1) < 0) { ALOGE("upio_set : write(%s) failed: %s (%d)", VENDOR_BTWRITE_PROC_NODE, strerror(errno),errno); } else { upio_state[UPIO_BT_WAKE] = action; ALOGI("BT_WAKE is set to %s", lpm_state[action]); } ALOGI("proc btwrite assertion"); if (fd >= 0) close(fd); break; case UPIO_HOST_WAKE: ALOGI("upio_set: UPIO_HOST_WAKE"); break; } }