qcacmn: Use chan freq for restricted 80+80 MHz boundary check
Instead of channel number, use channel frequency for restricted 80+80MHz boundary check. Change-Id: I2fa65c3b1d102acd6b64b4c6e1583d2bc29484d1 CRs-Fixed: 2645155
这个提交包含在:
Shashikala Prabhu
@@ -289,8 +289,7 @@ uint16_t dfs_prepare_random_channel_for_freq(struct wlan_dfs *dfs,
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struct dfs_channel *ch_list,
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uint32_t chan_count,
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uint32_t flags,
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uint8_t *chan_wd,
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struct dfs_channel *cur_chan,
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struct ch_params *chan_params,
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uint8_t dfs_region,
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struct dfs_acs_info *acs_info);
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#endif
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@@ -1554,7 +1554,7 @@ static uint8_t dfs_find_ch_with_fallback(
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#ifdef CONFIG_CHAN_FREQ_API
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static uint16_t dfs_find_ch_with_fallback_for_freq(struct wlan_dfs *dfs,
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uint8_t *chan_wd,
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uint16_t *center_freq_seg1,
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qdf_freq_t *center_freq_seg1,
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uint16_t *freq_lst,
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uint32_t num_chan)
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{
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@@ -2151,8 +2151,7 @@ uint16_t dfs_prepare_random_channel_for_freq(struct wlan_dfs *dfs,
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struct dfs_channel *chan_list,
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uint32_t chan_cnt,
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uint32_t flags,
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uint8_t *chan_wd,
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struct dfs_channel *cur_chan,
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struct ch_params *chan_params,
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uint8_t dfs_region,
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struct dfs_acs_info *acs_info)
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{
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@@ -2164,7 +2163,7 @@ uint16_t dfs_prepare_random_channel_for_freq(struct wlan_dfs *dfs,
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uint16_t flag_no_weather = 0;
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uint16_t *leakage_adjusted_lst;
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uint16_t final_lst[NUM_CHANNELS] = {0};
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uint16_t *dfs_cfreq_seg2 = NULL;
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uint8_t *chan_wd = (uint8_t *)&chan_params->ch_width;
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if (!chan_list || !chan_cnt) {
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dfs_info(dfs, WLAN_DEBUG_DFS_RANDOM_CHAN,
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@@ -2231,12 +2230,9 @@ uint16_t dfs_prepare_random_channel_for_freq(struct wlan_dfs *dfs,
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final_cnt);
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break;
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}
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dfs_cfreq_seg2 = &cur_chan->dfs_ch_mhz_freq_seg2;
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target_freq =
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dfs_find_ch_with_fallback_for_freq(dfs, chan_wd,
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dfs_cfreq_seg2,
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leakage_adjusted_lst,
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random_chan_cnt);
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target_freq = dfs_find_ch_with_fallback_for_freq(
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dfs, chan_wd, &chan_params->mhz_freq_seg1,
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leakage_adjusted_lst, random_chan_cnt);
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/* Since notion of 80+80 is not present in the regulatory
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* channel the function may return invalid 80+80 channels for
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@@ -2245,12 +2241,21 @@ uint16_t dfs_prepare_random_channel_for_freq(struct wlan_dfs *dfs,
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*/
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if ((*chan_wd == DFS_CH_WIDTH_80P80MHZ) &&
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(flags & DFS_RANDOM_CH_FLAG_RESTRICTED_80P80_ENABLED) &&
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!(CHAN_WITHIN_RESTRICTED_80P80(target_freq,
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*dfs_cfreq_seg2))) {
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target_freq) {
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wlan_reg_set_channel_params_for_freq(dfs->dfs_pdev_obj,
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target_freq,
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0, chan_params);
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if (!(CHAN_WITHIN_RESTRICTED_80P80(
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chan_params->mhz_freq_seg0,
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chan_params->mhz_freq_seg1))) {
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*chan_wd = DFS_CH_WIDTH_160MHZ;
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target_freq = dfs_find_ch_with_fallback_for_freq(
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dfs, chan_wd, dfs_cfreq_seg2,
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leakage_adjusted_lst, random_chan_cnt);
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target_freq =
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dfs_find_ch_with_fallback_for_freq(
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dfs, chan_wd,
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&chan_params->mhz_freq_seg1,
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leakage_adjusted_lst,
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random_chan_cnt);
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}
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}
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/*
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@@ -57,17 +57,17 @@
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#define DFS_ALLOW_HW_PULSES 28
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#define DFS_SET_PRI_MULTIPILER 29
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#define RESTRICTED_80P80_START_CHAN 132
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#define RESTRICTED_80P80_END_CHAN 161
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#define RESTRICTED_80P80_START_FREQ 5660
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#define RESTRICTED_80P80_END_FREQ 5805
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/* Check if the given channels are within restricted 80P80 start chan(132) and
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* end chan (161).
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/* Check if the given frequencies are within restricted 80P80 start freq(5660)
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* and end freq (5805).
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*/
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#define CHAN_WITHIN_RESTRICTED_80P80(chan, cfreq_seg2) \
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((((chan) >= RESTRICTED_80P80_START_CHAN) && \
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((chan) <= RESTRICTED_80P80_END_CHAN) && \
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((cfreq_seg2) >= RESTRICTED_80P80_START_CHAN) && \
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((cfreq_seg2) <= RESTRICTED_80P80_END_CHAN)) ? true : false)
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#define CHAN_WITHIN_RESTRICTED_80P80(cfreq1, cfreq2) \
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((((cfreq1) >= RESTRICTED_80P80_START_FREQ) && \
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((cfreq1) <= RESTRICTED_80P80_END_FREQ) && \
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((cfreq2) >= RESTRICTED_80P80_START_FREQ) && \
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((cfreq2) <= RESTRICTED_80P80_END_FREQ)) ? true : false)
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/*
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* Spectral IOCTLs use DFS_LAST_IOCTL as the base.
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@@ -1059,7 +1059,6 @@ QDF_STATUS utils_dfs_get_vdev_random_channel_for_freq(
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struct wlan_dfs *dfs = NULL;
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struct wlan_objmgr_psoc *psoc;
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struct dfs_channel *chan_list = NULL;
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struct dfs_channel cur_chan;
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QDF_STATUS status = QDF_STATUS_E_FAILURE;
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*target_chan_freq = 0;
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@@ -1086,23 +1085,13 @@ QDF_STATUS utils_dfs_get_vdev_random_channel_for_freq(
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goto random_chan_error;
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}
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cur_chan.dfs_ch_vhtop_ch_freq_seg1 = chan_params->center_freq_seg0;
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cur_chan.dfs_ch_vhtop_ch_freq_seg2 = chan_params->center_freq_seg1;
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cur_chan.dfs_ch_mhz_freq_seg1 = chan_params->mhz_freq_seg0;
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cur_chan.dfs_ch_mhz_freq_seg2 = chan_params->mhz_freq_seg1;
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if (!chan_params->ch_width)
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utils_dfs_get_max_sup_width(pdev,
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(uint8_t *)&chan_params->ch_width);
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*target_chan_freq = dfs_prepare_random_channel_for_freq(dfs, chan_list,
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num_chan, flags, (uint8_t *)&chan_params->ch_width,
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&cur_chan, (uint8_t)dfs_reg, acs_info);
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chan_params->center_freq_seg0 = cur_chan.dfs_ch_vhtop_ch_freq_seg1;
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chan_params->center_freq_seg1 = cur_chan.dfs_ch_vhtop_ch_freq_seg2;
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chan_params->mhz_freq_seg0 = cur_chan.dfs_ch_mhz_freq_seg1;
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chan_params->mhz_freq_seg1 = cur_chan.dfs_ch_mhz_freq_seg2;
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*target_chan_freq = dfs_prepare_random_channel_for_freq(
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dfs, chan_list, num_chan, flags, chan_params,
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(uint8_t)dfs_reg, acs_info);
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dfs_info(dfs, WLAN_DEBUG_DFS_RANDOM_CHAN,
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"input width=%d", chan_params->ch_width);
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