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gerrit-public.fairphone.software / platform / system / qcom / refs/tags/rel/11/fp3/8901.4.A.0016.6 / . / softap / sdk / qsap_api.c
blob: 064e499047ab506f03f7f47e02dc37e7e46b0993 [file] [log] [blame]
/*
* Copyright (c) 2010-2013, The Linux Foundation. All rights reserved.
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of The Linux Foundation, Inc. nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <errno.h>
#include <unistd.h>
#include <ctype.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <linux/wireless.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <sys/select.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#include <net/if.h>
#include <net/if_arp.h>
#include <netlink/netlink.h>
#include <netlink/genl/genl.h>
#include <netlink/genl/family.h>
#include <netlink/genl/ctrl.h>
#include "nl80211_copy.h"
#include "qsap_api.h"
#include "qsap.h"
#define QCSAP_IOCTL_GETPARAM (SIOCIWFIRSTPRIV+1)
#define WLAN_PRIV_SET_THREE_INT_GET_NONE (SIOCIWFIRSTPRIV + 4)
#define QCSAP_IOCTL_GET_CHANNEL (SIOCIWFIRSTPRIV+9)
#define QCSAP_IOCTL_ASSOC_STA_MACADDR (SIOCIWFIRSTPRIV+10)
#define QCSAP_IOCTL_DISASSOC_STA (SIOCIWFIRSTPRIV+11)
#define QCSAP_IOCTL_AP_STATS (SIOCIWFIRSTPRIV+12)
#define QCSAP_IOCTL_SET_CHANNEL_RANGE (SIOCIWFIRSTPRIV+17)
#define QCSAP_PARAM_GET_AUTO_CHANNEL 9
#define WE_SET_SAP_CHANNELS 3
#define LOG_TAG "QCSDK"
#include <cutils/properties.h>
#include <cutils/log.h>
#define SKIP_BLANK_SPACE(x) {while(*x != '\0') { if((*x == ' ') || (*x == '\t')) x++; else break; }}
/** If this variable is enabled, the soft AP is reloaded, after the commit
* command is received */
static volatile int gIniUpdated = 0;
/** Supported command requests.
* WANRING: The enum eCMD_REQ in the file qsap_api.h should be
* updated if Cmd_req[], us updated
*/
s8 *Cmd_req[eCMD_REQ_LAST] = {
"get",
"set"
};
/** Supported config file requests.
* WANRING: The enum eConf_req in the file qsap_api.h should be
* updated if Conf_req[], us updated
*/
s8 *Conf_req[CONF_REQ_LAST] = {
"dual2g",
"dual5g",
"owe",
"60g",
};
/*
* WARNING: On updating the cmd_list, the enum esap_cmd in file
* qsap_api.h must be updates to reflect the changes
*/
static struct Command cmd_list[eCMD_LAST] = {
{ "ssid", "QualcommSoftAP" },
{ "ignore_broadcast_ssid", "0" },
{ "channel", "1" },
{ "beacon_int", "100" },
{ "dtim_period", "2" },
{ "hw_mode", "n" },
{ "auth_algs", "3" },
{ "security_mode", "0" },
{ "wep_key0", NULL },
{ "wep_key1", NULL },
{ "wep_key2", NULL },
{ "wep_key3", NULL },
{ "wep_default_key", NULL },
{ "wpa_passphrase", NULL },
{ "wpa_pairwise", NULL },
{ "rsn_pairwise", NULL },
{ "mac_address", "00deadbeef04" },
{ "reset_ap", NULL },
{ "macaddr_acl", "0" },
{ "add_to_allow_list", NULL },
{ "add_to_deny_list", NULL },
{ "remove_from_allow_list", NULL },
{ "remove_from_deny_list", NULL },
{ "allow_list", "" },
{ "deny_list", "" },
{ "commit", NULL },
{ "enable_softap", NULL },
{ "disassoc_sta", NULL },
{ "reset_to_default", NULL },
{ "protection_flag", "1" },
{ "data_rate", "0" },
{ "sta_mac_list", NULL },
{ "tx_power", "27" },
{ "sdk_version", SDK_VERSION },
{ "wmm_enabled", "0" },
/** Warning: Do not change the order of the WPS commands */
{ "wps_state", "0" },
{ "config_methods", NULL },
{ "uuid", NULL },
{ "device_name", NULL },
{ "manufacturer", NULL },
{ "model_name", NULL },
{ "model_number", NULL },
{ "serial_number", NULL },
{ "device_type", NULL },
{ "os_version", NULL },
{ "friendly_name", NULL },
{ "manufacturer_url", NULL },
{ "model_description", NULL },
{ "model_url", NULL },
{ "upc", NULL },
/************ WPS commands end *********/
{ "fragm_threshold", NULL },
{ "rts_threshold", NULL },
{ "wpa_group_rekey", NULL },
{ "country_code", NULL },
{ "ap_isolate", NULL },
{ "ieee80211d", NULL },
{ "apstat", NULL },
{ "auto_shut_off_time", NULL },
{ "energy_detect_threshold", "128" },
{ "basic_rates", NULL },
{ "require_ht", NULL },
{ "ieee80211n", "1" },
{ "setchannelrange", NULL },
{ "autochannel", NULL },
{ "ieee80211w", NULL },
{ "wpa_key_mgmt", NULL },
{ "max_num_sta", "8" },
{ "ieee80211ac", NULL },
{ "vht_oper_chwidth", NULL },
{ "chanlist", NULL },
{ "ht_capab", NULL },
{ "ieee80211h", NULL },
{ "enable_wigig_softap", NULL },
{ "interface", NULL },
{ "ssid2", NULL },
{ "bridge", NULL },
{ "ctrl_interface", NULL },
{ "vendor_elements", NULL },
{ "assocresp_elements", NULL },
{ "acs_exclude_dfs", NULL },
{ "wowlan_triggers", "any" },
{ "accept_mac_file", NULL },
{ "deny_mac_file", NULL },
{ "owe_transition_ifname", NULL },
{ "sae_require_mfp", NULL },
{ "ieee80211ax", NULL },
{ "enable_edmg", NULL },
{ "edmg_channel", NULL },
};
struct Command qsap_str[eSTR_LAST] = {
{ "wpa", NULL },
{ "accept_mac_file", NULL },
{ "deny_mac_file", NULL },
{ "gAPMacAddr", "00deadbeef04" },/** AP MAC address */
{ "gEnableApProt", "1" },/** protection flag in ini file */
{ "gFixedRate", "0" },/** Fixed rate in ini */
{ "gTxPowerCap", "27" },/** Tx power in ini */
{ "gFragmentationThreshold", "2346" },/** Fragmentation threshold in ini */
{ "RTSThreshold", "2347" },/** RTS threshold in ini */
{ "gAPCntryCode", "USI" },/** Country code in ini */
{ "gDisableIntraBssFwd", "0" },/** Intra-bss forward in ini */
{ "WmmIsEnabled", "0" },/** WMM */
{ "g11dSupportEnabled", "1" },/** 802.11d support */
{ "ieee80211n", NULL },
{ "ctrl_interface", NULL },
{ "interface", NULL },
{ "eap_server", NULL },
{ "gAPAutoShutOff", "0" },
{ "gEnablePhyAgcListenMode", "128" },
};
/** Supported operating mode */
char *hw_mode[HW_MODE_UNKNOWN] = {
"b", "g", "n", "g-only", "n-only", "a", "any", "ad"
};
/** configuration file path */
char *pconffile = CONFIG_FILE;
char *fIni = WIFI_DRIVER_CONF_FILE;
s8 ini_file[PROPERTY_VALUE_MAX] = {0};
static int qsap_scnprintf(char *str, size_t size, const char *format, ...)
{
va_list arg_ptr;
int ret = 0;
if (size < 1)
return 0;
va_start(arg_ptr, format);
ret = vsnprintf(str, size, format, arg_ptr);
va_end(arg_ptr);
return (ret < (int)size) ? ret : (int)(size - 1);
}
/**
* @brief
* For a give configuration parameter, read the configuration value from the file.
* @param pfile [IN] configuration file path
* @param pcmd [IN] pointer to the comand structure
* @param presp [OUT] buffer to store the configuration value
* @param plen [IN-OUT] The length of the buffer is provided as input.
* The length of the configuration parameter value, stored
* in the 'presp', is provided as the output
* @param ignore_comment [IN] if set, read the commented value also
* @return void
*/
static s32 qsap_read_cfg(s8 *pfile, struct Command * pcmd, s8 *presp, u32 *plen, s8 *var, s32 ignore_comment)
{
FILE *fcfg;
s8 buf[MAX_CONF_LINE_LEN];
u16 len;
s8 *val;
/** Open the configuration file */
fcfg = fopen(pfile, "r");
if(NULL == fcfg) {
ALOGE("%s : unable to open file \n", __func__);
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_RES_UNAVAILABLE);
return eERR_FILE_OPEN;
}
/** Read the line from the configuration file */
len = strlen(pcmd->name);
while(NULL != fgets(buf, MAX_CONF_LINE_LEN, fcfg)) {
s8 *pline = buf;
if (strlen(buf) == 0)
continue;
/** Skip the commented lines */
if(buf[0] == '#') {
if (ignore_comment) {
pline++;
}
else continue;
}
/** Identify the configuration parameter in the configuration file */
if(!strncmp(pline, pcmd->name, len) && (pline[len] == '=')) {
int tmp_indx;
/* Delate all \r \n combinations infront of the config string */
tmp_indx = strlen(buf)-1;
while( (buf[tmp_indx] == '\r') || (buf[tmp_indx] == '\n') ) tmp_indx--;
buf[tmp_indx+1] = '\0';
if ( NULL != var ) {
val = strchr(pline, '=');
if(NULL == val)
break;
*plen = qsap_scnprintf(presp, *plen, "%s %s%s", SUCCESS, var, val);
}
else {
*plen = qsap_scnprintf(presp, *plen, "%s %s", SUCCESS, pline);
}
fclose(fcfg);
return eSUCCESS;
}
}
#if 0
/** Configuration parameter is absent in the file */
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_FEATURE_NOT_ENABLED);
#else
/** Value not found in the configuration file */
/** Send the default value, if we are reading from ini file */
if ( pcmd->default_value ) {
*plen = qsap_scnprintf(presp, *plen, "%s %s=%s", SUCCESS, var?var:pcmd->name, pcmd->default_value);
fclose(fcfg);
return eSUCCESS;
}
else {
/** Configuration parameter is absent in the file */
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_FEATURE_NOT_ENABLED);
}
#endif
fclose(fcfg);
return eERR_CONFIG_PARAM_MISSING;
}
/**
* @brief
* Write the configuration parameter value into the configuration file.
* @param pfile [IN] configuration file path.
* @param pcmd [IN] command name
* @param pVal [IN] configuration parameter to be written to the file.
* @param presp [OUT] buffer to store the configuration value.
* @param plen [IN-OUT] The length of the buffer is provided as input.
* The length of the configuration parameter value, stored
* in the 'presp', is provided as the output
* @return void
*/
static s32 qsap_write_cfg(s8 *pfile, struct Command * pcmd, s8 *pVal, s8 *presp, u32 *plen, s32 inifile)
{
FILE *fcfg, *ftmp;
s8 buf[MAX_CONF_LINE_LEN+1];
s16 len, result = FALSE;
ALOGD("cmd=%s, Val:%s, INI:%ld \n", pcmd->name, pVal, inifile);
/** Open the configuration file */
fcfg = fopen(pfile, "r");
if(NULL == fcfg) {
ALOGE("%s : unable to open file \n", __func__);
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_RES_UNAVAILABLE);
return eERR_FILE_OPEN;
}
qsap_scnprintf(buf, sizeof(buf), "%s~", pfile);
/** Open a temporary file */
ftmp = fopen(buf, "w+");
if(NULL == ftmp) {
ALOGE("%s : unable to open tmp file \n", __func__);
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_RES_UNAVAILABLE);
fclose(fcfg);
return eERR_FILE_OPEN;
}
/** Read the values from the configuration file */
len = strlen(pcmd->name);
while(NULL != fgets(buf, MAX_CONF_LINE_LEN, fcfg)) {
s8 *pline = buf;
/** commented line */
if(buf[0] == '#')
pline++;
/** Identify the configuration parameter to be updated */
if((!strncmp(pline, pcmd->name, len)) && (result == FALSE)) {
if(pline[len] == '=') {
qsap_scnprintf(buf, sizeof(buf), "%s=%s\n", pcmd->name, pVal);
result = TRUE;
ALOGD("Updated:%s\n", buf);
}
}
if(inifile && (!strncmp(pline, "END", 3)))
break;
fprintf(ftmp, "%s", buf);
}
if (result == FALSE) {
/* Configuration line not found */
/* Add the new line at the end of file */
qsap_scnprintf(buf, sizeof(buf), "%s=%s\n", pcmd->name, pVal);
fprintf(ftmp, "%s", buf);
ALOGD("Adding a new line in %s file: [%s] \n", inifile ? "inifile" : "hostapd.conf", buf);
}
if(inifile) {
gIniUpdated = 1;
fprintf(ftmp, "END\n");
while(NULL != fgets(buf, MAX_CONF_LINE_LEN, fcfg))
fprintf(ftmp, "%s", buf);
}
fclose(fcfg);
fclose(ftmp);
qsap_scnprintf(buf, sizeof(buf), "%s~", pfile);
/** Restore the updated configuration file */
result = rename(buf, pfile);
*plen = qsap_scnprintf(presp, *plen, "%s", (result == eERR_UNKNOWN) ? ERR_FEATURE_NOT_ENABLED : SUCCESS);
/** Remove the temporary file. Dont care the return value */
unlink(buf);
/* chmod is needed because open() didn't set permisions properly */
if (chmod(pfile, 0660) < 0) {
ALOGE("Error changing permissions of %s to 0660: %s",
pfile, strerror(errno));
unlink(pfile);
return -1;
}
if(result == eERR_UNKNOWN)
return eERR_FEATURE_NOT_ENABLED;
return eSUCCESS;
}
/**
* @brief Read the security mode set in the configuration
* @param pfile [IN] configuration file path.
* @param presp [OUT] buffer to store the security mode.
* @param plen [IN-OUT] The length of the buffer is provided as input.
* The length of the security mode value, stored
* in the 'presp', is provided as the output
* @return void
*/
static sec_mode_t qsap_read_security_mode(s8 *pfile, s8 *presp, u32 *plen)
{
sec_mode_t mode;
u32 temp = *plen;
/** Read the WEP default key */
qsap_read_cfg(pfile, &cmd_list[eCMD_DEFAULT_KEY], presp, plen, NULL, GET_ENABLED_ONLY);
if ( !strcmp(presp, ERR_FEATURE_NOT_ENABLED) ) {
*plen = temp;
/* WEP, is not enabled */
/** Read WPA security status */
qsap_read_cfg(pfile, &qsap_str[STR_WPA], presp, plen, NULL, GET_ENABLED_ONLY);
if ( !strcmp(presp, ERR_FEATURE_NOT_ENABLED) ) {
/** WPA is disabled, No security */
mode = SEC_MODE_NONE;
}
else {
/** WPA, WPA2 or WPA-WPA2 mixed security */
s8 * ptmp = presp;
while((*plen)-- && (*ptmp++ != '=') );
mode = *plen ? (
*ptmp == '1' ? SEC_MODE_WPA_PSK :
*ptmp == '2' ? SEC_MODE_WPA2_PSK :
*ptmp == '3' ? SEC_MODE_WPA_WPA2_PSK : SEC_MODE_INVALID ): SEC_MODE_INVALID;
}
}
else {
/** Verify if, WPA is disabled */
*plen = temp;
qsap_read_cfg(pfile, &qsap_str[STR_WPA], presp, plen, NULL, GET_ENABLED_ONLY);
if ( !strcmp(presp, ERR_FEATURE_NOT_ENABLED) ) {
/** WPA is disabled, hence WEP is enabled */
mode = SEC_MODE_WEP;
}
else {
*plen = qsap_scnprintf(presp, temp, "%s", ERR_UNKNOWN);
return SEC_MODE_INVALID;
}
}
if(mode != SEC_MODE_INVALID) {
*plen = qsap_scnprintf(presp, temp,"%s %s=%d", SUCCESS, cmd_list[eCMD_SEC_MODE].name, mode);
}
else {
*plen = qsap_scnprintf(presp, temp,"%s", ERR_NOT_SUPPORTED);
}
return mode;
}
/**
* @brief
* Enable or disable a configuration parameter in the configuration file.
* @param pfile [IN] configuration file name
* @param pcmd [IN] configuration command structure
* @param status [IN] status to be set. The valid values are 'ENABLE' or 'DISABLE'
* @return On success, return 0
* On failure, return -1
*/
static s32 qsap_change_cfg(s8 *pfile, struct Command * pcmd, u32 status)
{
FILE *fcfg, *ftmp;
s8 buf[MAX_CONF_LINE_LEN+1];
u16 len;
/** Open the configuartion file */
fcfg = fopen(pfile, "r");
if(NULL == fcfg) {
ALOGE("%s : unable to open file \n", __func__);
return eERR_UNKNOWN;
}
qsap_scnprintf(buf, sizeof(buf), "%s~", pfile);
/** Open a temporary file */
ftmp = fopen(buf, "w");
if(NULL == ftmp) {
ALOGE("%s : unable to open tmp file \n", __func__);
fclose(fcfg);
return eERR_UNKNOWN;
}
/** Read the configuration parameters from the configuration file */
len = strlen(pcmd->name);
while(NULL != fgets(buf+1, MAX_CONF_LINE_LEN, fcfg)) {
s8 *p = buf+1;
/** Commented line */
if(p[0] == '#')
p++;
/** Identify the configuration parameter */
if(!strncmp(p, pcmd->name, len)) {
if(p[len] == '=') {
if(status == DISABLE) {
fprintf(ftmp, "#%s", p);
}
else {
fprintf(ftmp, "%s", p);
}
continue;
}
}
fprintf(ftmp, "%s", buf+1);
}
fclose(fcfg);
fclose(ftmp);
qsap_scnprintf(buf, sizeof(buf), "%s~", pfile);
/** Restore the new configuration file */
if(eERR_UNKNOWN == rename(buf, pfile)) {
ALOGE("unable to rename the file \n");
return eERR_UNKNOWN;
}
/** Delete the temporary file */
unlink(buf);
/* chmod is needed because open() didn't set permisions properly */
if (chmod(pfile, 0660) < 0) {
ALOGE("Error changing permissions of %s to 0660: %s",
pfile, strerror(errno));
unlink(pfile);
return -1;
}
return 0;
}
/**
* @brief
* Set the security mode in the configuration. The security mode
* can be :
* 1. No security
* 2. WEP
* 3. WPA
* 4. WPA2
* 5. WPA and WPA2 mixed mode
* @param pfile [IN] configuration file name
* @param sec_mode [IN] security mode to be set
* @param presp [OUTPUT] presp The command output format :
* On success,
* success <cmd>=<value>
* On failure,
* failure <error message>
* @param plen [IN-OUT] plen
* [IN] The length of the buffer, presp
* [OUT] The length of the response in the buffer, presp
* @return void
*/
static void qsap_set_security_mode(s8 *pfile, u32 sec_mode, s8 *presp, u32 *plen)
{
s16 wep, wpa;
s8 sec[MAX_INT_STR];
s32 rsn_status = DISABLE;
s32 ret = eERR_UNKNOWN;
/** Is valid security mode ? */
if(sec_mode >= SEC_MODE_INVALID) {
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_UNKNOWN);
return;
}
/** No security */
if(SEC_MODE_NONE == sec_mode) {
wep = DISABLE;
wpa = DISABLE;
}
/** WEP security */
else if(SEC_MODE_WEP == sec_mode) {
wep = ENABLE;
wpa = DISABLE;
}
else {
/** WPA, WPA2 and mixed-mode security */
u16 wpa_val;
u32 tmp = *plen;
wep = DISABLE;
wpa = ENABLE;
if(sec_mode == SEC_MODE_WPA_PSK)
wpa_val = WPA_IN_CONF_FILE;
else if(sec_mode == SEC_MODE_WPA2_PSK) {
wpa_val = WPA2_IN_CONF_FILE;
rsn_status = ENABLE;
}
else if(sec_mode == SEC_MODE_WPA_WPA2_PSK) {
wpa_val = WPA_WPA2_IN_CONF_FILE;
rsn_status = ENABLE;
}
qsap_scnprintf(sec, sizeof(sec), "%u", wpa_val);
qsap_write_cfg(pfile, &qsap_str[STR_WPA], sec, presp, plen, HOSTAPD_CONF_QCOM_FILE);
*plen = tmp;
}
/** The configuration parameters for the security to be set are enabled
* and the configuration parameters for the other security types are
* disabled in the configuration file
*/
if(eERR_UNKNOWN == qsap_change_cfg(pfile, &cmd_list[eCMD_DEFAULT_KEY], wep)) {
ALOGE("%s: wep_default_key error\n", __func__);
goto end;
}
if(eERR_UNKNOWN == qsap_change_cfg(pfile, &cmd_list[eCMD_WEP_KEY0], wep)) {
ALOGE("%s: CMD_WEP_KEY0 \n", __func__);
goto end;
}
if(eERR_UNKNOWN == qsap_change_cfg(pfile, &cmd_list[eCMD_WEP_KEY1], wep)) {
ALOGE("%s: CMD_WEP_KEY1 \n", __func__);
goto end;
}
if(eERR_UNKNOWN == qsap_change_cfg(pfile, &cmd_list[eCMD_WEP_KEY2], wep)) {
ALOGE("%s: CMD_WEP_KEY2 \n", __func__);
goto end;
}
if(eERR_UNKNOWN == qsap_change_cfg(pfile, &cmd_list[eCMD_WEP_KEY3], wep)) {
ALOGE("%s: CMD_WEP_KEY3 \n", __func__);
goto end;
}
if(eERR_UNKNOWN == qsap_change_cfg(pfile, &cmd_list[eCMD_PASSPHRASE], wpa)) {
ALOGE("%s: Passphrase error\n", __func__);
goto end;
}
if((sec_mode != SEC_MODE_NONE) && (sec_mode != SEC_MODE_WEP)) {
u32 state = !rsn_status;
if(sec_mode == SEC_MODE_WPA_WPA2_PSK) state = ENABLE;
if(eERR_UNKNOWN == qsap_change_cfg(pfile, &cmd_list[eCMD_WPA_PAIRWISE], state)) {
ALOGE("%s: WPA Pairwise\n", __func__);
goto end;
}
}
if(eERR_UNKNOWN == qsap_change_cfg(pfile, &cmd_list[eCMD_RSN_PAIRWISE], rsn_status)) {
ALOGE("%s: WPA2 Pairwise\n", __func__);
goto end;
}
if(eERR_UNKNOWN == qsap_change_cfg(pfile, &qsap_str[STR_WPA], wpa)) {
ALOGE("%s: WPA\n", __func__);
goto end;
}
ret = eSUCCESS;
end:
*plen = qsap_scnprintf(presp, *plen, "%s", (ret == eSUCCESS) ? SUCCESS : ERR_UNKNOWN);
return;
}
/**
* @brief
* Get the file path having the allow or deny MAC address list
* @param pcfgfile [IN] configuration file name
* @param pcmd [IN] pcmd pointer to the command string
* @param pfile [OUT] buffer to store the return value, containing the file name
* or the error message.
* @param plen [IN-OUT] size of the buffer 'pfile', is provided as input and
* the length of the file name is returned as output
* @return
* On success, a pointer to the file name in the buffer 'pfile'.
* On failure, NULL is returned
*/
static s8 *qsap_get_allow_deny_file_name(s8 *pcfgfile, struct Command * pcmd, s8 *pfile, u32 *plen)
{
if(eSUCCESS == qsap_read_cfg(pcfgfile, pcmd, pfile, plen, NULL, GET_ENABLED_ONLY)) {
return strchr(pfile, '=') + 1;
}
return NULL;
}
int qsap_hostd_exec(int argc, char ** argv) {
#define MAX_CMD_SIZE 256
char qcCmdBuf[MAX_CMD_SIZE], *pCmdBuf;
u32 len = MAX_CMD_SIZE;
int i = 2, ret;
if ( argc < 4 ) {
ALOGD("failure: invalid arguments");
return -1;
}
argc -= 2;
pCmdBuf = qcCmdBuf;
while (argc--) {
ret = snprintf(pCmdBuf, len, " %s", argv[i]);
if ((ret < 0) || (ret >= (int)len)) {
/* Error case */
/* TODO: Command too long send the error message */
*pCmdBuf = '\0';
break;
}
ALOGD("argv[%d] (%s)",i, argv[i]);
pCmdBuf += ret;
len -= ret;
i++;
}
ALOGD("QCCMD data (%s)", pCmdBuf);
len = MAX_CMD_SIZE;
qsap_hostd_exec_cmd(qcCmdBuf, qcCmdBuf, (u32*)&len);
return 0;
}
/** Function to identify a valid MAC address */
static int isValid_MAC_address(char *pMac)
{
int i, len;
len = strlen(pMac);
if(len < MAC_ADDR_LEN)
return FALSE;
for(i=0; i<MAC_ADDR_LEN; i++) {
switch(i) {
case 2: case 5: case 8: case 11: case 14:
if(pMac[i] != ':')
return FALSE;
break;
default:
if(isxdigit(pMac[i]) == 0)
return FALSE;
}
}
return TRUE;
}
/**
* @brief
* Add a given MAC address to the allow or deny MAC list file.
* A maximum of 15 MAC addresses are allowed in the list. If the input
* MAC addresses are more than the allowed number, then the allowed number
* of MAC addresses are updated to the MAC list file and the remaining
* MAC addresses are discarded
*
* @param pfile [IN] Path of the allow or deny MAC list file
* @param pVal [IN] A string containing one or more MAC addresses. Multiple
* MAC addresses are separated by a SPACE separator
* Ex. "11:22:33:44:55:66 77:88:99:00:88:00"
* @param presp [OUT] buffer to store the response
* @param plen [IN-OUT] The length of the buffer 'presp' is provided as input.
* The length of the response, stored in buffer 'presp' is
* provided as output.
* @return void
*/
static void qsap_add_mac_to_file(s8 *pfile, s8 *pVal, s8 *presp, u32 *plen)
{
s32 len;
s16 num_macs = 0;
s8 buf[32];
s8 macbuf[32];
FILE *fp;
/** Create the file if it does not exists and open it for reading */
fp = fopen(pfile, "a");
if(NULL != fp) {
fclose(fp);
fp = fopen(pfile, "r+");
}
if(NULL == fp) {
ALOGE("%s : unable to open the file \n", __func__);
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_RES_UNAVAILABLE);
return;
}
/** count the MAC address in the MAC list file */
while(NULL != (fgets(buf, 32, fp))) {
num_macs++;
}
/** Evaluate the allowed limit */
if(num_macs >= MAX_ALLOWED_MAC) {
ALOGE("%s : File is full\n", __func__);
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_UNKNOWN);
fclose(fp);
return;
}
/** Update all the input MAC addresses into the MAC list file */
len = strlen(pVal);
while(len > 0) {
int i = 0;
/** Get a MAC address from the input string */
while((*pVal != ' ' ) && (*pVal != '\0')) {
macbuf[i] = *pVal;
i++;
pVal++;
if(i == MAC_ADDR_LEN)
break;
}
macbuf[i] = '\0';
pVal++;
/** Is valid MAC address input ? */
if(TRUE == isValid_MAC_address(macbuf)) {
/** Append the MAC address to the file */
fprintf(fp, "%s\n", macbuf);
num_macs++;
/** Evaluate with the allowed limit */
if(num_macs == MAX_ALLOWED_MAC) {
ALOGE("MAC file is full now.... \n");
break;
}
}
len -= strlen(macbuf);
if(*pVal != '\0')
len--;
}
fclose(fp);
*plen = qsap_scnprintf(presp, *plen, "%s", SUCCESS);
return;
}
/**
* @brief
* Remove one or more MAC addresses from the allow or deny MAC list file.
* @param pfile [IN] path of the allow or deny list file.
* @param pVal [IN] a list of MAC addresses to be removed from the MAC list file.
* @param presp [OUT] the buffer to store the response
* @param plen [IN-OUT] The length of the 'presp' buffer is provided as input.
* The lenght of the response, stored in 'presp', is
* provided as output
* @return void
*/
static void qsap_remove_from_file(s8 *pfile, s8 *pVal, s8 *presp, u32 *plen)
{
FILE *fp;
FILE *ftmp;
s8 buf[MAX_CONF_LINE_LEN];
int status;
/** Open the allow or deny MAC list file */
fp = fopen(pfile, "r+");
if(NULL == fp) {
ALOGE("%s : unable to open the file \n", __func__);
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_RES_UNAVAILABLE);
return;
}
qsap_scnprintf(buf, sizeof(buf), "%s~", pfile);
/** Open a temporary file */
ftmp = fopen(buf, "w");
if(ftmp == NULL) {
ALOGE("%s : unable to open the file \n", __func__);
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_RES_UNAVAILABLE);
fclose(fp);
return;
}
/** Read all the MAC addresses from the file */
while(NULL != fgets(buf, MAX_CONF_LINE_LEN, fp)) {
s8 *plist;
s32 slen;
int write_back = 1;
plist = pVal;
slen = strlen(pVal);
/** Compare each MAC address in the file with all the
* input MAC addresses */
write_back = 1;
while(slen > 0) {
if(0 == strncmp(buf, plist, MAC_ADDR_LEN)) {
write_back = 0;
break;
}
while((*plist != ' ') && (*plist != '\0')) {
plist++;
slen--;
}
while(((*plist == ' ') || (*plist == '\t')) && (*plist != '\0')) {
plist++; slen--;
}
}
/** Update the file */
if(write_back) {
fprintf(ftmp, "%s", buf);
}
}
fclose(fp);
fclose(ftmp);
qsap_scnprintf(buf, sizeof(buf), "%s~", pfile);
/** Restore the configuration file */
status = rename(buf, pfile);
qsap_scnprintf(presp, *plen, "%s", (status == eERR_UNKNOWN) ? ERR_FEATURE_NOT_ENABLED : SUCCESS);
unlink(buf);
return;
}
/**
* @brief
* Identify the MAC list file and the type of updation on the file.
* The MAC list file can be : Allow file or Deny file.
* The type of operation is : Add to file or Delete from file
*
* @param file [IN] path of the allow or deny MAC list file.
* @param cNum [IN] command number to 'type of file' and the 'type of updation'
* to be done.
* @param pVal [IN] A list of one or more MAC addresses. Multiple MAC addresses
* are separated by a SPACE character
* @param presp [OUT] Buffer to store the command response
* @param plen [IN-OUT] The length of the 'presp' buffer is provided as input
* The length of the response, stored in the 'presp' is provided
* as the output
* @return void
*/
static void qsap_update_mac_list(s8 *pfile, esap_cmd_t cNum, s8 *pVal, s8 *presp, u32 *plen)
{
ALOGD("%s : Updating file %s \n", __func__, pfile);
switch(cNum) {
case eCMD_ADD_TO_ALLOW:
case eCMD_ADD_TO_DENY:
qsap_add_mac_to_file(pfile, pVal, presp, plen);
break;
case eCMD_REMOVE_FROM_ALLOW:
case eCMD_REMOVE_FROM_DENY:
qsap_remove_from_file(pfile, pVal, presp, plen);
break;
default:
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_UNKNOWN);
return;
}
return;
}
/**
* @brief
* @param fconfig [INPUT] configuration file name
* @param cNum [INPUT] command number. The valid command numbers supported by
* this function are :
* eCMD_ALLOW_LIST - Get the MAC address list from the allow list
* eCMD_DENY_LIST - Get the MAC address list from the deny list
* @param presp [OUTPUT] presp The command output format :
* On success,
* success <cmd>=<value>
* On failure,
* failure <error message>
* @param plen [IN-OUT] plen
* [IN] The length of the buffer, presp
* [OUT] The length of the response in the buffer, presp
* @return void
**/
static void qsap_get_mac_list(s8 *fconfile, esap_cmd_t cNum, s8 *presp, u32 *plen)
{
s8 buf[MAX_CONF_LINE_LEN];
FILE *fp;
u32 len_remain;
s8 *pfile, *pOut;
esap_cmd_t sNum;
int cnt = 0;
/** Identify the allow or deny file */
if(eCMD_ALLOW_LIST == cNum) {
sNum = STR_ACCEPT_MAC_FILE;
}
else if(eCMD_DENY_LIST == cNum) {
sNum = STR_DENY_MAC_FILE;
}
else {
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_UNKNOWN);
return;
}
/** Get the MAC allow or MAC deny file path */
len_remain = MAX_CONF_LINE_LEN;
if(NULL == (pfile = qsap_get_allow_deny_file_name(fconfile, &qsap_str[sNum], buf, &len_remain))) {
ALOGE("%s:Unknown error\n", __func__);
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_RES_UNAVAILABLE);
return;
}
/** Open allow / deny file, and read the MAC addresses */
fp = fopen(pfile, "r");
if(NULL == fp) {
ALOGE("%s: file open error\n",__func__);
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_RES_UNAVAILABLE);
return;
}
*plen -= qsap_scnprintf(presp, *plen, "%s %s=", SUCCESS, cmd_list[cNum].name);
pOut = presp + strlen(presp);
/** Read the MAC address from the MAC allow or deny file */
while(NULL != (fgets(buf, MAX_CONF_LINE_LEN, fp))) {
u32 len;
/** Avoid the commented lines */
if(buf[0] == '#')
continue;
if(FALSE == isValid_MAC_address(buf))
continue;
buf[strlen(buf)-1] = '\0';
if(*plen < strlen(buf)) {
*pOut = '\0';
break;
}
len = qsap_scnprintf(pOut, *plen, "%s ", buf);
cnt++;
if (cnt >= MAX_ALLOWED_MAC) {
break;
}
pOut += len;
*plen -= len;
}
*plen = strlen(presp);
fclose(fp);
return;
}
static int qsap_read_mac_address(s8 *presp, u32 *plen)
{
char *ptr;
char mac[MAC_ADDR_LEN];
u32 len, i;
int nRet = eERR_INVALID_MAC_ADDR;
len = *plen;
if(eSUCCESS != qsap_read_cfg(fIni, &qsap_str[STR_MAC_IN_INI], presp, plen, cmd_list[eCMD_MAC_ADDR].name, GET_ENABLED_ONLY)) {
ALOGE("%s :MAC addr read failure \n",__func__);
goto end;
}
ptr = strchr(presp, '=');
if(NULL == ptr)
goto end;
strlcpy(mac, ptr+1, MAC_ADDR_LEN);
*plen = qsap_scnprintf(presp, len, "%s %s=", SUCCESS, cmd_list[eCMD_MAC_ADDR].name);
ptr = presp + strlen(presp);
len -= strlen(presp); /* decrease the total available buf length */
for(i=0; i<MAC_ADDR_LEN-5; i+=2) {
u32 tlen;
tlen = qsap_scnprintf(ptr, len, "%c%c:", mac[i], mac[i+1]);
*plen += tlen;
ptr += tlen;
len -= tlen; /* decrease the available len of ptr */
}
presp[*plen-1] = '\0';
(*plen)--;
ptr = strchr(presp, '=');
if(NULL == ptr)
goto end;
ptr++;
ALOGD("MAC :%s \n", ptr);
if(TRUE == isValid_MAC_address(ptr)) {
nRet = eSUCCESS;
}
else {
ALOGE("Invalid MAC in conf file \n");
}
end:
return nRet;
}
s8 *qsap_get_config_value(s8 *pfile, struct Command *pcmd, s8 *pbuf, u32 *plen)
{
s8 *ptr = NULL;
if(eSUCCESS == qsap_read_cfg(pfile, pcmd, pbuf, (u32 *)plen, NULL, GET_ENABLED_ONLY)) {
ptr = strchr(pbuf, '=');
if(NULL != ptr){
ptr++;
}
else {
ALOGE("Invalid entry, %s\n", pcmd->name);
}
}
return ptr;
}
static void qsap_read_wps_state(s8 *presp, u32 *plen)
{
u32 tlen = *plen;
s32 status;
s8 *pstate;
if(NULL == (pstate = qsap_get_config_value(pconffile, &cmd_list[eCMD_WPS_STATE], presp, &tlen))) {
/** unable to read the wps configuration, WPS is disabled !*/
ALOGD("%s :wps_state not in cfg file \n", __func__);
status = DISABLE;
}
else {
status = (atoi(pstate) == WPS_STATE_ENABLE) ? ENABLE : DISABLE;
}
*plen = qsap_scnprintf(presp, *plen, "success %s=%ld", cmd_list[eCMD_WPS_STATE].name, status);
return;
}
/**
* Get the channel being used in the soft AP.
*/
int qsap_get_operating_channel(s32 *pchan)
{
int sock;
struct iwreq wrq;
s8 interface[MAX_CONF_LINE_LEN];
u32 len = MAX_CONF_LINE_LEN;
s8 *pif;
int ret;
if(ENABLE != is_softap_enabled()) {
goto error;
}
if(NULL == (pif = qsap_get_config_value(pconffile, &qsap_str[STR_INTERFACE], interface, &len))) {
ALOGE("%s :interface error \n", __func__);
goto error;
}
interface[len] = '\0';
sock = socket(AF_INET, SOCK_DGRAM, 0);
if(sock < 0) {
ALOGE("%s :socket error \n", __func__);
goto error;
}
*pchan = 0;
strlcpy(wrq.ifr_name, pif, sizeof(wrq.ifr_name));
wrq.u.data.length = sizeof(s32);
wrq.u.data.pointer = pchan;
wrq.u.data.flags = 0;
ret = ioctl(sock, QCSAP_IOCTL_GET_CHANNEL, &wrq);
if(ret < 0) {
ALOGE("%s: ioctl failure \n",__func__);
close(sock);
goto error;
}
ALOGE("Recv len :%d \n", wrq.u.data.length);
*pchan = *(int *)(&wrq.u.name[0]);
ALOGE("Operating channel :%ld \n", *pchan);
close(sock);
return eSUCCESS;
error:
*pchan = 0;
ALOGE("%s: Failed to read channel \n", __func__);
return eERR_CHAN_READ;
}
/**
* Get the sap auto channel selection for soft AP.
*/
int qsap_get_sap_auto_channel_selection(s32 *pautochan)
{
int sock;
struct iwreq wrq;
s8 interface[MAX_CONF_LINE_LEN];
u32 len = MAX_CONF_LINE_LEN;
s8 *pif;
int ret;
sap_auto_channel_info sap_autochan_info;
s32 *pchan;
if(ENABLE != is_softap_enabled()) {
ALOGE("%s :is_softap_enabled() goto error \n", __func__);
goto error;
}
if(NULL == (pif = qsap_get_config_value(pconffile,
&qsap_str[STR_INTERFACE], interface, &len))) {
ALOGD("%s :interface error \n", __func__);
goto error;
}
interface[len] = '\0';
sock = socket(AF_INET, SOCK_DGRAM, 0);
if(sock < 0) {
ALOGD("%s :socket error \n", __func__);
goto error;
}
*pautochan = 0;
memset(&sap_autochan_info, 0, sizeof(sap_autochan_info));
memset(&wrq, 0, sizeof(wrq));
strlcpy(wrq.ifr_name, pif, sizeof(wrq.ifr_name));
wrq.u.data.length = sizeof(s32);
sap_autochan_info.subioctl = QCSAP_PARAM_GET_AUTO_CHANNEL;
wrq.u.data.pointer = pautochan;
memcpy(wrq.u.name, (char *)(&sap_autochan_info), sizeof(sap_autochan_info));
wrq.u.data.flags = 0;
ret = ioctl(sock, QCSAP_IOCTL_GETPARAM, &wrq);
if(ret < 0) {
ALOGE("%s: ioctl failure \n",__func__);
close(sock);
goto error;
}
ALOGD("Recv len :%d \n", wrq.u.data.length);
*pautochan = *(int *)(&wrq.u.name[0]);
ALOGD("Sap auto channel selection pautochan=%ld \n", *pautochan);
close(sock);
return eSUCCESS;
error:
*pautochan = 0;
ALOGE("%s: Failed to read sap auto channel selection\n", __func__);
return eERR_GET_AUTO_CHAN;
}
static int iftypeCallback(struct nl_msg* msg, void* arg)
{
struct nlmsghdr* ret_hdr = nlmsg_hdr(msg);
struct nlattr *tb_msg[NL80211_ATTR_MAX + 1];
int* type = arg;
struct genlmsghdr *gnlh = (struct genlmsghdr*) nlmsg_data(ret_hdr);
nla_parse(tb_msg, NL80211_ATTR_MAX, genlmsg_attrdata(gnlh, 0),
genlmsg_attrlen(gnlh, 0), NULL);
if (tb_msg[NL80211_ATTR_IFTYPE]) {
*type = nla_get_u32(tb_msg[NL80211_ATTR_IFTYPE]);
}
return NL_SKIP;
}
/**
* Get the mode of operation.
*/
int qsap_get_mode(s32 *pmode)
{
int ret = eERR_UNKNOWN;
struct nl_sock* sk = NULL;
int nl80211_id = -1;
int if_type = -1;
s8 interface[MAX_CONF_LINE_LEN];
u32 len = MAX_CONF_LINE_LEN;
s8 *pif;
struct nl_msg* msg = NULL;
//get interface name
if(NULL == (pif = qsap_get_config_value(pconffile,
&qsap_str[STR_INTERFACE], interface, &len))) {
ALOGD("%s :interface error \n", __func__);
goto nla_put_failure;
}
interface[len] = '\0';
//allocate socket
sk = nl_socket_alloc();
//return if socket allocation fails
if(sk == NULL){
ALOGE( "socket allocation failure");
return ret;
}
//connect to generic netlink
if (genl_connect(sk)) {
ALOGE( "Netlink socket Connection failure");
ret = eERR_UNKNOWN;
goto nla_put_failure;
}
//find the nl80211 driver ID
nl80211_id = genl_ctrl_resolve(sk, "nl80211");
//attach a callback
nl_socket_modify_cb(sk, NL_CB_VALID, NL_CB_CUSTOM,
iftypeCallback, &if_type);
//allocate a message
msg = nlmsg_alloc();
//return if message allocation fails
if(msg == NULL){
ALOGE( "message allocation failure");
goto nla_put_failure;
}
// setup the message
genlmsg_put(msg, 0, 0, nl80211_id, 0, 0, NL80211_CMD_GET_INTERFACE, 0);
//add message attributes
NLA_PUT_U32(msg, NL80211_ATTR_IFINDEX, if_nametoindex(pif));
// Send the message
ret = nl_send_auto_complete(sk, msg);
if (ret < 0 ) {
ALOGE( "nl_send_auto_complete failure");
ret = eERR_UNKNOWN;
goto nla_put_failure;
}
//block for message to return
nl_recvmsgs_default(sk);
*pmode = if_type;
ALOGI("%s: (%s) NL80211 Get Mode = %d \n",__func__, pif, (int)*pmode);
ret = eSUCCESS;
nla_put_failure:
if (sk)
nl_socket_free(sk);
if (msg)
nlmsg_free(msg);
return ret;
}
/**
* Set the channel Range for soft AP.
*/
int qsap_set_channel_range(s8 *buf)
{
int sock;
struct iwreq wrq;
s8 interface[MAX_CONF_LINE_LEN];
u32 len = MAX_CONF_LINE_LEN;
s8 *pif;
s8 *temp;
int ret, i;
sap_channel_info sap_chan_range;
sta_channel_info sta_chan_range;
ALOGE("buf :%s\n", buf);
temp = buf;
temp = strchr(buf, '=');
if (NULL == temp) {
goto error;
}
temp++;
if (NULL == (pif = qsap_get_config_value(pconffile,
&qsap_str[STR_INTERFACE], interface, &len))) {
ALOGE("%s :interface error\n", __func__);
goto error;
}
interface[len] = '\0';
sock = socket(AF_INET, SOCK_DGRAM, 0);
if (sock < 0) {
ALOGE("%s :socket error\n", __func__);
goto error;
}
memset(&sap_chan_range, 0, sizeof(sap_chan_range));
memset(&sta_chan_range, 0, sizeof(sta_chan_range));
memset(&wrq, 0, sizeof(wrq));
if (ENABLE != is_softap_enabled()) {
strlcpy(wrq.ifr_name, "wlan0", sizeof(wrq.ifr_name));
sta_chan_range.subioctl = WE_SET_SAP_CHANNELS;
ret = sscanf(temp, "%d %d %d", &(sta_chan_range.stastartchan),
&(sta_chan_range.staendchan), &(sta_chan_range.staband));
if (3 != ret) {
ALOGE("%s : sscanf is not successful\n", __func__);
close(sock);
goto error;
}
memcpy(wrq.u.name, (char *)(&sta_chan_range), sizeof(sta_chan_range));
ALOGE("%s :Softap is off,Send SET_CHANNEL_RANGE over sta interface\n",
__func__);
ret = ioctl(sock, WLAN_PRIV_SET_THREE_INT_GET_NONE, &wrq);
} else {
strlcpy(wrq.ifr_name, pif, sizeof(wrq.ifr_name));
ret = sscanf(temp, "%d %d %d", &(sap_chan_range.startchan),
&(sap_chan_range.endchan), &(sap_chan_range.band));
if (3 != ret) {
ALOGE("%s : sscanf is not successful\n", __func__);
close(sock);
goto error;
}
memcpy(wrq.u.name, (char *)(&sap_chan_range), sizeof(sap_chan_range));
ALOGE("%s :SAP is on,Send SET_CHANNEL_RANGE over softap interface\n",
__func__);
ret = ioctl(sock, QCSAP_IOCTL_SET_CHANNEL_RANGE, &wrq);
}
if (ret < 0) {
ALOGE("%s: ioctl failure\n", __func__);
close(sock);
goto error;
}
ALOGE("Recv len :%d\n", wrq.u.data.length);
close(sock);
return eSUCCESS;
error:
ALOGE("%s: Failed to set channel range\n", __func__);
return eERR_SET_CHAN_RANGE;
}
int qsap_read_channel(s8 *pfile, struct Command *pcmd, s8 *presp, u32 *plen, s8 *pvar)
{
s8 *pval;
s32 chan;
u32 len = *plen;
if(eSUCCESS == qsap_get_operating_channel(&chan)) {
*plen = qsap_scnprintf(presp, len, "%s %s=%lu", SUCCESS, pcmd->name, chan);
ALOGD("presp :%s\n", presp);
} else {
*plen = qsap_scnprintf(presp, len, "%s", ERR_UNKNOWN);
}
return eSUCCESS;
}
int qsap_read_auto_channel(struct Command *pcmd, s8 *presp, u32 *plen)
{
s8 *pval, *pautoval;
s32 pautochan;
u32 len = *plen;
int autochan;
ALOGE("%s :\n", __func__);
if (eSUCCESS == qsap_get_sap_auto_channel_selection(&pautochan)) {
*plen = qsap_scnprintf(presp, len, "%s autochannel=%lu", SUCCESS, pautochan);
ALOGE("presp :%s\n", presp);
} else {
*plen = qsap_scnprintf(presp, len, "%s", ERR_UNKNOWN);
}
return eSUCCESS;
}
static int qsap_mac_to_macstr(s8 *pmac, u32 slen, s8 *pmstr, u32 *plen)
{
int len;
int totlen = 0;
while((slen > 0) && (*plen > 0)) {
len = qsap_scnprintf(pmstr, *plen, "%.2X:%.2X:%.2X:%.2X:%.2X:%.2X ", (int)pmac[0], (int)pmac[1], (int)pmac[2],
(int)pmac[3], (int)pmac[4], (int)pmac[5]);
pmac += 6;
slen -= 6;
*plen -= len;
pmstr += len;
totlen += len;
}
if(totlen > 0) {
*pmstr--;
totlen--;
}
*pmstr = '\0';
*plen = totlen;
return 0;
}
#define MAX_STA_ALLOWED 8
void qsap_get_associated_sta_mac(s8 *presp, u32 *plen)
{
int sock, ret;
struct iwreq wrq;
s8 interface[MAX_CONF_LINE_LEN];
u32 len = MAX_CONF_LINE_LEN;
s8 *pif;
s8 *pbuf, *pout;
u32 buflen;
u32 recvLen;
u32 tlen;
if(ENABLE != is_softap_enabled()) {
goto error;
}
if(NULL == (pif = qsap_get_config_value(pconffile, &qsap_str[STR_INTERFACE], interface, &len))) {
ALOGE("%s :interface error \n", __func__);
goto error;
}
interface[len] = '\0';
sock = socket(AF_INET, SOCK_DGRAM, 0);
if(sock < 0) {
ALOGE("%s :socket failure \n", __func__);
goto error;
}
/* response has length field + 6 bytes per STA */
buflen = sizeof(u32) + (MAX_STA_ALLOWED * 6);
pbuf = (s8 *)malloc(buflen);
if(NULL == pbuf) {
ALOGE("%s :No memory \n", __func__);
close(sock);
goto error;
}
#define SIZE_OF_MAC_INT (6)
strlcpy(wrq.ifr_name, pif, sizeof(wrq.ifr_name));
wrq.u.data.length = buflen;
wrq.u.data.pointer = (void *)pbuf;
wrq.u.data.flags = 0;
ret = ioctl(sock, QCSAP_IOCTL_ASSOC_STA_MACADDR, &wrq);
if(ret < 0) {
ALOGE("%s :ioctl failure \n", __func__);
free(pbuf);
close(sock);
goto error;
}
recvLen = *(u32 *)(wrq.u.data.pointer);
recvLen -= sizeof(u32);
len = qsap_scnprintf(presp, *plen, "%s %s=", SUCCESS, cmd_list[eCMD_ASSOC_STA_MACS].name);
pout = presp + len;
tlen = *plen - len;
qsap_mac_to_macstr(pbuf+sizeof(u32), recvLen, pout, &tlen);
*plen = len + tlen;
free(pbuf);
close(sock);
return;
error:
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_UNKNOWN);
return;
}
static void qsap_read_wep_key(s8 *pfile, struct Command *pcmd, s8 *presp, u32 *plen, s8 *var)
{
s8 *pwep;
s8 *pkey;
if(eSUCCESS != qsap_read_cfg(pfile, pcmd, presp, plen, var, GET_COMMENTED_VALUE))
return;
pwep = strchr(presp, '=');
if(NULL == pwep)
return;
pwep++;
if(pwep[0] == '"') {
pkey = pwep;
pwep++;
while(*pwep != '\0') {
*pkey = *pwep;
pkey++;
pwep++;
}
*pkey--;
*pkey = '\0';
*plen -= 2;
}
return;
}
void qsap_read_ap_stats(s8 *presp, u32 *plen)
{
int sock, ret;
struct iwreq wrq;
s8 interface[MAX_CONF_LINE_LEN];
u32 len = MAX_CONF_LINE_LEN;
s8 *pif;
s8 *pbuf, *pout;
u32 tlen;
if(ENABLE != is_softap_enabled()) {
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_SOFTAP_NOT_STARTED);
return;
}
if(NULL == (pif = qsap_get_config_value(pconffile, &qsap_str[STR_INTERFACE], interface, &len))) {
ALOGE("%s :interface error \n", __func__);
goto error;
}
interface[len] = '\0';
sock = socket(AF_INET, SOCK_DGRAM, 0);
if(sock < 0) {
ALOGE("%s :socket failure \n", __func__);
goto error;
}
pbuf = (s8 *)malloc(MAX_RESP_LEN);
if(NULL == pbuf) {
ALOGE("%s :No memory \n", __func__);
close(sock);
goto error;
}
strlcpy(wrq.ifr_name, pif, sizeof(wrq.ifr_name));
wrq.u.data.length = MAX_RESP_LEN;
wrq.u.data.pointer = (void *)pbuf;
wrq.u.data.flags = 0;
ret = ioctl(sock, QCSAP_IOCTL_AP_STATS, &wrq);
if(ret < 0) {
ALOGE("%s :ioctl failure \n", __func__);
free(pbuf);
close(sock);
goto error;
}
*plen = qsap_scnprintf(presp, *plen, "%s %s=%s", SUCCESS, cmd_list[eCMD_AP_STATISTICS].name, pbuf);
free(pbuf);
close(sock);
return;
error:
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_UNKNOWN);
return;
}
void qsap_read_autoshutoff(s8 *presp, u32 *plen)
{
u32 tlen, time = 0;
s8 *ptime;
tlen = *plen;
if(NULL == (ptime = qsap_get_config_value(fIni, &qsap_str[STR_AP_AUTOSHUTOFF], presp, &tlen))) {
/** unable to read the AP shutoff time */
ALOGE("%s :Failed to read AP shutoff time\n", __func__);
}
else {
time = atoi(ptime);
time = time / 60; /** Convert seconds to minutes */
}
*plen = qsap_scnprintf(presp, *plen, "success %s=%ld", cmd_list[eCMD_AP_AUTOSHUTOFF].name, time);
return;
}
/**
* @brief
* Get the configuration information from the softAP configuration
* files
* @param cNum [INPUT]
* @param presp [OUTPUT] presp The command output format :
* On success,
* success <cmd>=<value>
* On failure,
* failure <error message>
* @param plen [IN-OUT] plen
* [IN] The length of the buffer, presp
* [OUT] The length of the response in the buffer, presp
* @return void
**/
static void qsap_get_from_config(esap_cmd_t cNum, s8 *presp, u32 *plen)
{
u32 len;
int status;
s8 * pval;
switch(cNum) {
case eCMD_ENABLE_SOFTAP:
status = is_softap_enabled();
*plen = qsap_scnprintf(presp, *plen, "%s %s=%d", SUCCESS, cmd_list[cNum].name, status);
break;
case eCMD_WPA_PAIRWISE:
case eCMD_RSN_PAIRWISE:
case eCMD_DEFAULT_KEY:
case eCMD_PASSPHRASE:
case eCMD_GTK_TIMEOUT:
qsap_read_cfg(pconffile, &cmd_list[cNum], presp, plen, NULL, GET_COMMENTED_VALUE);
break;
case eCMD_SSID:
case eCMD_BSSID:
case eCMD_BCN_INTERVAL:
case eCMD_DTIM_PERIOD:
case eCMD_HW_MODE:
case eCMD_AUTH_ALGS:
case eCMD_MAC_ACL:
case eCMD_WPS_CONFIG_METHOD:
case eCMD_UUID:
case eCMD_DEVICE_NAME:
case eCMD_MANUFACTURER:
case eCMD_MODEL_NAME:
case eCMD_MODEL_NUMBER:
case eCMD_SERIAL_NUMBER:
case eCMD_DEVICE_TYPE:
case eCMD_OS_VERSION:
case eCMD_FRIENDLY_NAME:
case eCMD_MANUFACTURER_URL:
case eCMD_MODEL_DESC:
case eCMD_MODEL_URL:
case eCMD_UPC:
case eCMD_SDK_VERSION:
case eCMD_COUNTRY_CODE:
qsap_read_cfg(pconffile, &cmd_list[cNum], presp, plen, NULL, GET_ENABLED_ONLY);
break;
case eCMD_WEP_KEY0:
case eCMD_WEP_KEY1:
case eCMD_WEP_KEY2:
case eCMD_WEP_KEY3:
qsap_read_wep_key(pconffile, &cmd_list[cNum], presp, plen, NULL);
break;
case eCMD_CHAN:
qsap_read_channel(pconffile, &cmd_list[cNum], presp, plen, NULL);
break;
case eCMD_FRAG_THRESHOLD:
case eCMD_REGULATORY_DOMAIN:
case eCMD_RTS_THRESHOLD:
case eCMD_IEEE80211H:
qsap_read_cfg(pconffile, &cmd_list[cNum], presp, plen, NULL, GET_ENABLED_ONLY);
break;
case eCMD_ALLOW_LIST: /* fall through */
case eCMD_DENY_LIST:
qsap_get_mac_list(pconffile, cNum, presp, plen);
break;
case eCMD_SEC_MODE:
qsap_read_security_mode(pconffile, presp, plen);
break;
case eCMD_MAC_ADDR:
if(eSUCCESS != qsap_read_mac_address(presp, plen)) {
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_NOT_SUPPORTED);
}
break;
case eCMD_WMM_STATE:
qsap_read_cfg(pconffile, &cmd_list[cNum], presp, plen, NULL, GET_ENABLED_ONLY);
break;
case eCMD_WPS_STATE:
qsap_read_wps_state(presp, plen);
break;
case eCMD_PROTECTION_FLAG:
qsap_read_cfg(fIni, &qsap_str[STR_PROT_FLAG_IN_INI], presp, plen, cmd_list[eCMD_PROTECTION_FLAG].name, GET_ENABLED_ONLY);
break;
case eCMD_DATA_RATES:
qsap_read_cfg(fIni, &qsap_str[STR_DATA_RATE_IN_INI], presp, plen, cmd_list[eCMD_DATA_RATES].name, GET_ENABLED_ONLY);
break;
case eCMD_ASSOC_STA_MACS:
qsap_get_associated_sta_mac(presp, plen);
break;
case eCMD_TX_POWER:
qsap_read_cfg(fIni, &qsap_str[STR_TX_POWER_IN_INI], presp, plen, cmd_list[eCMD_TX_POWER].name, GET_ENABLED_ONLY);
break;
case eCMD_INTRA_BSS_FORWARD:
qsap_read_cfg(pconffile, &cmd_list[eCMD_INTRA_BSS_FORWARD], presp, plen, NULL, GET_ENABLED_ONLY);
break;
case eCMD_AP_STATISTICS:
qsap_read_ap_stats(presp, plen);
break;
case eCMD_AP_AUTOSHUTOFF:
qsap_read_autoshutoff(presp, plen);
break;
case eCMD_AP_ENERGY_DETECT_TH:
qsap_read_cfg(fIni, &qsap_str[STR_AP_ENERGY_DETECT_TH], presp, plen, cmd_list[eCMD_AP_ENERGY_DETECT_TH].name, GET_ENABLED_ONLY);
break;
case eCMD_GET_AUTO_CHANNEL:
qsap_read_auto_channel(&cmd_list[cNum],presp, plen);
break;
default:
/** Error case */
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_INVALID_ARG);
}
len = *plen-1;
/** Remove the space or tabs in the end of response */
while(len) {
if((presp[len] == ' ') || (presp[len] == '\t'))
len--;
else
break;
}
presp[len+1] = '\0';
*plen = len+1;
return;
}
/**
* @brief
* Identify the command number corresponding to the input user command.
* @param cName [INPUT] command name
* @return
* On success,
* command number in the range 0 to (eCMD_INVALID-1)
* On failure,
* eCMD_INVALID
**/
static esap_cmd_t qsap_get_cmd_num(s8 *cName)
{
s16 i, len;
for(i=0; i<eCMD_LAST; i++) {
len = strlen(cmd_list[i].name);
if(!strncmp(cmd_list[i].name, cName, len)) {
if((cName[len] == '=') || (cName[len] == '\0'))
return i;
}
}
return eCMD_INVALID;
}
/**
* @brief
* Handle the user requests of the form,
* "get <cmd num> [<value1> ...]"
* These commands are used to retreive the soft AP
* configuration information
*
* @param pcmd [IN] pointer to the structure, storing the command.
* @param presp [OUT] pointer to the buffer, to store the command response.
* The command output format :
* On success,
* success <cmd>=<value>
* On failure,
* failure <error message>
* @param plen [IN-OUT]
* [IN] : Maximum length of the reponse buffer
* [OUT]: Reponse length
* @return
* void
*/
static void qsap_handle_get_request(s8 *pcmd, s8 *presp, u32 *plen)
{
esap_cmd_t cNum;
pcmd += strlen("get");
SKIP_BLANK_SPACE(pcmd);
cNum = qsap_get_cmd_num(pcmd);
if(cNum == eCMD_INVALID) {
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_INVALID_PARAM);
return;
}
qsap_get_from_config(cNum, presp, plen);
return;
}
static s16 is_valid_wep_key(s8 *pwep, s8 *pkey, s16 len)
{
int weplen;
s16 ret = TRUE;
int ascii = FALSE;
weplen = strlen(pwep);
/** Remove the double quotes if any */
if((pwep[0] == '"') && (pwep[weplen-1] == '"')) {
pwep[weplen-1] = '\0';
pwep++;
weplen -= 2;
}
/** The WEP key should be of length 5, 13 or 16 characters
* or 10, 26, or 32 digits */
switch(weplen) {
case WEP_64_KEY_ASCII:
case WEP_128_KEY_ASCII:
case WEP_152_KEY_ASCII:
weplen--;
while(weplen--) {
if(0 == isascii(pwep[weplen])) {
ALOGD("%c not ascii \n", pwep[weplen]);
return FALSE;
}
}
ascii = TRUE;
break;
case WEP_64_KEY_HEX:
case WEP_128_KEY_HEX:
case WEP_152_KEY_HEX:
while(weplen--) {
if(0 == isxdigit(pwep[weplen]))
return FALSE;
}
break;
default:
ret = FALSE;
}
qsap_scnprintf(pkey, len, (ascii == TRUE) ? "\"%s\"" : "%s", pwep);
return ret;
}
s16 wifi_qsap_reset_to_default(s8 *pcfgfile, s8 *pdefault)
{
FILE *fcfg, *ftmp;
char buf[MAX_CONF_LINE_LEN];
int status = eSUCCESS;
fcfg = fopen(pdefault, "r");
if(NULL == fcfg) {
ALOGE("%s : unable to open file \n", __func__);
return eERR_FILE_OPEN;
}
qsap_scnprintf(buf, sizeof(buf), "%s~", pcfgfile);
ftmp = fopen(buf, "w+");
if(NULL == ftmp) {
ALOGE("%s : unable to open file \n", __func__);
fclose(fcfg);
return eERR_FILE_OPEN;
}
while(NULL != fgets(buf, MAX_CONF_LINE_LEN, fcfg)) {
fprintf(ftmp, "%s", buf);
}
fclose(fcfg);
fclose(ftmp);
qsap_scnprintf(buf, sizeof(buf), "%s~", pcfgfile);
if(eERR_UNKNOWN == rename(buf, pcfgfile))
status = eERR_CONF_FILE;
/** Remove the temporary file. Dont care the return value */
unlink(buf);
return status;
}
#define CTRL_IFACE_PATH_LEN (128)
void qsap_del_ctrl_iface(void)
{
u32 len;
s8 dst_path[CTRL_IFACE_PATH_LEN], *pcif, *pif;
s8 interface[64];
s8 path[CTRL_IFACE_PATH_LEN + 64];
len = CTRL_IFACE_PATH_LEN;
if(NULL == (pcif = qsap_get_config_value(pconffile, &qsap_str[STR_CTRL_INTERFACE], dst_path, &len))) {
ALOGE("%s :ctrl_iface path error \n", __func__);
goto error;
}
len = 64;
if(NULL == (pif = qsap_get_config_value(pconffile, &qsap_str[STR_INTERFACE], interface, &len))) {
ALOGE("%s :interface error \n", __func__);
goto error;
}
if ((int)sizeof(path) <= snprintf(path, sizeof(path), "%s/%s", pcif, pif)) {
ALOGE("Iface path : truncating error, %s \n", path);
goto error;
}
unlink(path);
error:
return;
}
static int qsap_send_cmd_to_hostapd(s8 *pcmd)
{
int sock;
struct sockaddr_un cli;
struct sockaddr_un ser;
struct timeval timeout;
int ret = eERR_SEND_TO_HOSTAPD;
u32 len;
fd_set read;
s8 dst_path[CTRL_IFACE_PATH_LEN], *pcif, *pif;
s8 interface[64];
s8 *ptr;
u32 retry_cnt = 3;
size_t ptr_size;
len = CTRL_IFACE_PATH_LEN;
ptr_size = (sizeof(ser.sun_path) < CTRL_IFACE_PATH_LEN)?
CTRL_IFACE_PATH_LEN : sizeof(ser.sun_path);
ptr = malloc(ptr_size);
if(NULL == ptr) {
ALOGE("%s :No memory \n", __func__);
return ret;
}
if(NULL == (pcif = qsap_get_config_value(pconffile, &qsap_str[STR_CTRL_INTERFACE], dst_path, &len))) {
ALOGE("%s :ctrl_iface path error \n", __func__);
goto error;
}
len = 64;
if(NULL == (pif = qsap_get_config_value(pconffile, &qsap_str[STR_INTERFACE], interface, &len))) {
ALOGE("%s :interface error \n", __func__);
goto error;
}
if ((int)sizeof(ser.sun_path) <= snprintf(ptr, sizeof(ser.sun_path), "%s/%s", pcif, pif)) {
/* the sun_path is truncated. */
ALOGE("Iface path : truncating error, %s \n", ptr);
goto error;
}
ALOGD("Connect to :%s\n", ptr);
sock = socket(PF_UNIX, SOCK_DGRAM, 0);
if(sock < 0) {
ALOGE("%s :Socket error \n", __func__);
goto error;
}
cli.sun_family = AF_UNIX;
qsap_scnprintf(cli.sun_path, sizeof(cli.sun_path), SDK_CTRL_IF);
ret = bind(sock, (struct sockaddr *)&cli, sizeof(cli));
if(ret < 0) {
ALOGE("Bind Failure\n");
goto close_ret;
}
ser.sun_family = AF_UNIX;
qsap_scnprintf(ser.sun_path, sizeof(ser.sun_path), "%s", ptr);
ALOGD("Connect to: %s,(%d)\n", ser.sun_path, sock);
ret = connect(sock, (struct sockaddr *)&ser, sizeof(ser));
if(ret < 0) {
ALOGE("Connect Failure...\n");
goto close_ret;
}
ret = send(sock, pcmd, strlen(pcmd), 0);
if(ret < 0) {
ALOGE("Unable to send cmd to hostapd \n");
goto close_ret;
}
/* reset the ptr buffer size for recv */
len = ptr_size;
#define HOSTAPD_RECV_TIMEOUT (2)
while(1) {
timeout.tv_sec = HOSTAPD_RECV_TIMEOUT;
timeout.tv_usec = 0;
FD_ZERO(&read);
FD_SET(sock, &read);
ret = select(sock+1, &read, NULL, NULL, &timeout);
if(FD_ISSET(sock, &read)) {
ret = recv(sock, ptr, len, 0);
if(ret < 0) {
ALOGE("%s: recv() failed \n", __func__);
goto close_ret;
}
if ((u32)ret >= len)
ptr[len-1] = 0;
else
ptr[ret] = 0;
if((ret > 0) && (ptr[0] == '<')) {
ALOGE("Not the expected response...\n: %s", ptr);
retry_cnt--;
if(retry_cnt)
continue;
break;
}
if(!strncmp(ptr, "FAIL", 4)) {
ALOGE("Command failed in hostapd \n");
goto close_ret;
}
else {
break;
}
}
else {
ALOGE("%s: Select failed \n", __func__);
goto close_ret;
}
}
ret = eSUCCESS;
close_ret:
close(sock);
error:
free(ptr);
unlink(SDK_CTRL_IF);
return ret;
}
static void qsap_update_wps_config(s8 *pVal, s8 *presp, u32 *plen)
{
u32 tlen = *plen;
s32 status;
s8 pwps_state[MAX_INT_STR+1];
s32 i;
/* Enable/disable the following in hostapd.conf
* 1. Update the wps_state
* 2. Set eap_server=1
* 3. Update UPnP related variables
*/
status = atoi(pVal);
qsap_scnprintf(pwps_state, sizeof(pwps_state), "%d", (status == ENABLE) ? WPS_STATE_ENABLE : WPS_STATE_DISABLE);
qsap_write_cfg(pconffile, &cmd_list[eCMD_WPS_STATE], pwps_state, presp, &tlen, HOSTAPD_CONF_QCOM_FILE);
if(eERR_UNKNOWN == qsap_change_cfg(pconffile, &cmd_list[eCMD_WPS_STATE], status)) {
ALOGE("%s: Failed to enable %s\n", __func__, cmd_list[eCMD_WPS_STATE].name);
goto error;
}
qsap_scnprintf(pwps_state, sizeof(pwps_state), "%d", ENABLE);
/** update the eap_server=1 */
qsap_write_cfg(pconffile, &qsap_str[STR_EAP_SERVER], pwps_state, presp, plen, HOSTAPD_CONF_QCOM_FILE);
for(i=eCMD_UUID; i<=eCMD_UPC; i++) {
if(eERR_UNKNOWN == qsap_change_cfg(pconffile, &cmd_list[i], status)) {
ALOGE("%s: failed to set %s\n", __func__, cmd_list[i].name);
goto error;
}
}
return;
error:
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_UNKNOWN);
return;
}
static void qsap_config_wps_method(s8 *pVal, s8 *presp, u32 *plen)
{
s8 buf[64];
s8 *ptr;
int i;
s32 value;
/** INPUT : <0/1> <PIN> */
/** PBC method : WPS_PBC */
/** PIN method : WPS_PIN any <key> */
ptr = pVal;
i = 0;
while((*ptr != '\0') && (*ptr != ' ')) {
buf[i] = *ptr;
ptr++;
i++;
}
buf[i] = '\0';
/** Identify the WPS method */
value = atoi(buf);
if(TRUE != IS_VALID_WPS_CONFIG(value)) {
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_INVALID_PARAM);
return;
}
SKIP_BLANK_SPACE(ptr);
if( (value == WPS_CONFIG_PIN) && (*ptr == '\0') ){
ALOGE("%s :Invalid command \n", __func__);
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_INVALID_PARAM);
return;
}
if(value == WPS_CONFIG_PBC)
qsap_scnprintf(buf, sizeof(buf), "WPS_PBC");
else {
if(strlen(ptr) < WPS_KEY_LEN) {
ALOGD("%s :Invalid WPS key length\n", __func__);
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_INVALID_PARAM);
return;
}
qsap_scnprintf(buf, sizeof(buf), "WPS_PIN any %s", ptr);
}
value = qsap_send_cmd_to_hostapd(buf);
*plen = qsap_scnprintf(presp, *plen, "%s", (value == eSUCCESS) ? SUCCESS: ERR_UNKNOWN);
return;
}
s32 atoh(u8 *str)
{
u32 val = 0;
u32 pos = 0;
s32 len = strlen((char *)str) - 1;
while(len >= 0) {
switch(str[len]) {
case '0' ... '9':
val += (str[len] - '0') << pos;
break;
case 'a' ... 'f':
val += (str[len] - 'a' + 10) << pos;
break;
case 'A'... 'F':
val += (str[len] - 'A' + 10) << pos;
break;
}
len--;
pos += 4;
}
return val;
}
int qsap_get_mac_in_bytes(char *psmac, char *pbmac)
{
int val;
u8 str[3];
u32 i;
str[2] = '\0';
if(FALSE == isValid_MAC_address(psmac)) {
return FALSE;
}
for(i=0; i<strlen(psmac); i++) {
if(psmac[i] == ':')
continue;
str[0] = psmac[i];
str[1] = psmac[i+1];
val = atoh(str);
*pbmac = val;
pbmac++;
i += 2;
}
*pbmac = 0;
return TRUE;
}
void qsap_disassociate_sta(s8 *pVal, s8 *presp, u32 *plen)
{
int sock, ret = eERR_UNKNOWN;
struct iwreq wrq;
s8 pbuf[MAX_CONF_LINE_LEN];
u32 len = MAX_CONF_LINE_LEN;
s8 *pif;
if(ENABLE != is_softap_enabled()) {
goto end;
}
if(NULL == (pif = qsap_get_config_value(pconffile, &qsap_str[STR_INTERFACE], pbuf, &len))) {
ALOGE("%s :interface error \n", __func__);
goto end;
}
pbuf[len] = '\0';
sock = socket(AF_INET, SOCK_DGRAM, 0);
if(sock < 0) {
ALOGE("%s: socket failure \n", __func__);
goto end;
}
strlcpy(wrq.ifr_name, pif, sizeof(wrq.ifr_name));
if (TRUE != qsap_get_mac_in_bytes(pVal, (char *) &wrq.u)) {
ALOGE("%s: Invalid input \n", __func__);
close(sock);
goto end;
}
ret = ioctl(sock, QCSAP_IOCTL_DISASSOC_STA, &wrq);
if(ret < 0) {
ALOGE("%s: ioctl failure \n", __func__);
}
close(sock);
end:
*plen = qsap_scnprintf(presp, *plen, "%s", (ret == eSUCCESS) ? SUCCESS : ERR_UNKNOWN);
return;
}
static int qsap_set_channel(s32 channel, s8 *tbuf, u32 *tlen)
{
u32 ulen;
s8 *pcfgval;
s8 schan[MAX_INT_STR+1];
s8 *pcfg = pconffile;
ulen = *tlen;
/* Do not worry about hw_mode if intention is to use ACS (channel=0) */
if (channel == 0)
goto end;
/** Read the current operating mode */
if(NULL == (pcfgval = qsap_get_config_value(pconffile, &cmd_list[eCMD_HW_MODE], tbuf, &ulen))) {
return eERR_UNKNOWN;
}
/** If the operating mode is 'A' and the channel to be set is in between 1 and 14
* then change the operating mode to 'G' mode */
if((!strcmp(hw_mode[HW_MODE_A], pcfgval)) && (channel <=14)) {
/** Change the operating mode to 'G' */
ulen = *tlen;
if(eSUCCESS != qsap_write_cfg(pcfg, &cmd_list[eCMD_HW_MODE], hw_mode[HW_MODE_G], tbuf, &ulen, HOSTAPD_CONF_QCOM_FILE)) {
ALOGE("%s :Unable to update the operating mode \n", __func__);
return eERR_UNKNOWN;
}
}
/** If the operating mode is NOT 'B' and the channel to be set is 14
* then change the operating mode to 'B' mode */
if(strcmp(hw_mode[HW_MODE_B], pcfgval) && (channel == 14)) {
/** Change the operating mode to 'B' */
ulen = *tlen;
if(eSUCCESS != qsap_write_cfg(pcfg, &cmd_list[eCMD_HW_MODE], hw_mode[HW_MODE_B], tbuf, &ulen, HOSTAPD_CONF_QCOM_FILE)) {
ALOGE("%s :Unable to update the operating mode \n", __func__);
return eERR_UNKNOWN;
}
}
if(channel > 14) {
/** Change the operating mode to 'A' */
ulen = *tlen;
if(eSUCCESS != qsap_write_cfg(pcfg, &cmd_list[eCMD_HW_MODE], hw_mode[HW_MODE_A], tbuf, &ulen, HOSTAPD_CONF_QCOM_FILE)) {
ALOGE("%s :Unable to update the operating mode \n", __func__);
return eERR_UNKNOWN;
}
}
end:
qsap_scnprintf(schan, sizeof(schan), "%ld", channel);
return qsap_write_cfg(pcfg, &cmd_list[eCMD_CHAN], schan, tbuf, tlen, HOSTAPD_CONF_QCOM_FILE);
}
static int qsap_set_operating_mode(s32 mode, s8 *pmode, int pmode_len, s8 *tbuf, u32 *tlen)
{
u32 ulen;
s8 *pcfgval;
s32 channel;
s8 sconf[MAX_INT_STR+1];
s8 *pcfg = pconffile;
s32 rate_idx;
s8 ieee11n_enable[] = "1";
s8 ieee11n_disable[] = "0";
ulen = *tlen;
/** Update the operating mode */
qsap_change_cfg(pcfg, &cmd_list[eCMD_BASIC_RATES],DISABLE);
qsap_change_cfg(pcfg, &cmd_list[eCMD_REQUIRE_HT],DISABLE);
qsap_write_cfg(pcfg, &cmd_list[eCMD_IEEE80211N],ieee11n_disable, tbuf, &ulen, HOSTAPD_CONF_QCOM_FILE);
switch(mode)
{
case HW_MODE_G_ONLY:
qsap_change_cfg(pcfg, &cmd_list[eCMD_BASIC_RATES],ENABLE);
break;
case HW_MODE_N_ONLY:
qsap_change_cfg(pcfg, &cmd_list[eCMD_REQUIRE_HT],ENABLE);
/* fall through */
case HW_MODE_N:
case HW_MODE_G:
case HW_MODE_A:
case HW_MODE_ANY:
ulen = *tlen;
qsap_write_cfg(pcfg, &cmd_list[eCMD_IEEE80211N],ieee11n_enable, tbuf, &ulen, HOSTAPD_CONF_QCOM_FILE);
break;
case HW_MODE_B:
ulen = *tlen;
qsap_write_cfg(pcfg, &cmd_list[eCMD_IEEE80211N],ieee11n_disable, tbuf, &ulen, HOSTAPD_CONF_QCOM_FILE);
break;
case HW_MODE_AD:
/** For 802.11ad, disable the 802.11 HT */
qsap_change_cfg(pcfg, &cmd_list[eCMD_HT_CAPAB], DISABLE);
break;
}
if(mode == HW_MODE_G_ONLY || mode == HW_MODE_N_ONLY || mode == HW_MODE_N ) {
qsap_scnprintf(pmode, pmode_len, "%s",hw_mode[HW_MODE_G]);
}
return qsap_write_cfg(pcfg, &cmd_list[eCMD_HW_MODE], pmode, tbuf, tlen, HOSTAPD_CONF_QCOM_FILE);
}
static int qsap_set_data_rate(s32 drate_idx, s8 *presp, u32 *plen)
{
u32 ulen;
s8 *pmode;
s8 sconf[MAX_INT_STR+1];
int ret = eERR_UNKNOWN;
if(TRUE != IS_VALID_DATA_RATE_IDX(drate_idx)) {
ALOGE("%s :Invalid rate index \n", __func__);
goto end;
}
ulen = *plen;
/** Read the current operating mode */
if(NULL == (pmode = qsap_get_config_value(pconffile, &cmd_list[eCMD_HW_MODE], presp, &ulen))) {
ALOGE("%s :Unable to read mode \n", __func__);
goto end;
}
/** Validate the rate index against the current operating mode */
if(((!strcmp(pmode, hw_mode[HW_MODE_B])) && (drate_idx > B_MODE_MAX_DATA_RATE_IDX)) ||
((!strcmp(pmode, hw_mode[HW_MODE_G]) || (!strcmp(pmode, hw_mode[HW_MODE_G_ONLY]))) &&
(drate_idx > G_ONLY_MODE_MAX_DATA_RATE_IDX))) {
ALOGE("%s :Invalid rate index \n", __func__);
goto end;
}
qsap_scnprintf(sconf, sizeof(sconf), "%ld", drate_idx);
/** Update the rate index in the configuration */
return qsap_write_cfg(fIni, &qsap_str[STR_DATA_RATE_IN_INI], sconf, presp, plen, INI_CONF_FILE);
end:
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_UNKNOWN);
return ret;
}
/**
* @brief
* Handle the user requests of the form,
* "set <cmd num> <value1> ..."
* These commands are used to update the soft AP
* configuration information
*
* @param pcmd [IN] pointer to the string, storing the command.
* @param presp [OUT] pointer to the buffer, to store the command response.
* The command output format :
* On success,
* success
* On failure,
* failure <error message>
* @param plen [IN-OUT]
* [IN]: Maximum length of the reponse buffer
* [OUT]: Reponse length
* @return
* void
*/
static void qsap_handle_set_request(s8 *pcmd, s8 *presp, u32 *plen)
{
esap_cmd_t cNum;
esap_str_t sNum = STR_DENY_MAC_FILE;
s8 *pVal, *pfile;
s8 filename[MAX_FILE_PATH_LEN];
u32 ulen;
s32 status;
s32 value;
s16 ini = HOSTAPD_CONF_QCOM_FILE;
s8 *pcfg = pconffile;
pcmd += strlen("set");
SKIP_BLANK_SPACE(pcmd);
if(!(strncmp(pcmd, Conf_req[CONF_2g], strlen(Conf_req[CONF_2g])))) {
pcmd += strlen(Conf_req[CONF_2g]);
SKIP_BLANK_SPACE(pcmd);
} else if (!(strncmp(pcmd, Conf_req[CONF_5g], strlen(Conf_req[CONF_5g])))) {
pcmd += strlen(Conf_req[CONF_5g]);
SKIP_BLANK_SPACE(pcmd);
} else if (!(strncmp(pcmd, Conf_req[CONF_owe], strlen(Conf_req[CONF_owe])))) {
pcmd += strlen(Conf_req[CONF_owe]);
SKIP_BLANK_SPACE(pcmd);
} else if (!(strncmp(pcmd, Conf_req[CONF_60g], strlen(Conf_req[CONF_60g])))) {
pcmd += strlen(Conf_req[CONF_60g]);
SKIP_BLANK_SPACE(pcmd);
} else {
// DO NOTHING
}
cNum = qsap_get_cmd_num(pcmd);
if(cNum == eCMD_INVALID) {
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_INVALID_ARG);
ALOGE("Invalid command number :%d\n", cNum);
return;
}
pVal = pcmd + strlen(cmd_list[cNum].name);
if( (cNum != eCMD_COMMIT) &&
(cNum != eCMD_RESET_TO_DEFAULT) &&
((*pVal != '=') || (((eCMD_PASSPHRASE != cNum)) && (strlen(pVal) < 2)))) {
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_INVALID_ARG);
return;
}
pVal++;
if((cNum != eCMD_COMMIT) && (cNum != eCMD_RESET_TO_DEFAULT)) {
ALOGE("Cmd: %s Argument :%s \n", cmd_list[cNum].name, pVal);
}
switch(cNum) {
case eCMD_ADD_TO_ALLOW:
case eCMD_REMOVE_FROM_ALLOW:
sNum = STR_ACCEPT_MAC_FILE;
/* fall through */
case eCMD_ADD_TO_DENY:
case eCMD_REMOVE_FROM_DENY:
ulen = MAX_FILE_PATH_LEN;
if(NULL != (pfile = qsap_get_allow_deny_file_name(pconffile, &qsap_str[sNum], filename, &ulen))) {
qsap_update_mac_list(pfile, cNum, pVal, presp, plen);
}
else {
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_RES_UNAVAILABLE);
}
return;
case eCMD_SEC_MODE:
value = atoi(pVal);
if(FALSE == IS_VALID_SEC_MODE(value))
goto error;
/** Write back the integer value. This is to avoid values like 01, 001, 0001
* being written to the configuration.
*/
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
qsap_set_security_mode(pconffile, value, presp, plen);
return;
case eCMD_MAC_ACL:
value = atoi(pVal);
if(FALSE == IS_VALID_MAC_ACL(value))
goto error;
/** Write back the integer value. This is to avoid values like 01, 001, 0001
* being written to the configuration
*/
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
if(ACL_ALLOW_LIST == value) {
value = ENABLE;
status = DISABLE;
}
else if(ACL_DENY_LIST == value){
value = DISABLE;
status = ENABLE;
}
else {
// must be ACL_ALLOW_AND_DENY_LIST
value = ENABLE;
status = ENABLE;
}
if(eERR_UNKNOWN != qsap_change_cfg(pconffile, &qsap_str[STR_ACCEPT_MAC_FILE], value)) {
if(eERR_UNKNOWN != qsap_change_cfg(pconffile, &qsap_str[STR_DENY_MAC_FILE], status))
{
qsap_write_cfg(pconffile, &cmd_list[cNum], pVal, presp, plen, HOSTAPD_CONF_QCOM_FILE);
}
else {
goto error;
}
}
else {
goto error;
}
return;
case eCMD_COMMIT:
#if 0 // COMMIT is not required currently for ICS framework
if ( gIniUpdated ) {
status = wifi_qsap_reload_softap();
gIniUpdated = 0;
}
else {
status = commit();
}
*plen = qsap_scnprintf(presp, *plen, "%s", (status == eSUCCESS)? SUCCESS : ERR_UNKNOWN);
#endif
*plen = qsap_scnprintf(presp, *plen, "%s", SUCCESS);
return;
case eCMD_ENABLE_SOFTAP:
value = atoi(pVal);
if(TRUE != IS_VALID_SOFTAP_ENABLE(value))
goto error;
if ( *pVal == '0' ) {
status = wifi_qsap_unload_driver();
}
else {
status = wifi_qsap_load_driver();
}
*plen = qsap_scnprintf(presp, *plen, "%s", (status==eSUCCESS) ? SUCCESS : "failure Could not enable softap");
return;
case eCMD_ENABLE_WIGIG_SOFTAP:
value = atoi(pVal);
if (TRUE != IS_VALID_SOFTAP_ENABLE(value))
goto error;
if ( *pVal == '0' ) {
status = wifi_qsap_stop_wigig_softap();
}
else {
status = wifi_qsap_start_wigig_softap();
}
*plen = qsap_scnprintf(presp, *plen, "%s", (status==eSUCCESS) ? SUCCESS : "failure Could not enable Wigig softap");
return;
case eCMD_SSID:
value = strlen(pVal);
if(SSD_MAX_LEN < value)
goto error;
/* Disable ssid2 while setting ssid */
qsap_change_cfg(pcfg, &cmd_list[eCMD_SSID2], DISABLE);
break;
case eCMD_SET_MAX_CLIENTS:
value = strlen(pVal);
break;
case eCMD_BSSID:
value = atoi(pVal);
if(FALSE == IS_VALID_BSSID(value))
goto error;
/** Write back the integer value. This is to avoid values like 01, 001, 0001
* being written to the configuration
*/
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
break;
case eCMD_PASSPHRASE:
value = strlen(pVal);
if(FALSE == IS_VALID_PASSPHRASE_LEN(value))
goto error;
break;
case eCMD_CHAN:
value = atoi(pVal);
ulen = MAX_FILE_PATH_LEN;
value = qsap_set_channel(value, filename, &ulen);
*plen = qsap_scnprintf(presp, *plen, "%s", (value == eSUCCESS) ? SUCCESS : ERR_UNKNOWN);
return;
case eCMD_BCN_INTERVAL:
value = atoi(pVal);
if(FALSE == IS_VALID_BEACON(value))
goto error;
/** Write back the integer value. This is to avoid values like 01, 001, 0001
* being written to the configuration
*/
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
break;
case eCMD_DTIM_PERIOD:
value = atoi(pVal);
if(FALSE == IS_VALID_DTIM_PERIOD(value))
goto error;
/** Write back the integer value. This is to avoid values like 01, 001, 0001
* being written to the configuration
*/
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
break;
case eCMD_HW_MODE:
status = FALSE;
for(value=HW_MODE_B; value<HW_MODE_UNKNOWN; value++) {
if(!strcmp(pVal, hw_mode[value])) {
status = TRUE;
break;
}
}
if(status == FALSE)
goto error;
ulen = MAX_FILE_PATH_LEN;
/* pVal is anull terminated string */
value = qsap_set_operating_mode(value, pVal, strlen(pVal)+1, filename, &ulen);
*plen = qsap_scnprintf(presp, *plen, "%s", (value == eSUCCESS) ? SUCCESS : ERR_UNKNOWN);
return;
case eCMD_AUTH_ALGS:
value = atoi(pVal);
if((value != AHTH_ALG_OPEN) && (value != AUTH_ALG_SHARED) &&
(value != AUTH_ALG_OPEN_SHARED))
goto error;
/** Write back the integer value. This is to avoid values like 01, 001, 0001
* being written to the configuration
*/
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
break;
case eCMD_DEFAULT_KEY:
value = atoi(pVal);
if(FALSE == IS_VALID_WEP_KEY_IDX(value))
goto error;
/** Write back the integer value. This is to avoid values like 01, 001, 0001
* being written to the configuration
*/
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
qsap_write_cfg(pcfg, &cmd_list[cNum], pVal, presp, plen, ini);
ulen = MAX_FILE_PATH_LEN;
if(SEC_MODE_WEP != qsap_read_security_mode(pcfg, filename, &ulen)) {
if(eERR_UNKNOWN == qsap_change_cfg(pcfg, &cmd_list[cNum], 0)) {
ALOGE("%s: eCMD_DEFAULT_KEY \n", __func__);
goto error;
}
}
return;
case eCMD_WPA_PAIRWISE:
case eCMD_RSN_PAIRWISE:
if(FALSE == IS_VALID_PAIRWISE(pVal))
goto error;
/** If the encryption type is TKIP, disable the 802.11 HT */
value = 1;
if(!strcmp(pVal, "TKIP")) {
value = 0;
}
if(eERR_UNKNOWN == qsap_change_cfg(pconffile, &qsap_str[STR_HT_80211N], value)) {
ALOGE("%s: unable to update 802.11 HT\n", __func__);
goto error;
}
break;
case eCMD_WEP_KEY0:
case eCMD_WEP_KEY1:
case eCMD_WEP_KEY2:
case eCMD_WEP_KEY3:
if(FALSE == is_valid_wep_key(pVal, filename, MAX_FILE_PATH_LEN))
goto error;
qsap_write_cfg(pcfg, &cmd_list[cNum], filename, presp, plen, ini);
/** if the security mode is not WEP, update the WEP features, and
do NOT set the WEP security */
ulen = MAX_FILE_PATH_LEN;
if(SEC_MODE_WEP != qsap_read_security_mode(pcfg, filename, &ulen)) {
if(eERR_UNKNOWN == qsap_change_cfg(pcfg, &cmd_list[cNum], 0)) {
ALOGE("%s: CMD_WEP_KEY0 \n", __func__);
goto error;
}
}
return;
case eCMD_RESET_AP:
value = atoi(pVal);
ALOGE("Reset :%ld \n", value);
if(SAP_RESET_BSS == value) {
status = wifi_qsap_stop_softap();
if(status == eSUCCESS) {
status = wifi_qsap_start_softap();
if (eSUCCESS != status)
wifi_qsap_unload_driver();
}
}
else if(SAP_RESET_DRIVER_BSS == value){
status = wifi_qsap_reload_softap();
}
else if(SAP_STOP_BSS == value) {
status = wifi_qsap_stop_bss();
}
else if(SAP_STOP_DRIVER_BSS == value) {
status = wifi_qsap_stop_softap();
if(status == eSUCCESS)
status = wifi_qsap_unload_driver();
}
#ifdef QCOM_WLAN_CONCURRENCY
else if(SAP_INITAP == value) {
status = wifi_qsap_start_softap_in_concurrency();
}
else if(SAP_EXITAP == value) {
status = wifi_qsap_stop_softap_in_concurrency();
}
#endif
else {
status = !eSUCCESS;
}
*plen = qsap_scnprintf(presp, *plen, "%s", (status == eSUCCESS) ? SUCCESS : ERR_UNKNOWN);
return;
case eCMD_DISASSOC_STA:
qsap_disassociate_sta(pVal, presp, plen);
return;
case eCMD_RESET_TO_DEFAULT:
if(eSUCCESS == (status = wifi_qsap_reset_to_default(pconffile, DEFAULT_CONFIG_FILE_PATH))) {
if(eSUCCESS == (status = wifi_qsap_reset_to_default(fIni, DEFAULT_INI_FILE))) {
status = wifi_qsap_reload_softap();
}
}
*plen = qsap_scnprintf(presp, *plen, "%s", (status == eSUCCESS) ? SUCCESS : ERR_UNKNOWN);
return;
case eCMD_DATA_RATES:
value = atoi(pVal);
qsap_set_data_rate(value, presp, plen);
return;
case eCMD_UUID:
value = strlen(pVal);
if(TRUE != IS_VALID_UUID_LEN(value))
goto error;
break;
case eCMD_DEVICE_NAME:
value = strlen(pVal);
if(TRUE != IS_VALID_DEVICENAME_LEN(value))
goto error;
break;
case eCMD_MANUFACTURER:
value = strlen(pVal);
if(TRUE != IS_VALID_MANUFACTURER_LEN(value))
goto error;
break;
case eCMD_MODEL_NAME:
value = strlen(pVal);
if(TRUE != IS_VALID_MODELNAME_LEN(value))
goto error;
break;
case eCMD_MODEL_NUMBER:
value = strlen(pVal);
if(TRUE != IS_VALID_MODELNUM_LEN(value))
goto error;
break;
case eCMD_SERIAL_NUMBER:
value = strlen(pVal);
if(TRUE != IS_VALID_SERIALNUM_LEN(value))
goto error;
break;
case eCMD_DEVICE_TYPE:
value = strlen(pVal);
if(TRUE != IS_VALID_DEV_TYPE_LEN(value))
goto error;
break;
case eCMD_OS_VERSION:
value = strlen(pVal);
if(TRUE != IS_VALID_OS_VERSION_LEN(value))
goto error;
break;
case eCMD_FRIENDLY_NAME:
value = strlen(pVal);
if(TRUE != IS_VALID_FRIENDLY_NAME_LEN(value))
goto error;
break;
case eCMD_MANUFACTURER_URL:
case eCMD_MODEL_URL:
value = strlen(pVal);
if(TRUE != IS_VALID_URL_LEN(value))
goto error;
break;
case eCMD_MODEL_DESC:
value = strlen(pVal);
if(TRUE != IS_VALID_MODEL_DESC_LEN(value))
goto error;
break;
case eCMD_UPC:
value = strlen(pVal);
if(TRUE != IS_VALID_UPC_LEN(value))
goto error;
break;
case eCMD_WMM_STATE:
value = atoi(pVal);
if(TRUE != IS_VALID_WMM_STATE(value))
goto error;
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
break;
case eCMD_WPS_STATE:
value = atoi(pVal);
if(TRUE != IS_VALID_WPS_STATE(value))
goto error;
/** Write back the integer value. This is to avoid values like 01, 001, 0001
* being written to the configuration
*/
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
qsap_update_wps_config(pVal, presp, plen);
return;
case eCMD_WPS_CONFIG_METHOD:
qsap_config_wps_method(pVal, presp, plen);
return;
case eCMD_PROTECTION_FLAG:
value = atoi(pVal);
if(TRUE != IS_VALID_PROTECTION(value))
goto error;
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
cNum = STR_PROT_FLAG_IN_INI;
ini = INI_CONF_FILE;
break;
case eCMD_FRAG_THRESHOLD:
value = atoi(pVal);
if(TRUE != IS_VALID_FRAG_THRESHOLD(value))
goto error;
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
break;
case eCMD_REGULATORY_DOMAIN:
value = atoi(pVal);
if(TRUE != IS_VALID_802DOT11D_STATE(value))
goto error;
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
break;
case eCMD_RTS_THRESHOLD:
value = atoi(pVal);
if(TRUE != IS_VALID_RTS_THRESHOLD(value))
goto error;
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
break;
case eCMD_GTK_TIMEOUT:
value = atoi(pVal);
if(TRUE != IS_VALID_GTK(value))
goto error;
break;
case eCMD_TX_POWER:
value = atoi(pVal);
if(TRUE != IS_VALID_TX_POWER(value))
goto error;
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
cNum = STR_TX_POWER_IN_INI;
ini = INI_CONF_FILE;
break;
case eCMD_INTRA_BSS_FORWARD:
value = atoi(pVal);
if(TRUE != IS_VALID_INTRA_BSS_STATUS(value))
goto error;
if(DISABLE == value) {
status = qsap_change_cfg(pcfg,
&cmd_list[eCMD_INTRA_BSS_FORWARD],DISABLE);
}
else {
status = qsap_change_cfg(pcfg,
&cmd_list[eCMD_INTRA_BSS_FORWARD],ENABLE);
}
*plen = qsap_scnprintf(presp, *plen, "%s", (status == eSUCCESS) ?
SUCCESS : ERR_UNKNOWN);
return;
case eCMD_COUNTRY_CODE:
value = strlen(pVal);
if(value > CTRY_MAX_LEN )
goto error;
break;
case eCMD_AP_AUTOSHUTOFF:
value = atoi(pVal);
if(TRUE != IS_VALID_APSHUTOFFTIME(value))
goto error;
/* copy a larger value back to pVal. Please pay special care
* in caller to make sure that the buffer has sufficient size. */
qsap_scnprintf(pVal, MAX_INT_STR, "%ld", value*60);
cNum = STR_AP_AUTOSHUTOFF;
ini = INI_CONF_FILE;
break;
case eCMD_AP_ENERGY_DETECT_TH:
value = atoi(pVal);
if(TRUE != IS_VALID_ENERGY_DETECT_TH(value))
goto error;
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
cNum = STR_AP_ENERGY_DETECT_TH;
ini = INI_CONF_FILE;
break;
case eCMD_IEEE80211H:
value = atoi(pVal);
if(TRUE != IS_VALID_DFS_STATE(value))
goto error;
qsap_scnprintf(pVal, strlen(pVal)+1, "%ld", value);
break;
case eCMD_SET_CHANNEL_RANGE:
ALOGE("eCMD_SET_CHANNEL_RANGE pcmd :%s\n", pcmd);
value = qsap_set_channel_range(pcmd);
*plen = qsap_scnprintf(presp, *plen, "%s", (value == eSUCCESS) ? SUCCESS :
ERR_UNKNOWN);
return;
case eCMD_SSID2:
/* Disable ssid while setting ssid2 */
qsap_change_cfg(pcfg, &cmd_list[eCMD_SSID], DISABLE);
break;
default: ;
/** Do not goto error, in default case */
}
if(ini == INI_CONF_FILE) {
ALOGD("WRITE TO INI FILE :%s\n", qsap_str[cNum].name);
qsap_write_cfg(fIni, &qsap_str[cNum], pVal, presp, plen, ini);
}
else {
qsap_write_cfg(pcfg, &cmd_list[cNum], pVal, presp, plen, ini);
}
return;
error:
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_INVALID_PARAM);
return;
}
/**
* @brief
* Initiate the command and return response
* @param pcmd string containing the command request
* The format of the command is
* get param=value
* or
* set param=value
* @param presp buffer to store the command response
* @param plen length of the respone buffer
* @return
* void
*/
void qsap_hostd_exec_cmd(s8 *pcmd, s8 *presp, u32 *plen)
{
ALOGD("CMD INPUT [%s][%lu]\n", pcmd, *plen);
/* Skip any blank spaces */
SKIP_BLANK_SPACE(pcmd);
if(!(strncmp(pcmd, Cmd_req[eCMD_SET], strlen(Cmd_req[eCMD_SET])))) {
if(!(strncmp(pcmd+4, Conf_req[CONF_2g], strlen(Conf_req[CONF_2g])))) {
pconffile = CONFIG_FILE_2G;
} else if (!(strncmp(pcmd+4, Conf_req[CONF_5g], strlen(Conf_req[CONF_5g])))) {
pconffile = CONFIG_FILE_5G;
} else if (!(strncmp(pcmd+4, Conf_req[CONF_owe], strlen(Conf_req[CONF_owe])))) {
pconffile = CONFIG_FILE_OWE;
} else if (!(strncmp(pcmd+4, Conf_req[CONF_60g], strlen(Conf_req[CONF_60g])))) {
pconffile = CONFIG_FILE_60G;
} else {
pconffile = CONFIG_FILE;
}
}
check_for_configuration_files();
if(!strncmp(pcmd, Cmd_req[eCMD_GET], strlen(Cmd_req[eCMD_GET])) && isblank(pcmd[strlen(Cmd_req[eCMD_GET])])) {
qsap_handle_get_request(pcmd, presp, plen);
}
else if(!(strncmp(pcmd, Cmd_req[eCMD_SET], strlen(Cmd_req[eCMD_SET]))) && isblank(pcmd[strlen(Cmd_req[eCMD_SET])]) ) {
qsap_handle_set_request(pcmd, presp, plen);
}
else {
*plen = qsap_scnprintf(presp, *plen, "%s", ERR_INVALIDREQ);
}
ALOGD("CMD OUTPUT [%s]\nlen :%lu\n\n", presp, *plen);
return;
}
/* netd and Froyo Native UI specific API */
#define DEFAULT_INTFERACE "wlan0"
#define DEFAULT_SSID "SOFTAP_SSID"
#define DEFAULT_CHANNEL 4
#define DEFAULT_PASSPHRASE "12345678"
#define DEFAULT_AUTH_ALG 1
#define RECV_BUF_LEN 255
#define CMD_BUF_LEN 255
#define SET_BUF_LEN 15
/** Command input
argv[3] = SSID,
argv[4] = BROADCAST/HIDDEN,
argv[5] = CHANNEL
argv[6] = SECURITY,
argv[7] = KEY,
*/
int qsapsetSoftap(int argc, char *argv[])
{
char cmdbuf[CMD_BUF_LEN];
char respbuf[RECV_BUF_LEN];
u32 rlen = RECV_BUF_LEN;
int i;
int hidden = 0;
int sec = SEC_MODE_NONE;
char setCmd[SET_BUF_LEN] = "set";
int offset = 0;
ALOGD("%s, %s, %s, %d\n", __FUNCTION__, argv[0], argv[1], argc);
for ( i=0; i<argc;i++) {
ALOGD("ARG: %d - %s\n", i+1, argv[i]);
}
// check if 2nd arg is dual2g/dual5g/owe/60g
if (argc > 2
&& (strncmp(argv[2], Conf_req[CONF_2g], 4) == 0
|| strncmp(argv[2], Conf_req[CONF_owe], 3) == 0
|| strncmp(argv[2], Conf_req[CONF_60g], 3) == 0)) {
snprintf(setCmd, SET_BUF_LEN, "set %s", argv[2]);
offset = 1;
argc--;
}
/* set interface */
if (argc > 2) {
snprintf(cmdbuf, CMD_BUF_LEN, "%s interface=%s", setCmd, argv[2 + offset]);
}
else {
snprintf(cmdbuf, CMD_BUF_LEN, "%s interface=%s", setCmd, DEFAULT_INTFERACE);
}
(void) qsap_hostd_exec_cmd(cmdbuf, respbuf, &rlen);
/** set SSID */
if(argc > 3) {
// In case of dual2g/5g, Set ssid2 with hex values to accomodate sapce and special characters.
if (offset)
qsap_scnprintf(cmdbuf, sizeof(cmdbuf), "%s ssid2=%s", setCmd, argv[3 + offset]);
else
qsap_scnprintf(cmdbuf, sizeof(cmdbuf), "%s ssid=%s",setCmd, argv[3]);
}
else {
qsap_scnprintf(cmdbuf, sizeof(cmdbuf), "%s ssid=%s_%d", setCmd, DEFAULT_SSID, rand());
}
(void) qsap_hostd_exec_cmd(cmdbuf, respbuf, &rlen);
if(strncmp("success", respbuf, rlen) != 0) {
ALOGE("Failed to set ssid\n");
return eERR_UNKNOWN;
}
rlen = RECV_BUF_LEN;
if (argc > 4) {
if (strcmp(argv[4 + offset], "hidden") == 0) {
hidden = 1;
}
snprintf(cmdbuf, CMD_BUF_LEN, "%s ignore_broadcast_ssid=%d", setCmd, hidden);
(void) qsap_hostd_exec_cmd(cmdbuf, respbuf, &rlen);
if(strncmp("success", respbuf, rlen) != 0) {
ALOGE("Failed to set ignore_broadcast_ssid \n");
return -1;
}
}
/** channel */
rlen = RECV_BUF_LEN;
if(argc > 5) {
snprintf(cmdbuf, CMD_BUF_LEN, "%s channel=%d", setCmd, atoi(argv[5 + offset]));
(void) qsap_hostd_exec_cmd(cmdbuf, respbuf, &rlen);
if(strncmp("success", respbuf, rlen) != 0) {
ALOGE("Failed to set channel \n");
return -1;
}
}
/** Security */
rlen = RECV_BUF_LEN;
if(argc > 6) {
/**TODO : need to identify the SEC strings for "wep", "wpa", "wpa2" */
if(!strcmp(argv[6 + offset], "open"))
sec = SEC_MODE_NONE;
else if(!strcmp(argv[6 + offset], "wep"))
sec = SEC_MODE_WEP;
else if(!strcmp(argv[6 + offset], "wpa-psk"))
sec = SEC_MODE_WPA_PSK;
else if(!strcmp(argv[6 + offset], "wpa2-psk"))
sec = SEC_MODE_WPA2_PSK;
qsap_scnprintf(cmdbuf, sizeof(cmdbuf), "%s security_mode=%d",setCmd, sec);
}
else {
qsap_scnprintf(cmdbuf, sizeof(cmdbuf) , "%s security_mode=%d", setCmd, DEFAULT_AUTH_ALG);
}
(void) qsap_hostd_exec_cmd(cmdbuf, respbuf, &rlen);
if(strncmp("success", respbuf, rlen) != 0) {
ALOGE("Failed to set security mode\n");
return -1;
}
/** Key -- passphrase */
rlen = RECV_BUF_LEN;
if ( (sec == SEC_MODE_WPA_PSK) || (sec == SEC_MODE_WPA2_PSK) ) {
if(argc > 7) {
/* If the input passphrase is more than 63 characters, consider first 63 characters only*/
if ( strlen(argv[7 + offset]) > 63 ) argv[7 + offset][63] = '\0';
qsap_scnprintf(cmdbuf, CMD_BUF_LEN, "%s wpa_passphrase=%s",setCmd, argv[7 + offset]);
}
else {
qsap_scnprintf(cmdbuf, sizeof(cmdbuf), "%s wpa_passphrase=%s", setCmd, DEFAULT_PASSPHRASE);
}
}
(void) qsap_hostd_exec_cmd(cmdbuf, respbuf, &rlen);
if(strncmp("success", respbuf, rlen) != 0) {
ALOGE("Failed to set passphrase \n");
return -1;
}
rlen = RECV_BUF_LEN;
if(argc > 8) {
qsap_scnprintf(cmdbuf, sizeof(cmdbuf), "%s max_num_sta=%d",setCmd, atoi(argv[8 + offset]));
}
(void) qsap_hostd_exec_cmd(cmdbuf, respbuf, &rlen);
if(strncmp("success", respbuf, rlen) != 0) {
ALOGE("Failed to set maximun client connections number \n");
return -1;
}
rlen = RECV_BUF_LEN;
qsap_scnprintf(cmdbuf, sizeof(cmdbuf), "%s commit", setCmd);
(void) qsap_hostd_exec_cmd(cmdbuf, respbuf, &rlen);
if(strncmp("success", respbuf, rlen) != 0) {
ALOGE("Failed to COMMIT \n");
return -1;
}
return 0;
}
static int check_for_config_file_size(FILE *fp)
{
int length = 0;
if( NULL != fp )
{
fseek(fp, 0L, SEEK_END);
length = ftell(fp);
}
return length;
}
void check_for_configuration_files(void)
{
FILE * fp;
char *pfile;
/* Check if configuration files are present, if not create the default files */
/* If configuration file does not exist copy the default file */
if ( NULL == (fp = fopen(pconffile, "r")) ) {
wifi_qsap_reset_to_default(pconffile, DEFAULT_CONFIG_FILE_PATH);
}
else {
/* The configuration file could be of 0 byte size, replace with default */
if (check_for_config_file_size(fp) <= 0)
wifi_qsap_reset_to_default(pconffile, DEFAULT_CONFIG_FILE_PATH);
fclose(fp);
}
/* If Accept MAC list file does not exist, copy the default file */
if ( NULL == (fp = fopen(ACCEPT_LIST_FILE, "r")) ) {
wifi_qsap_reset_to_default(ACCEPT_LIST_FILE, DEFAULT_ACCEPT_LIST_FILE_PATH);
}
else {
/* The configuration file could be of 0 byte size, replace with default */
if (check_for_config_file_size(fp) <= 0)
wifi_qsap_reset_to_default(ACCEPT_LIST_FILE, DEFAULT_ACCEPT_LIST_FILE_PATH);
fclose(fp);
}
/* Provide read and write permissions to the owner */
pfile = ACCEPT_LIST_FILE;
if (chmod(pfile, 0660) < 0) {
ALOGE("Error changing permissions of %s to 0660: %s",
pfile, strerror(errno));
}
/* If deny MAC list file does not exist, copy the default file */
if ( NULL == (fp = fopen(DENY_LIST_FILE, "r")) ) {
wifi_qsap_reset_to_default(DENY_LIST_FILE, DEFAULT_DENY_LIST_FILE_PATH);
}
else {
/* The configuration file could be of 0 byte size, replace with default */
if (check_for_config_file_size(fp) <= 0)
wifi_qsap_reset_to_default(DENY_LIST_FILE, DEFAULT_DENY_LIST_FILE_PATH);
fclose(fp);
}
/* Provide read and write permissions to the owner */
pfile = DENY_LIST_FILE;
if (chmod(pfile, 0660) < 0) {
ALOGE("Error changing permissions of %s to 0660: %s",
pfile, strerror(errno));
}
return;
}
void qsap_set_ini_filename(void)
{
if (property_get("wlan.driver.config", ini_file, NULL)) {
fIni = ini_file;
ALOGE("INI FILE PROP PRESENT %s\n", fIni);
} else
ALOGE("INI FILE PROP NOT PRESENT: Use default path %s\n", fIni);
return;
}
// IOCTL command to create and delete bridge interface //
#ifndef SIOCBRADDBR
#define SIOCBRADDBR 0x89a0
#endif
#ifndef SIOCBRDELBR
#define SIOCBRDELBR 0x89a1
#endif
static int linux_set_iface_flags(int sock, const char *ifname, int dev_up)
{
struct ifreq ifr;
int ret;
if (sock < 0)
return -1;
memset(&ifr, 0, sizeof(ifr));
strlcpy(ifr.ifr_name, ifname, IFNAMSIZ);
if (ioctl(sock, SIOCGIFFLAGS, &ifr) != 0) {
ret = errno ? -errno : -999;
ALOGE("Could not read interface %s flags: %s",
ifname, strerror(errno));
return ret;
}
if (dev_up) {
if (ifr.ifr_flags & IFF_UP)
return 0;
ifr.ifr_flags |= IFF_UP;
} else {
if (!(ifr.ifr_flags & IFF_UP))
return 0;
ifr.ifr_flags &= ~IFF_UP;
}
if (ioctl(sock, SIOCSIFFLAGS, &ifr) != 0) {
ret = errno ? -errno : -999;
ALOGE("Could not set interface %s flags (%s): %s",
ifname, dev_up ? "UP" : "DOWN", strerror(errno));
return ret;
}
return 0;
}
int qsap_control_bridge(int argc, char ** argv)
{
int br_socket;
if (argc < 4) {
ALOGE("Command not supported");
return -1;
}
br_socket = socket(PF_INET, SOCK_DGRAM, 0);
if (br_socket < 0) {
ALOGE("socket(PF_INET,SOCK_DGRAM): %s",strerror(errno));
return -1;
}
if (!strncmp(argv[2],"create", 6)) {
if (ioctl(br_socket, SIOCBRADDBR, argv[3]) < 0) {
ALOGE("Could not add bridge %s: %s", argv[3], strerror(errno));
return -1;
}
} else if (!strncmp(argv[2],"remove", 6)) {
if (ioctl(br_socket, SIOCBRDELBR, argv[3]) < 0) {
ALOGE("Could not add remove %s: %s", argv[3], strerror(errno));
return -1;
}
} else if (!strncmp(argv[2],"up", 2)) {
return linux_set_iface_flags(br_socket, argv[3], 1);
} else if (!strncmp(argv[2],"down", 4)) {
return linux_set_iface_flags(br_socket, argv[3], 0);
} else {
ALOGE("Command %s not handled.", argv[2]);
return -1;
}
return 0;
}
int linux_get_ifhwaddr(const char *ifname, char *addr)
{
struct ifreq ifr;
int sock = socket(AF_INET, SOCK_DGRAM, 0);
#ifndef MAC2STR
#define MAC2STR(a) (a)[0], (a)[1], (a)[2], (a)[3], (a)[4], (a)[5]
#define MACSTR "%02x:%02x:%02x:%02x:%02x:%02x"
#endif
memset(&ifr, 0, sizeof(ifr));
strlcpy(ifr.ifr_name, ifname, IFNAMSIZ);
if (ioctl(sock, SIOCGIFHWADDR, &ifr)) {
ALOGE("Could not get interface %s hwaddr: %s", ifname, strerror(errno));
return -1;
}
if (ifr.ifr_hwaddr.sa_family != ARPHRD_ETHER) {
ALOGE("%s: Invalid HW-addr family 0x%04x", ifname, ifr.ifr_hwaddr.sa_family);
return -1;
}
memcpy(addr, ifr.ifr_hwaddr.sa_data, ETH_ALEN);
ALOGE("%s: " MACSTR, ifname, MAC2STR(addr));
return 0;
}
int qsap_add_or_remove_interface(const char *newIface , int createIface)
{
const char *wlanIface = "wlan0";
int retVal = 0;
struct nl_msg *msg = NULL;
struct nl_cb *cb = NULL;
struct nl_cb *s_cb = NULL;
struct nl_sock *nl_sock = NULL;
int nl80211_id;
enum nl80211_iftype type = NL80211_IFTYPE_AP;
/* Allocate a netlink socket */
s_cb = nl_cb_alloc(NL_CB_DEFAULT);
if (!s_cb) {
ALOGE( "Failed to allocate Netlink Socket");
retVal = -ENOMEM;
goto nla_put_failure;
}
nl_sock = nl_socket_alloc_cb(s_cb);
if (!nl_sock) {
ALOGE( "Netlink socket Allocation failure");
retVal = -ENOMEM;
goto nla_put_failure;
}
/* connect to generic netlink socket */
if (genl_connect(nl_sock)) {
ALOGE( "Netlink socket Connection failure");
retVal = -ENOLINK;
goto nla_put_failure;
}
nl80211_id = genl_ctrl_resolve(nl_sock, "nl80211");
if (nl80211_id < 0) {
ALOGE( "nl80211 generic netlink not found");
retVal = -ENOENT;
goto nla_put_failure;
}
msg = nlmsg_alloc();
if(!msg) {
ALOGE( "Failed to allocate netlink message");
retVal = -ENOMEM;
goto nla_put_failure;
}
cb = nl_cb_alloc(NL_CB_DEFAULT);
if (!cb) {
ALOGE( "Failed to allocate netlink callback");
retVal = -ENOMEM;
goto nla_put_failure;
}
if (createIface == 1) {
/* Issue NL80211_CMD_NEW_INTERFACE */
genlmsg_put( msg, 0, 0, nl80211_id, 0, 0, NL80211_CMD_NEW_INTERFACE, 0);
nla_put_u32( msg, NL80211_ATTR_IFINDEX, if_nametoindex( wlanIface ));
NLA_PUT_STRING( msg, NL80211_ATTR_IFNAME, newIface);
nla_put_u32( msg, NL80211_ATTR_IFTYPE, type);
} else {
genlmsg_put( msg, 0, 0, nl80211_id, 0, 0, NL80211_CMD_DEL_INTERFACE, 0);
nla_put_u32( msg, NL80211_ATTR_IFINDEX, if_nametoindex( newIface ));
}
retVal = nl_send_auto_complete(nl_sock, msg );
if (retVal < 0 ) {
goto nla_put_failure;
}
else {
ALOGD("Interface %s is %s - Ok", (createIface == 1 ? "created":"removed") ,newIface);
}
nla_put_failure:
if (nl_sock)
nl_socket_free(nl_sock);
if (s_cb)
nl_cb_put(s_cb);
if (msg)
nlmsg_free(msg);
if (cb)
nl_cb_put(cb);
return retVal;
}