diff --git a/tools/tools/ath/athalq/ar9300_ds.c b/tools/tools/ath/athalq/ar9300_ds.c index d303351e708d..a554929f28e1 100644 --- a/tools/tools/ath/athalq/ar9300_ds.c +++ b/tools/tools/ath/athalq/ar9300_ds.c @@ -1,343 +1,417 @@ /* * Copyright (c) 2012 Adrian Chadd * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include __FBSDID("$FreeBSD$"); #include #include #include #include #include #include #include #include #include #include #include #include "ar9300_ds.h" /* XXX should break this out into if_athvar.h */ #define MS(_v, _f) ( ((_v) & (_f)) >> _f##_S ) #define MF(_v, _f) ( !! ((_v) & (_f))) static void ar9300_decode_txstatus(struct if_ath_alq_payload *a) { struct ar9300_txs txs; /* XXX assumes txs is smaller than PAYLOAD_LEN! */ memcpy(&txs, &a->payload, sizeof(struct ar9300_txs)); printf("[%u.%06u] [%llu] TXSTATUS\n", (unsigned int) be32toh(a->hdr.tstamp_sec), (unsigned int) be32toh(a->hdr.tstamp_usec), (unsigned long long) be64toh(a->hdr.threadid)); printf(" DescId=0x%08x\n", txs.status1); printf(" DescLen=%d, TxQcuNum=%d, CtrlStat=%d, DescId=0x%04x\n", txs.ds_info & 0xff, MS(txs.ds_info, AR_tx_qcu_num), MS(txs.ds_info, AR_ctrl_stat), MS(txs.ds_info, AR_desc_id)); printf(" TxTimestamp=0x%08x\n", txs.status4); printf(" TxDone=%d, SeqNo=%d, TxOpExceed=%d, TXBFStatus=%d\n", MF(txs.status8, AR_tx_done), MS(txs.status8, AR_seq_num), MF(txs.status8, AR_tx_op_exceeded), MS(txs.status8, AR_TXBFStatus)); printf(" TXBfMismatch=%d, BFStreamMiss=%d, FinalTxIdx=%d\n", MF(txs.status8, AR_tx_bf_bw_mismatch), MF(txs.status8, AR_tx_bf_stream_miss), MS(txs.status8, AR_final_tx_idx)); printf(" TxBfDestMiss=%d, TxBfExpired=%d, PwrMgmt=%d, Tid=%d," " FastTsBit=%d\n", MF(txs.status8, AR_tx_bf_dest_miss), MF(txs.status8, AR_tx_bf_expired), MF(txs.status8, AR_power_mgmt), MS(txs.status8, AR_tx_tid), MF(txs.status8, AR_tx_fast_ts)); printf(" Frmok=%d, xretries=%d, fifounderrun=%d, filt=%d\n", MF(txs.status3, AR_frm_xmit_ok), MF(txs.status3, AR_excessive_retries), MF(txs.status3, AR_fifounderrun), MF(txs.status3, AR_filtered)); printf(" DelimUnderrun=%d, DataUnderun=%d, DescCfgErr=%d," " TxTimerExceeded=%d\n", MF(txs.status3, AR_tx_delim_underrun), MF(txs.status3, AR_tx_data_underrun), MF(txs.status3, AR_desc_cfg_err), MF(txs.status3, AR_tx_timer_expired)); printf(" RTScnt=%d, FailCnt=%d, VRetryCnt=%d\n", MS(txs.status3, AR_rts_fail_cnt), MS(txs.status3, AR_data_fail_cnt), MS(txs.status3, AR_virt_retry_cnt)); printf(" RX RSSI 0 [%d %d %d]\n", MS(txs.status2, AR_tx_rssi_ant00), MS(txs.status2, AR_tx_rssi_ant01), MS(txs.status2, AR_tx_rssi_ant02)); printf(" RX RSSI 1 [%d %d %d] Comb=%d\n", MS(txs.status7, AR_tx_rssi_ant10), MS(txs.status7, AR_tx_rssi_ant11), MS(txs.status7, AR_tx_rssi_ant12), MS(txs.status7, AR_tx_rssi_combined)); printf(" BA Valid=%d\n", MF(txs.status2, AR_tx_ba_status)); printf(" BALow=0x%08x\n", txs.status5); printf(" BAHigh=0x%08x\n", txs.status6); printf("\n ------ \n"); } /* * Note - these are rounded up to 128 bytes; but we * only use 96 bytes from it. */ static void ar9300_decode_txdesc(struct if_ath_alq_payload *a) { struct ar9300_txc txc; /* XXX assumes txs is smaller than PAYLOAD_LEN! */ memcpy(&txc, &a->payload, 96); printf("[%u.%06u] [%llu] TXD\n", (unsigned int) be32toh(a->hdr.tstamp_sec), (unsigned int) be32toh(a->hdr.tstamp_usec), (unsigned long long) be64toh(a->hdr.threadid)); printf(" DescLen=%d, TxQcuNum=%d, CtrlStat=%d, DescId=0x%04x\n", txc.ds_info & 0xff, MS(txc.ds_info, AR_tx_qcu_num), MS(txc.ds_info, AR_ctrl_stat), MS(txc.ds_info, AR_desc_id)); /* link */ printf(" Link 0x%08x\n", txc.ds_link); /* data0 */ printf(" Data0 0x%08x Len %d\n", txc.ds_data0, MS(txc.ds_ctl3, AR_buf_len)); /* data1 */ printf(" Data1 0x%08x Len %d\n", txc.ds_data1, MS(txc.ds_ctl5, AR_buf_len)); /* data2 */ printf(" Data2 0x%08x Len %d\n", txc.ds_data2, MS(txc.ds_ctl7, AR_buf_len)); /* data3 */ printf(" Data3 0x%08x Len %d\n", txc.ds_data3, MS(txc.ds_ctl9, AR_buf_len)); /* ctl10 */ printf(" Desc ID=0x%04x, Chksum=0x%04x (ctl10=0x%08x)\n", MS(txc.ds_ctl10, AR_tx_desc_id), txc.ds_ctl10 & AR_tx_ptr_chk_sum, txc.ds_ctl10); /* ctl11 */ printf(" Frame Len=%d, VMF=%d, LowRxChain=%d, TxClrRetry=%d\n", txc.ds_ctl11 & AR_frame_len, MF(txc.ds_ctl11, AR_virt_more_frag), MF(txc.ds_ctl11, AR_low_rx_chain), MF(txc.ds_ctl11, AR_tx_clear_retry)); printf(" TX power 0 = %d, RtsEna=%d, Veol=%d, ClrDstMask=%d\n", MS(txc.ds_ctl11, AR_xmit_power0), MF(txc.ds_ctl11, AR_rts_enable), MF(txc.ds_ctl11, AR_veol), MF(txc.ds_ctl11, AR_clr_dest_mask)); printf(" TxIntrReq=%d, DestIdxValid=%d, CtsEnable=%d\n", MF(txc.ds_ctl11, AR_tx_intr_req), MF(txc.ds_ctl11, AR_dest_idx_valid), MF(txc.ds_ctl11, AR_cts_enable)); /* ctl12 */ printf(" Paprd Chain Mask=0x%x, TxMore=%d, DestIdx=%d," " FrType=0x%x\n", MS(txc.ds_ctl12, AR_paprd_chain_mask), MF(txc.ds_ctl12, AR_tx_more), MS(txc.ds_ctl12, AR_dest_idx), MS(txc.ds_ctl12, AR_frame_type)); printf(" NoAck=%d, InsertTs=%d, CorruptFcs=%d, ExtOnly=%d," " ExtAndCtl=%d\n", MF(txc.ds_ctl12, AR_no_ack), MF(txc.ds_ctl12, AR_insert_ts), MF(txc.ds_ctl12, AR_corrupt_fcs), MF(txc.ds_ctl12, AR_ext_only), MF(txc.ds_ctl12, AR_ext_and_ctl)); printf(" IsAggr=%d, MoreRifs=%d, LocMode=%d\n", MF(txc.ds_ctl12, AR_is_aggr), MF(txc.ds_ctl12, AR_more_rifs), MF(txc.ds_ctl12, AR_loc_mode)); /* ctl13 */ printf(" DurUpEna=%d, Burstdur=0x%04x\n", MF(txc.ds_ctl13, AR_dur_update_ena), MS(txc.ds_ctl13, AR_burst_dur)); printf(" Try0=%d, Try1=%d, Try2=%d, Try3=%d\n", MS(txc.ds_ctl13, AR_xmit_data_tries0), MS(txc.ds_ctl13, AR_xmit_data_tries1), MS(txc.ds_ctl13, AR_xmit_data_tries2), MS(txc.ds_ctl13, AR_xmit_data_tries3)); /* ctl14 */ printf(" rate0=0x%02x, rate1=0x%02x, rate2=0x%02x, rate3=0x%02x\n", MS(txc.ds_ctl14, AR_xmit_rate0), MS(txc.ds_ctl14, AR_xmit_rate1), MS(txc.ds_ctl14, AR_xmit_rate2), MS(txc.ds_ctl14, AR_xmit_rate3)); /* ctl15 */ printf(" try 0: PktDur=%d, RTS/CTS ena=%d\n", MS(txc.ds_ctl15, AR_packet_dur0), MF(txc.ds_ctl15, AR_rts_cts_qual0)); printf(" try 1: PktDur=%d, RTS/CTS ena=%d\n", MS(txc.ds_ctl15, AR_packet_dur1), MF(txc.ds_ctl15, AR_rts_cts_qual1)); /* ctl16 */ printf(" try 2: PktDur=%d, RTS/CTS ena=%d\n", MS(txc.ds_ctl16, AR_packet_dur2), MF(txc.ds_ctl16, AR_rts_cts_qual2)); printf(" try 3: PktDur=%d, RTS/CTS ena=%d\n", MS(txc.ds_ctl16, AR_packet_dur3), MF(txc.ds_ctl16, AR_rts_cts_qual3)); /* ctl17 */ printf(" AggrLen=%d, PadDelim=%d, EncrType=%d, TxDcApStaSel=%d\n", MS(txc.ds_ctl17, AR_aggr_len), MS(txc.ds_ctl17, AR_pad_delim), MS(txc.ds_ctl17, AR_encr_type), MF(txc.ds_ctl17, AR_tx_dc_ap_sta_sel)); printf(" Calib=%d LDPC=%d\n", MF(txc.ds_ctl17, AR_calibrating), MF(txc.ds_ctl17, AR_ldpc)); /* ctl18 */ printf(" try 0: chainMask=0x%x, GI=%d, 2040=%d, STBC=%d\n", MS(txc.ds_ctl18, AR_chain_sel0), MF(txc.ds_ctl18, AR_gi0), MF(txc.ds_ctl18, AR_2040_0), MF(txc.ds_ctl18, AR_stbc0)); printf(" try 1: chainMask=0x%x, GI=%d, 2040=%d, STBC=%d\n", MS(txc.ds_ctl18, AR_chain_sel1), MF(txc.ds_ctl18, AR_gi1), MF(txc.ds_ctl18, AR_2040_1), MF(txc.ds_ctl18, AR_stbc1)); printf(" try 2: chainMask=0x%x, GI=%d, 2040=%d, STBC=%d\n", MS(txc.ds_ctl18, AR_chain_sel2), MF(txc.ds_ctl18, AR_gi2), MF(txc.ds_ctl18, AR_2040_2), MF(txc.ds_ctl18, AR_stbc2)); printf(" try 3: chainMask=0x%x, GI=%d, 2040=%d, STBC=%d\n", MS(txc.ds_ctl18, AR_chain_sel3), MF(txc.ds_ctl18, AR_gi3), MF(txc.ds_ctl18, AR_2040_3), MF(txc.ds_ctl18, AR_stbc3)); /* ctl19 */ printf(" NotSounding=%d\n", MF(txc.ds_ctl19, AR_not_sounding)); printf(" try 0: ant=0x%08x, antsel=%d, ness=%d\n", txc.ds_ctl19 & AR_tx_ant0, MF(txc.ds_ctl19, AR_tx_ant_sel0), MS(txc.ds_ctl19, AR_ness)); /* ctl20 */ printf(" try 1: TxPower=%d, ant=0x%08x, antsel=%d, ness=%d\n", MS(txc.ds_ctl20, AR_xmit_power1), txc.ds_ctl20 & AR_tx_ant1, MF(txc.ds_ctl20, AR_tx_ant_sel1), MS(txc.ds_ctl20, AR_ness1)); /* ctl21 */ printf(" try 2: TxPower=%d, ant=0x%08x, antsel=%d, ness=%d\n", MS(txc.ds_ctl21, AR_xmit_power2), txc.ds_ctl21 & AR_tx_ant2, MF(txc.ds_ctl21, AR_tx_ant_sel2), MS(txc.ds_ctl21, AR_ness2)); /* ctl22 */ printf(" try 3: TxPower=%d, ant=0x%08x, antsel=%d, ness=%d\n", MS(txc.ds_ctl22, AR_xmit_power3), txc.ds_ctl22 & AR_tx_ant3, MF(txc.ds_ctl22, AR_tx_ant_sel3), MS(txc.ds_ctl22, AR_ness3)); printf("\n ------ \n"); } static void ar9300_decode_rxstatus(struct if_ath_alq_payload *a) { struct ar9300_rxs rxs; /* XXX assumes rxs is smaller than PAYLOAD_LEN! */ memcpy(&rxs, &a->payload, sizeof(struct ar9300_rxs)); printf("[%u.%06u] [%llu] RXSTATUS\n", (unsigned int) be32toh(a->hdr.tstamp_sec), (unsigned int) be32toh(a->hdr.tstamp_usec), (unsigned long long) be64toh(a->hdr.threadid)); + + /* status1 */ + /* .. and status5 */ + printf(" RSSI %d/%d/%d / %d/%d/%d; combined: %d; rate=0x%02x\n", + MS(rxs.status1, AR_rx_rssi_ant00), + MS(rxs.status1, AR_rx_rssi_ant01), + MS(rxs.status1, AR_rx_rssi_ant02), + MS(rxs.status5, AR_rx_rssi_ant10), + MS(rxs.status5, AR_rx_rssi_ant11), + MS(rxs.status5, AR_rx_rssi_ant12), + MS(rxs.status5, AR_rx_rssi_combined), + MS(rxs.status1, AR_rx_rate)); + + /* status2 */ + printf(" Len: %d; more=%d, delim=%d, upload=%d\n", + MS(rxs.status2, AR_data_len), + MF(rxs.status2, AR_rx_more), + MS(rxs.status2, AR_num_delim), + MS(rxs.status2, AR_hw_upload_data)); + + /* status3 */ + printf(" RX timestamp: %d\n", rxs.status3); + + /* status4 */ + printf(" GI: %d, 2040: %d, parallel40: %d, stbc=%d\n", + MF(rxs.status4, AR_gi), + MF(rxs.status4, AR_2040), + MF(rxs.status4, AR_parallel40), + MF(rxs.status4, AR_rx_stbc)); + printf(" Not sounding: %d, ness: %d, upload_valid: %d\n", + MF(rxs.status4, AR_rx_not_sounding), + MS(rxs.status4, AR_rx_ness), + MS(rxs.status4, AR_hw_upload_data_valid)); + printf(" RX antenna: 0x%08x\n", + MS(rxs.status4, AR_rx_antenna)); + + /* EVM */ + /* status6 - 9 */ + printf(" EVM: 0x%08x; 0x%08x; 0x%08x; 0x%08x\n", + rxs.status6, + rxs.status7, + rxs.status8, + rxs.status9); + + /* status10 - ? */ + + /* status11 */ + printf(" RX done: %d, RX frame ok: %d, CRC error: %d\n", + MF(rxs.status11, AR_rx_done), + MF(rxs.status11, AR_rx_frame_ok), + MF(rxs.status11, AR_crc_err)); + printf(" Decrypt CRC err: %d, PHY err: %d, MIC err: %d\n", + MF(rxs.status11, AR_decrypt_crc_err), + MF(rxs.status11, AR_phyerr), + MF(rxs.status11, AR_michael_err)); + printf(" Pre delim CRC err: %d, uAPSD Trig: %d\n", + MF(rxs.status11, AR_pre_delim_crc_err), + MF(rxs.status11, AR_apsd_trig)); + printf(" RXKeyIdxValid: %d, KeyIdx: %d, PHY error: %d\n", + MF(rxs.status11, AR_rx_key_idx_valid), + MS(rxs.status11, AR_key_idx), + MS(rxs.status11, AR_phy_err_code)); + printf(" RX more Aggr: %d, RX aggr %d, post delim CRC err: %d\n", + MF(rxs.status11, AR_rx_more_aggr), + MF(rxs.status11, AR_rx_aggr), + MF(rxs.status11, AR_post_delim_crc_err)); + printf(" hw upload data type: %d; position bit: %d\n", + MS(rxs.status11, AR_hw_upload_data_type), + MF(rxs.status11, AR_position_bit)); + printf(" Hi RX chain: %d, RxFirstAggr: %d, DecryptBusy: %d, KeyMiss: %d\n", + MF(rxs.status11, AR_hi_rx_chain), + MF(rxs.status11, AR_rx_first_aggr), + MF(rxs.status11, AR_decrypt_busy_err), + MF(rxs.status11, AR_key_miss)); } void ar9300_alq_payload(struct if_ath_alq_payload *a) { switch (be16toh(a->hdr.op)) { case ATH_ALQ_EDMA_TXSTATUS: /* TXSTATUS */ ar9300_decode_txstatus(a); break; case ATH_ALQ_EDMA_RXSTATUS: /* RXSTATUS */ ar9300_decode_rxstatus(a); break; case ATH_ALQ_EDMA_TXDESC: /* TXDESC */ ar9300_decode_txdesc(a); break; default: printf("[%d.%06d] [%lld] op: %d; len %d\n", be32toh(a->hdr.tstamp_sec), be32toh(a->hdr.tstamp_usec), be64toh(a->hdr.threadid), be16toh(a->hdr.op), be16toh(a->hdr.len)); } }