| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Hans de Goede | 883 | 99.77% | 1 | 50.00% |
| Nathan Chancellor | 2 | 0.23% | 1 | 50.00% |
| Total | 885 | 2 |
// SPDX-License-Identifier: GPL-2.0 /****************************************************************************** * * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved. * ******************************************************************************/ #include "odm_precomp.h" /* This function is for inband noise test utility only */ /* To obtain the inband noise level(dbm), do the following. */ /* 1. disable DIG and Power Saving */ /* 2. Set initial gain = 0x1a */ /* 3. Stop updating idle time pwer report (for driver read) */ /* - 0x80c[25] */ #define Valid_Min -35 #define Valid_Max 10 #define ValidCnt 5 static s16 odm_InbandNoise_Monitor_NSeries( PDM_ODM_T pDM_Odm, u8 bPauseDIG, u8 IGIValue, u32 max_time ) { u32 tmp4b; u8 max_rf_path = 0, rf_path; u8 reg_c50, reg_c58, valid_done = 0; struct noise_level noise_data; u32 start = 0, func_start = 0, func_end = 0; func_start = jiffies; pDM_Odm->noise_level.noise_all = 0; if ((pDM_Odm->RFType == ODM_1T2R) || (pDM_Odm->RFType == ODM_2T2R)) max_rf_path = 2; else max_rf_path = 1; ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("odm_DebugControlInbandNoise_Nseries() ==>\n")); memset(&noise_data, 0, sizeof(struct noise_level)); /* */ /* Step 1. Disable DIG && Set initial gain. */ /* */ if (bPauseDIG) odm_PauseDIG(pDM_Odm, ODM_PAUSE_DIG, IGIValue); /* */ /* Step 2. Disable all power save for read registers */ /* */ /* dcmd_DebugControlPowerSave(padapter, PSDisable); */ /* */ /* Step 3. Get noise power level */ /* */ start = jiffies; while (1) { /* Stop updating idle time pwer report (for driver read) */ PHY_SetBBReg(pDM_Odm->Adapter, rFPGA0_TxGainStage, BIT25, 1); /* Read Noise Floor Report */ tmp4b = PHY_QueryBBReg(pDM_Odm->Adapter, 0x8f8, bMaskDWord); ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("Noise Floor Report (0x8f8) = 0x%08x\n", tmp4b)); /* PHY_SetBBReg(pDM_Odm->Adapter, rOFDM0_XAAGCCore1, bMaskByte0, TestInitialGain); */ /* if (max_rf_path == 2) */ /* PHY_SetBBReg(pDM_Odm->Adapter, rOFDM0_XBAGCCore1, bMaskByte0, TestInitialGain); */ /* update idle time pwer report per 5us */ PHY_SetBBReg(pDM_Odm->Adapter, rFPGA0_TxGainStage, BIT25, 0); noise_data.value[ODM_RF_PATH_A] = (u8)(tmp4b&0xff); noise_data.value[ODM_RF_PATH_B] = (u8)((tmp4b&0xff00)>>8); ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("value_a = 0x%x(%d), value_b = 0x%x(%d)\n", noise_data.value[ODM_RF_PATH_A], noise_data.value[ODM_RF_PATH_A], noise_data.value[ODM_RF_PATH_B], noise_data.value[ODM_RF_PATH_B])); for (rf_path = ODM_RF_PATH_A; rf_path < max_rf_path; rf_path++) { noise_data.sval[rf_path] = (s8)noise_data.value[rf_path]; noise_data.sval[rf_path] /= 2; } ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("sval_a = %d, sval_b = %d\n", noise_data.sval[ODM_RF_PATH_A], noise_data.sval[ODM_RF_PATH_B])); /* mdelay(10); */ /* msleep(10); */ for (rf_path = ODM_RF_PATH_A; rf_path < max_rf_path; rf_path++) { if ((noise_data.valid_cnt[rf_path] < ValidCnt) && (noise_data.sval[rf_path] < Valid_Max && noise_data.sval[rf_path] >= Valid_Min)) { noise_data.valid_cnt[rf_path]++; noise_data.sum[rf_path] += noise_data.sval[rf_path]; ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("RF_Path:%d Valid sval = %d\n", rf_path, noise_data.sval[rf_path])); ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("Sum of sval = %d,\n", noise_data.sum[rf_path])); if (noise_data.valid_cnt[rf_path] == ValidCnt) { valid_done++; ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("After divided, RF_Path:%d , sum = %d\n", rf_path, noise_data.sum[rf_path])); } } } /* printk("####### valid_done:%d #############\n", valid_done); */ if ((valid_done == max_rf_path) || (jiffies_to_msecs(jiffies - start) > max_time)) { for (rf_path = ODM_RF_PATH_A; rf_path < max_rf_path; rf_path++) { /* printk("%s PATH_%d - sum = %d, valid_cnt = %d\n", __func__, rf_path, noise_data.sum[rf_path], noise_data.valid_cnt[rf_path]); */ if (noise_data.valid_cnt[rf_path]) noise_data.sum[rf_path] /= noise_data.valid_cnt[rf_path]; else noise_data.sum[rf_path] = 0; } break; } } reg_c50 = (s32)PHY_QueryBBReg(pDM_Odm->Adapter, rOFDM0_XAAGCCore1, bMaskByte0); reg_c50 &= ~BIT7; ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("0x%x = 0x%02x(%d)\n", rOFDM0_XAAGCCore1, reg_c50, reg_c50)); pDM_Odm->noise_level.noise[ODM_RF_PATH_A] = -110 + reg_c50 + noise_data.sum[ODM_RF_PATH_A]; pDM_Odm->noise_level.noise_all += pDM_Odm->noise_level.noise[ODM_RF_PATH_A]; if (max_rf_path == 2) { reg_c58 = (s32)PHY_QueryBBReg(pDM_Odm->Adapter, rOFDM0_XBAGCCore1, bMaskByte0); reg_c58 &= ~BIT7; ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("0x%x = 0x%02x(%d)\n", rOFDM0_XBAGCCore1, reg_c58, reg_c58)); pDM_Odm->noise_level.noise[ODM_RF_PATH_B] = -110 + reg_c58 + noise_data.sum[ODM_RF_PATH_B]; pDM_Odm->noise_level.noise_all += pDM_Odm->noise_level.noise[ODM_RF_PATH_B]; } pDM_Odm->noise_level.noise_all /= max_rf_path; ODM_RT_TRACE( pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ( "noise_a = %d, noise_b = %d\n", pDM_Odm->noise_level.noise[ODM_RF_PATH_A], pDM_Odm->noise_level.noise[ODM_RF_PATH_B] ) ); /* */ /* Step 4. Recover the Dig */ /* */ if (bPauseDIG) odm_PauseDIG(pDM_Odm, ODM_RESUME_DIG, IGIValue); func_end = jiffies_to_msecs(jiffies - func_start); /* printk("%s noise_a = %d, noise_b = %d noise_all:%d (%d ms)\n", __func__, */ /* pDM_Odm->noise_level.noise[ODM_RF_PATH_A], */ /* pDM_Odm->noise_level.noise[ODM_RF_PATH_B], */ /* pDM_Odm->noise_level.noise_all, func_end); */ ODM_RT_TRACE(pDM_Odm, ODM_COMP_COMMON, ODM_DBG_LOUD, ("odm_DebugControlInbandNoise_Nseries() <==\n")); return pDM_Odm->noise_level.noise_all; } s16 ODM_InbandNoise_Monitor(void *pDM_VOID, u8 bPauseDIG, u8 IGIValue, u32 max_time) { return odm_InbandNoise_Monitor_NSeries(pDM_VOID, bPauseDIG, IGIValue, max_time); }
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