xref: /freebsd/sys/contrib/dev/ath/ath_hal/ar9300/ar9300eep.h (revision 2e3f49888ec8851bafb22011533217487764fdb0)
1 /*
2  * Copyright (c) 2013 Qualcomm Atheros, Inc.
3  *
4  * Permission to use, copy, modify, and/or distribute this software for any
5  * purpose with or without fee is hereby granted, provided that the above
6  * copyright notice and this permission notice appear in all copies.
7  *
8  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
9  * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
10  * AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,
11  * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
12  * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
13  * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
14  * PERFORMANCE OF THIS SOFTWARE.
15  */
16 
17 #ifndef _ATH_AR9300_EEP_H_
18 #define _ATH_AR9300_EEP_H_
19 
20 #include "opt_ah.h"
21 #include "ah.h"
22 
23 #if defined(WIN32) || defined(WIN64)
24 #pragma pack (push, ar9300, 1)
25 #endif
26 
27 /* Ensure that AH_BYTE_ORDER is defined */
28 #ifndef AH_BYTE_ORDER
29 #error AH_BYTE_ORDER needs to be defined!
30 #endif
31 
32 /* FreeBSD extras - should be in ah_eeprom.h ? */
33 #define AR_EEPROM_EEPCAP_COMPRESS_DIS   0x0001
34 #define AR_EEPROM_EEPCAP_AES_DIS        0x0002
35 #define AR_EEPROM_EEPCAP_FASTFRAME_DIS  0x0004
36 #define AR_EEPROM_EEPCAP_BURST_DIS      0x0008
37 #define AR_EEPROM_EEPCAP_MAXQCU         0x01F0
38 #define AR_EEPROM_EEPCAP_MAXQCU_S       4
39 #define AR_EEPROM_EEPCAP_HEAVY_CLIP_EN  0x0200
40 #define AR_EEPROM_EEPCAP_KC_ENTRIES     0xF000
41 #define AR_EEPROM_EEPCAP_KC_ENTRIES_S   12
42 
43 
44 #define MSTATE 100
45 #define MOUTPUT 2048
46 #define MDEFAULT 15
47 #define MVALUE 100
48 
49 enum CompressAlgorithm
50 {
51     _compress_none = 0,
52     _compress_lzma,
53     _compress_pairs,
54     _compress_block,
55     _compress4,
56     _compress5,
57     _compress6,
58     _compress7,
59 };
60 
61 
62 enum
63 {
64 	calibration_data_none = 0,
65 	calibration_data_dram,
66 	calibration_data_flash,
67 	calibration_data_eeprom,
68 	calibration_data_otp,
69 #ifdef ATH_CAL_NAND_FLASH
70 	calibration_data_nand,
71 #endif
72 	CalibrationDataDontLoad,
73 };
74 #define HOST_CALDATA_SIZE (16*1024)
75 
76 //
77 // DO NOT CHANGE THE DEFINTIONS OF THESE SYMBOLS.
78 // Add additional definitions to the end.
79 // Yes, the first one is 2. Do not use 0 or 1.
80 //
81 enum Ar9300EepromTemplate
82 {
83 	ar9300_eeprom_template_generic        = 2,
84 	ar9300_eeprom_template_hb112          = 3,
85 	ar9300_eeprom_template_hb116          = 4,
86 	ar9300_eeprom_template_xb112          = 5,
87 	ar9300_eeprom_template_xb113          = 6,
88 	ar9300_eeprom_template_xb114          = 7,
89 	ar9300_eeprom_template_tb417          = 8,
90 	ar9300_eeprom_template_ap111          = 9,
91 	ar9300_eeprom_template_ap121          = 10,
92 	ar9300_eeprom_template_hornet_generic = 11,
93     ar9300_eeprom_template_wasp_2         = 12,
94     ar9300_eeprom_template_wasp_k31       = 13,
95     ar9300_eeprom_template_osprey_k31     = 14,
96     ar9300_eeprom_template_aphrodite      = 15
97 };
98 
99 #define ar9300_eeprom_template_default ar9300_eeprom_template_generic
100 #define Ar9300EepromFormatDefault 2
101 
102 #define reference_current 0
103 #define compression_header_length 4
104 #define compression_checksum_length 2
105 
106 #define OSPREY_EEP_VER               0xD000
107 #define OSPREY_EEP_VER_MINOR_MASK    0xFFF
108 #define OSPREY_EEP_MINOR_VER_1       0x1
109 #define OSPREY_EEP_MINOR_VER         OSPREY_EEP_MINOR_VER_1
110 
111 // 16-bit offset location start of calibration struct
112 #define OSPREY_EEP_START_LOC         256
113 #define OSPREY_NUM_5G_CAL_PIERS      8
114 #define OSPREY_NUM_2G_CAL_PIERS      3
115 #define OSPREY_NUM_5G_20_TARGET_POWERS  8
116 #define OSPREY_NUM_5G_40_TARGET_POWERS  8
117 #define OSPREY_NUM_2G_CCK_TARGET_POWERS 2
118 #define OSPREY_NUM_2G_20_TARGET_POWERS  3
119 #define OSPREY_NUM_2G_40_TARGET_POWERS  3
120 //#define OSPREY_NUM_CTLS              21
121 #define OSPREY_NUM_CTLS_5G           9
122 #define OSPREY_NUM_CTLS_2G           12
123 #define OSPREY_CTL_MODE_M            0xF
124 #define OSPREY_NUM_BAND_EDGES_5G     8
125 #define OSPREY_NUM_BAND_EDGES_2G     4
126 #define OSPREY_NUM_PD_GAINS          4
127 #define OSPREY_PD_GAINS_IN_MASK      4
128 #define OSPREY_PD_GAIN_ICEPTS        5
129 #define OSPREY_EEPROM_MODAL_SPURS    5
130 #define OSPREY_MAX_RATE_POWER        63
131 #define OSPREY_NUM_PDADC_VALUES      128
132 #define OSPREY_NUM_RATES             16
133 #define OSPREY_BCHAN_UNUSED          0xFF
134 #define OSPREY_MAX_PWR_RANGE_IN_HALF_DB 64
135 #define OSPREY_OPFLAGS_11A           0x01
136 #define OSPREY_OPFLAGS_11G           0x02
137 #define OSPREY_OPFLAGS_5G_HT40       0x04
138 #define OSPREY_OPFLAGS_2G_HT40       0x08
139 #define OSPREY_OPFLAGS_5G_HT20       0x10
140 #define OSPREY_OPFLAGS_2G_HT20       0x20
141 #define OSPREY_EEPMISC_BIG_ENDIAN    0x01
142 #define OSPREY_EEPMISC_WOW           0x02
143 #define OSPREY_CUSTOMER_DATA_SIZE    20
144 
145 #define FREQ2FBIN(x,y) \
146     (u_int8_t)(((y) == HAL_FREQ_BAND_2GHZ) ? ((x) - 2300) : (((x) - 4800) / 5))
147 #define FBIN2FREQ(x,y) \
148     (((y) == HAL_FREQ_BAND_2GHZ) ? (2300 + x) : (4800 + 5 * x))
149 #define OSPREY_MAX_CHAINS            3
150 #define OSPREY_ANT_16S               25
151 #define OSPREY_FUTURE_MODAL_SZ       6
152 
153 #define OSPREY_NUM_ANT_CHAIN_FIELDS     7
154 #define OSPREY_NUM_ANT_COMMON_FIELDS    4
155 #define OSPREY_SIZE_ANT_CHAIN_FIELD     3
156 #define OSPREY_SIZE_ANT_COMMON_FIELD    4
157 #define OSPREY_ANT_CHAIN_MASK           0x7
158 #define OSPREY_ANT_COMMON_MASK          0xf
159 #define OSPREY_CHAIN_0_IDX              0
160 #define OSPREY_CHAIN_1_IDX              1
161 #define OSPREY_CHAIN_2_IDX              2
162 #define OSPREY_1_CHAINMASK              1
163 #define OSPREY_2LOHI_CHAINMASK          5
164 #define OSPREY_2LOMID_CHAINMASK         3
165 #define OSPREY_3_CHAINMASK              7
166 
167 #define AR928X_NUM_ANT_CHAIN_FIELDS     6
168 #define AR928X_SIZE_ANT_CHAIN_FIELD     2
169 #define AR928X_ANT_CHAIN_MASK           0x3
170 
171 /* Delta from which to start power to pdadc table */
172 /* This offset is used in both open loop and closed loop power control
173  * schemes. In open loop power control, it is not really needed, but for
174  * the "sake of consistency" it was kept.
175  * For certain AP designs, this value is overwritten by the value in the flag
176  * "pwrTableOffset" just before writing the pdadc vs pwr into the chip registers.
177  */
178 #define OSPREY_PWR_TABLE_OFFSET  0
179 
180 //enable flags for voltage and temp compensation
181 #define ENABLE_TEMP_COMPENSATION 0x01
182 #define ENABLE_VOLT_COMPENSATION 0x02
183 
184 #define FLASH_BASE_CALDATA_OFFSET  0x1000
185 #define AR9300_EEPROM_SIZE 16*1024  // byte addressable
186 #define FIXED_CCA_THRESHOLD 15
187 
188 typedef struct eepFlags {
189     u_int8_t  op_flags;
190     u_int8_t  eepMisc;
191 } __packed EEP_FLAGS;
192 
193 typedef enum targetPowerHTRates {
194     HT_TARGET_RATE_0_8_16,
195     HT_TARGET_RATE_1_3_9_11_17_19,
196     HT_TARGET_RATE_4,
197     HT_TARGET_RATE_5,
198     HT_TARGET_RATE_6,
199     HT_TARGET_RATE_7,
200     HT_TARGET_RATE_12,
201     HT_TARGET_RATE_13,
202     HT_TARGET_RATE_14,
203     HT_TARGET_RATE_15,
204     HT_TARGET_RATE_20,
205     HT_TARGET_RATE_21,
206     HT_TARGET_RATE_22,
207     HT_TARGET_RATE_23
208 }TARGET_POWER_HT_RATES;
209 
210 const static int mapRate2Index[24]=
211 {
212     0,1,1,1,2,
213     3,4,5,0,1,
214     1,1,6,7,8,
215     9,0,1,1,1,
216     10,11,12,13
217 };
218 
219 typedef enum targetPowerLegacyRates {
220     LEGACY_TARGET_RATE_6_24,
221     LEGACY_TARGET_RATE_36,
222     LEGACY_TARGET_RATE_48,
223     LEGACY_TARGET_RATE_54
224 }TARGET_POWER_LEGACY_RATES;
225 
226 typedef enum targetPowerCckRates {
227     LEGACY_TARGET_RATE_1L_5L,
228     LEGACY_TARGET_RATE_5S,
229     LEGACY_TARGET_RATE_11L,
230     LEGACY_TARGET_RATE_11S
231 }TARGET_POWER_CCK_RATES;
232 
233 #define MAX_MODAL_RESERVED 11
234 #define MAX_MODAL_FUTURE 5
235 #define MAX_BASE_EXTENSION_FUTURE 2
236 #define MAX_TEMP_SLOPE 8
237 #define OSPREY_CHECKSUM_LOCATION (OSPREY_EEP_START_LOC + 1)
238 
239 typedef struct osprey_BaseEepHeader {
240     u_int16_t  reg_dmn[2]; //Does this need to be outside of this structure, if it gets written after calibration
241     u_int8_t   txrx_mask;  //4 bits tx and 4 bits rx
242     EEP_FLAGS  op_cap_flags;
243     u_int8_t   rf_silent;
244     u_int8_t   blue_tooth_options;
245     u_int8_t   device_cap;
246     u_int8_t   device_type; // takes lower byte in eeprom location
247     int8_t     pwrTableOffset; // offset in dB to be added to beginning of pdadc table in calibration
248 	u_int8_t   params_for_tuning_caps[2];  //placeholder, get more details from Don
249     u_int8_t   feature_enable; //bit0 - enable tx temp comp
250                              //bit1 - enable tx volt comp
251                              //bit2 - enable fastClock - default to 1
252                              //bit3 - enable doubling - default to 1
253 														 //bit4 - enable internal regulator - default to 1
254 														 //bit5 - enable paprd - default to 0
255 														 //bit6 - enable TuningCaps - default to 0
256 														 //bit7 - enable tx_frame_to_xpa_on - default to 0
257     u_int8_t   misc_configuration; //misc flags: bit0 - turn down drivestrength
258 									// bit 1:2 - 0=don't force, 1=force to thermometer 0, 2=force to thermometer 1, 3=force to thermometer 2
259 									// bit 3 - reduce chain mask from 0x7 to 0x3 on 2 stream rates
260 									// bit 4 - enable quick drop
261 									// bit 5 - enable 8 temp slop
262 									// bit 6;	enable xLNA_bias_strength
263 									// bit 7;	enable rf_gain_cap
264 	u_int8_t   eeprom_write_enable_gpio;
265 	u_int8_t   wlan_disable_gpio;
266 	u_int8_t   wlan_led_gpio;
267 	u_int8_t   rx_band_select_gpio;
268 	u_int8_t   txrxgain;
269 	u_int32_t   swreg;    // SW controlled internal regulator fields
270 } __packed OSPREY_BASE_EEP_HEADER;
271 
272 typedef struct osprey_BaseExtension_1 {
273 	u_int8_t  ant_div_control;
274 	u_int8_t  future[MAX_BASE_EXTENSION_FUTURE];
275 	u_int8_t  misc_enable;
276 	int8_t  tempslopextension[MAX_TEMP_SLOPE];
277     int8_t  quick_drop_low;
278     int8_t  quick_drop_high;
279 } __packed OSPREY_BASE_EXTENSION_1;
280 
281 typedef struct osprey_BaseExtension_2 {
282 	int8_t    temp_slope_low;
283 	int8_t    temp_slope_high;
284     u_int8_t   xatten1_db_low[OSPREY_MAX_CHAINS];           // 3  //xatten1_db for merlin (0xa20c/b20c 5:0)
285     u_int8_t   xatten1_margin_low[OSPREY_MAX_CHAINS];          // 3  //xatten1_margin for merlin (0xa20c/b20c 16:12
286     u_int8_t   xatten1_db_high[OSPREY_MAX_CHAINS];           // 3  //xatten1_db for merlin (0xa20c/b20c 5:0)
287     u_int8_t   xatten1_margin_high[OSPREY_MAX_CHAINS];          // 3  //xatten1_margin for merlin (0xa20c/b20c 16:12
288 } __packed OSPREY_BASE_EXTENSION_2;
289 
290 typedef struct spurChanStruct {
291     u_int16_t spur_chan;
292     u_int8_t  spurRangeLow;
293     u_int8_t  spurRangeHigh;
294 } __packed SPUR_CHAN;
295 
296 //Note the order of the fields in this structure has been optimized to put all fields likely to change together
297 typedef struct ospreyModalEepHeader {
298     u_int32_t  ant_ctrl_common;                         // 4   idle, t1, t2, b (4 bits per setting)
299     u_int32_t  ant_ctrl_common2;                        // 4    ra1l1, ra2l1, ra1l2, ra2l2, ra12
300     u_int16_t  ant_ctrl_chain[OSPREY_MAX_CHAINS];       // 6   idle, t, r, rx1, rx12, b (2 bits each)
301     u_int8_t   xatten1_db[OSPREY_MAX_CHAINS];           // 3  //xatten1_db for merlin (0xa20c/b20c 5:0)
302     u_int8_t   xatten1_margin[OSPREY_MAX_CHAINS];       // 3  //xatten1_margin for merlin (0xa20c/b20c 16:12
303     int8_t     temp_slope;
304     int8_t     voltSlope;
305     u_int8_t   spur_chans[OSPREY_EEPROM_MODAL_SPURS];   // spur channels in usual fbin coding format
306     int8_t     noise_floor_thresh_ch[OSPREY_MAX_CHAINS];// 3    //Check if the register is per chain
307     u_int8_t   reserved[MAX_MODAL_RESERVED];
308     int8_t     quick_drop;
309     u_int8_t   xpa_bias_lvl;                            // 1
310     u_int8_t   tx_frame_to_data_start;                  // 1
311     u_int8_t   tx_frame_to_pa_on;                       // 1
312     u_int8_t   txClip;                                  // 4 bits tx_clip, 4 bits dac_scale_cck
313     int8_t     antenna_gain;                            // 1
314     u_int8_t   switchSettling;                          // 1
315     int8_t     adcDesiredSize;                          // 1
316     u_int8_t   tx_end_to_xpa_off;                       // 1
317     u_int8_t   txEndToRxOn;                             // 1
318     u_int8_t   tx_frame_to_xpa_on;                      // 1
319     u_int8_t   thresh62;                                // 1
320     u_int32_t  paprd_rate_mask_ht20;
321     u_int32_t  paprd_rate_mask_ht40;
322     u_int16_t  switchcomspdt;
323     u_int8_t   xLNA_bias_strength;                      // bit: 0,1:chain0, 2,3:chain1, 4,5:chain2
324     u_int8_t   rf_gain_cap;
325     u_int8_t   tx_gain_cap;                             // bit0:4 txgain cap, txgain index for max_txgain + 20 (10dBm higher than max txgain)
326     u_int8_t   futureModal[MAX_MODAL_FUTURE];
327     // last 12 bytes stolen and moved to newly created base extension structure
328 } __packed OSPREY_MODAL_EEP_HEADER;                    // == 100 B
329 
330 typedef struct ospCalDataPerFreqOpLoop {
331     int8_t ref_power;    /*   */
332     u_int8_t volt_meas; /* pdadc voltage at power measurement */
333     u_int8_t temp_meas;  /* pcdac used for power measurement   */
334     int8_t rx_noisefloor_cal; /*range is -60 to -127 create a mapping equation 1db resolution */
335     int8_t rx_noisefloor_power; /*range is same as noisefloor */
336     u_int8_t rxTempMeas; /*temp measured when noisefloor cal was performed */
337 } __packed OSP_CAL_DATA_PER_FREQ_OP_LOOP;
338 
339 typedef struct CalTargetPowerLegacy {
340     u_int8_t  t_pow2x[4];
341 } __packed CAL_TARGET_POWER_LEG;
342 
343 typedef struct ospCalTargetPowerHt {
344     u_int8_t  t_pow2x[14];
345 } __packed OSP_CAL_TARGET_POWER_HT;
346 
347 #if AH_BYTE_ORDER == AH_BIG_ENDIAN
348 typedef struct CalCtlEdgePwr {
349     u_int8_t  flag  :2,
350               t_power :6;
351 } __packed CAL_CTL_EDGE_PWR;
352 #elif AH_BYTE_ORDER == AH_LITTLE_ENDIAN
353 typedef struct CalCtlEdgePwr {
354     u_int8_t  t_power :6,
355              flag   :2;
356 } __packed CAL_CTL_EDGE_PWR;
357 #else
358 #error AH_BYTE_ORDER undefined!
359 #endif
360 
361 typedef struct ospCalCtlData_5G {
362     CAL_CTL_EDGE_PWR  ctl_edges[OSPREY_NUM_BAND_EDGES_5G];
363 } __packed OSP_CAL_CTL_DATA_5G;
364 
365 typedef struct ospCalCtlData_2G {
366     CAL_CTL_EDGE_PWR  ctl_edges[OSPREY_NUM_BAND_EDGES_2G];
367 } __packed OSP_CAL_CTL_DATA_2G;
368 
369 typedef struct ospreyEeprom {
370     u_int8_t  eeprom_version;
371     u_int8_t  template_version;
372     u_int8_t  mac_addr[6];
373     u_int8_t  custData[OSPREY_CUSTOMER_DATA_SIZE];
374 
375     OSPREY_BASE_EEP_HEADER    base_eep_header;
376 
377     OSPREY_MODAL_EEP_HEADER   modal_header_2g;
378 	OSPREY_BASE_EXTENSION_1 base_ext1;
379 	u_int8_t            cal_freq_pier_2g[OSPREY_NUM_2G_CAL_PIERS];
380     OSP_CAL_DATA_PER_FREQ_OP_LOOP cal_pier_data_2g[OSPREY_MAX_CHAINS][OSPREY_NUM_2G_CAL_PIERS];
381 	u_int8_t cal_target_freqbin_cck[OSPREY_NUM_2G_CCK_TARGET_POWERS];
382     u_int8_t cal_target_freqbin_2g[OSPREY_NUM_2G_20_TARGET_POWERS];
383     u_int8_t cal_target_freqbin_2g_ht20[OSPREY_NUM_2G_20_TARGET_POWERS];
384     u_int8_t cal_target_freqbin_2g_ht40[OSPREY_NUM_2G_40_TARGET_POWERS];
385     CAL_TARGET_POWER_LEG cal_target_power_cck[OSPREY_NUM_2G_CCK_TARGET_POWERS];
386     CAL_TARGET_POWER_LEG cal_target_power_2g[OSPREY_NUM_2G_20_TARGET_POWERS];
387     OSP_CAL_TARGET_POWER_HT  cal_target_power_2g_ht20[OSPREY_NUM_2G_20_TARGET_POWERS];
388     OSP_CAL_TARGET_POWER_HT  cal_target_power_2g_ht40[OSPREY_NUM_2G_40_TARGET_POWERS];
389     u_int8_t   ctl_index_2g[OSPREY_NUM_CTLS_2G];
390     u_int8_t   ctl_freqbin_2G[OSPREY_NUM_CTLS_2G][OSPREY_NUM_BAND_EDGES_2G];
391     OSP_CAL_CTL_DATA_2G   ctl_power_data_2g[OSPREY_NUM_CTLS_2G];
392 
393     OSPREY_MODAL_EEP_HEADER   modal_header_5g;
394 	OSPREY_BASE_EXTENSION_2 base_ext2;
395     u_int8_t            cal_freq_pier_5g[OSPREY_NUM_5G_CAL_PIERS];
396     OSP_CAL_DATA_PER_FREQ_OP_LOOP cal_pier_data_5g[OSPREY_MAX_CHAINS][OSPREY_NUM_5G_CAL_PIERS];
397     u_int8_t cal_target_freqbin_5g[OSPREY_NUM_5G_20_TARGET_POWERS];
398     u_int8_t cal_target_freqbin_5g_ht20[OSPREY_NUM_5G_20_TARGET_POWERS];
399     u_int8_t cal_target_freqbin_5g_ht40[OSPREY_NUM_5G_40_TARGET_POWERS];
400     CAL_TARGET_POWER_LEG cal_target_power_5g[OSPREY_NUM_5G_20_TARGET_POWERS];
401     OSP_CAL_TARGET_POWER_HT  cal_target_power_5g_ht20[OSPREY_NUM_5G_20_TARGET_POWERS];
402     OSP_CAL_TARGET_POWER_HT  cal_target_power_5g_ht40[OSPREY_NUM_5G_40_TARGET_POWERS];
403     u_int8_t   ctl_index_5g[OSPREY_NUM_CTLS_5G];
404     u_int8_t   ctl_freqbin_5G[OSPREY_NUM_CTLS_5G][OSPREY_NUM_BAND_EDGES_5G];
405     OSP_CAL_CTL_DATA_5G   ctl_power_data_5g[OSPREY_NUM_CTLS_5G];
406 } __packed ar9300_eeprom_t;
407 
408 
409 /*
410 ** SWAP Functions
411 ** used to read EEPROM data, which is apparently stored in little
412 ** endian form.  We have included both forms of the swap functions,
413 ** one for big endian and one for little endian.  The indices of the
414 ** array elements are the differences
415 */
416 #if AH_BYTE_ORDER == AH_BIG_ENDIAN
417 
418 #define AR9300_EEPROM_MAGIC         0x5aa5
419 #define SWAP16(_x) ( (u_int16_t)( (((const u_int8_t *)(&_x))[0] ) |\
420                      ( ( (const u_int8_t *)( &_x ) )[1]<< 8) ) )
421 
422 #define SWAP32(_x) ((u_int32_t)(                       \
423                     (((const u_int8_t *)(&_x))[0]) |        \
424                     (((const u_int8_t *)(&_x))[1]<< 8) |    \
425                     (((const u_int8_t *)(&_x))[2]<<16) |    \
426                     (((const u_int8_t *)(&_x))[3]<<24)))
427 
428 #else // AH_BYTE_ORDER
429 
430 #define AR9300_EEPROM_MAGIC         0xa55a
431 #define    SWAP16(_x) ( (u_int16_t)( (((const u_int8_t *)(&_x))[1] ) |\
432                         ( ( (const u_int8_t *)( &_x ) )[0]<< 8) ) )
433 
434 #define SWAP32(_x) ((u_int32_t)(                       \
435                     (((const u_int8_t *)(&_x))[3]) |        \
436                     (((const u_int8_t *)(&_x))[2]<< 8) |    \
437                     (((const u_int8_t *)(&_x))[1]<<16) |    \
438                     (((const u_int8_t *)(&_x))[0]<<24)))
439 
440 #endif // AH_BYTE_ORDER
441 
442 // OTP registers for OSPREY
443 
444 #define AR_GPIO_IN_OUT            0x4048 // GPIO input / output register
445 #define OTP_MEM_START_ADDRESS     0x14000
446 #define OTP_STATUS0_OTP_SM_BUSY   0x00015f18
447 #define OTP_STATUS1_EFUSE_READ_DATA 0x00015f1c
448 
449 #define OTP_LDO_CONTROL_ENABLE    0x00015f24
450 #define OTP_LDO_STATUS_POWER_ON   0x00015f2c
451 #define OTP_INTF0_EFUSE_WR_ENABLE_REG_V 0x00015f00
452 // OTP register for Jupiter
453 #define GLB_OTP_LDO_CONTROL_ENABLE    0x00020020
454 #define GLB_OTP_LDO_STATUS_POWER_ON   0x00020028
455 #define OTP_PGENB_SETUP_HOLD_TIME_DELAY     0x15f34
456 
457 // OTP register for Jupiter BT
458 #define BTOTP_MEM_START_ADDRESS				0x64000
459 #define BTOTP_STATUS0_OTP_SM_BUSY			0x00065f18
460 #define BTOTP_STATUS1_EFUSE_READ_DATA		0x00065f1c
461 #define BTOTP_INTF0_EFUSE_WR_ENABLE_REG_V	0x00065f00
462 #define BTOTP_INTF2							0x00065f08
463 #define BTOTP_PGENB_SETUP_HOLD_TIME_DELAY   0x65f34
464 #define BT_RESET_CTL						0x44000
465 #define BT_CLOCK_CONTROL					0x44028
466 
467 
468 // OTP register for WASP
469 #define OTP_MEM_START_ADDRESS_WASP           0x00030000
470 #define OTP_STATUS0_OTP_SM_BUSY_WASP         (OTP_MEM_START_ADDRESS_WASP + 0x1018)
471 #define OTP_STATUS1_EFUSE_READ_DATA_WASP     (OTP_MEM_START_ADDRESS_WASP + 0x101C)
472 #define OTP_LDO_CONTROL_ENABLE_WASP          (OTP_MEM_START_ADDRESS_WASP + 0x1024)
473 #define OTP_LDO_STATUS_POWER_ON_WASP         (OTP_MEM_START_ADDRESS_WASP + 0x102C)
474 #define OTP_INTF0_EFUSE_WR_ENABLE_REG_V_WASP (OTP_MEM_START_ADDRESS_WASP + 0x1000)
475 // Below control the access timing of OTP read/write
476 #define OTP_PG_STROBE_PW_REG_V_WASP              (OTP_MEM_START_ADDRESS_WASP + 0x1008)
477 #define OTP_RD_STROBE_PW_REG_V_WASP              (OTP_MEM_START_ADDRESS_WASP + 0x100C)
478 #define OTP_VDDQ_HOLD_TIME_DELAY_WASP            (OTP_MEM_START_ADDRESS_WASP + 0x1030)
479 #define OTP_PGENB_SETUP_HOLD_TIME_DELAY_WASP     (OTP_MEM_START_ADDRESS_WASP + 0x1034)
480 #define OTP_STROBE_PULSE_INTERVAL_DELAY_WASP     (OTP_MEM_START_ADDRESS_WASP + 0x1038)
481 #define OTP_CSB_ADDR_LOAD_SETUP_HOLD_DELAY_WASP  (OTP_MEM_START_ADDRESS_WASP + 0x103C)
482 
483 #define AR9300_EEPROM_MAGIC_OFFSET  0x0
484 /* reg_off = 4 * (eep_off) */
485 #define AR9300_EEPROM_S             2
486 #define AR9300_EEPROM_OFFSET        0x2000
487 #ifdef AR9100
488 #define AR9300_EEPROM_START_ADDR    0x1fff1000
489 #else
490 #define AR9300_EEPROM_START_ADDR    0x503f1200
491 #endif
492 #define AR9300_FLASH_CAL_START_OFFSET	    0x1000
493 #define AR9300_EEPROM_MAX           0xae0
494 #define IS_EEP_MINOR_V3(_ahp) (ar9300_eeprom_get((_ahp), EEP_MINOR_REV)  >= AR9300_EEP_MINOR_VER_3)
495 
496 #define ar9300_get_ntxchains(_txchainmask) \
497     (((_txchainmask >> 2) & 1) + ((_txchainmask >> 1) & 1) + (_txchainmask & 1))
498 
499 /* RF silent fields in \ */
500 #define EEP_RFSILENT_ENABLED        0x0001  /* bit 0: enabled/disabled */
501 #define EEP_RFSILENT_ENABLED_S      0       /* bit 0: enabled/disabled */
502 #define EEP_RFSILENT_POLARITY       0x0002  /* bit 1: polarity */
503 #define EEP_RFSILENT_POLARITY_S     1       /* bit 1: polarity */
504 #define EEP_RFSILENT_GPIO_SEL       0x00fc  /* bits 2..7: gpio PIN */
505 #define EEP_RFSILENT_GPIO_SEL_S     2       /* bits 2..7: gpio PIN */
506 #define AR9300_EEP_VER               0xE
507 #define AR9300_BCHAN_UNUSED          0xFF
508 #define AR9300_MAX_RATE_POWER        63
509 
510 typedef enum {
511     CALDATA_AUTO=0,
512     CALDATA_EEPROM,
513     CALDATA_FLASH,
514     CALDATA_OTP
515 } CALDATA_TYPE;
516 
517 typedef enum {
518     EEP_NFTHRESH_5,
519     EEP_NFTHRESH_2,
520     EEP_MAC_MSW,
521     EEP_MAC_MID,
522     EEP_MAC_LSW,
523     EEP_REG_0,
524     EEP_REG_1,
525     EEP_OP_CAP,
526     EEP_OP_MODE,
527     EEP_RF_SILENT,
528     EEP_OB_5,
529     EEP_DB_5,
530     EEP_OB_2,
531     EEP_DB_2,
532     EEP_MINOR_REV,
533     EEP_TX_MASK,
534     EEP_RX_MASK,
535     EEP_FSTCLK_5G,
536     EEP_RXGAIN_TYPE,
537     EEP_OL_PWRCTRL,
538     EEP_TXGAIN_TYPE,
539     EEP_RC_CHAIN_MASK,
540     EEP_DAC_HPWR_5G,
541     EEP_FRAC_N_5G,
542     EEP_DEV_TYPE,
543     EEP_TEMPSENSE_SLOPE,
544     EEP_TEMPSENSE_SLOPE_PAL_ON,
545     EEP_PWR_TABLE_OFFSET,
546     EEP_DRIVE_STRENGTH,
547     EEP_INTERNAL_REGULATOR,
548     EEP_SWREG,
549     EEP_PAPRD_ENABLED,
550     EEP_ANTDIV_control,
551     EEP_CHAIN_MASK_REDUCE,
552 } EEPROM_PARAM;
553 
554 #define AR9300_RATES_OFDM_OFFSET    0
555 #define AR9300_RATES_CCK_OFFSET     4
556 #define AR9300_RATES_HT20_OFFSET    8
557 #define AR9300_RATES_HT40_OFFSET    22
558 typedef enum ar9300_Rates {
559     ALL_TARGET_LEGACY_6_24,
560     ALL_TARGET_LEGACY_36,
561     ALL_TARGET_LEGACY_48,
562     ALL_TARGET_LEGACY_54,
563     ALL_TARGET_LEGACY_1L_5L,
564     ALL_TARGET_LEGACY_5S,
565     ALL_TARGET_LEGACY_11L,
566     ALL_TARGET_LEGACY_11S,
567     ALL_TARGET_HT20_0_8_16,
568     ALL_TARGET_HT20_1_3_9_11_17_19,
569     ALL_TARGET_HT20_4,
570     ALL_TARGET_HT20_5,
571     ALL_TARGET_HT20_6,
572     ALL_TARGET_HT20_7,
573     ALL_TARGET_HT20_12,
574     ALL_TARGET_HT20_13,
575     ALL_TARGET_HT20_14,
576     ALL_TARGET_HT20_15,
577     ALL_TARGET_HT20_20,
578     ALL_TARGET_HT20_21,
579     ALL_TARGET_HT20_22,
580     ALL_TARGET_HT20_23,
581     ALL_TARGET_HT40_0_8_16,
582     ALL_TARGET_HT40_1_3_9_11_17_19,
583     ALL_TARGET_HT40_4,
584     ALL_TARGET_HT40_5,
585     ALL_TARGET_HT40_6,
586     ALL_TARGET_HT40_7,
587     ALL_TARGET_HT40_12,
588     ALL_TARGET_HT40_13,
589     ALL_TARGET_HT40_14,
590     ALL_TARGET_HT40_15,
591     ALL_TARGET_HT40_20,
592     ALL_TARGET_HT40_21,
593     ALL_TARGET_HT40_22,
594     ALL_TARGET_HT40_23,
595     ar9300_rate_size
596 } AR9300_RATES;
597 
598 
599 /**************************************************************************
600  * fbin2freq
601  *
602  * Get channel value from binary representation held in eeprom
603  * RETURNS: the frequency in MHz
604  */
605 static inline u_int16_t
606 fbin2freq(u_int8_t fbin, HAL_BOOL is_2ghz)
607 {
608     /*
609     * Reserved value 0xFF provides an empty definition both as
610     * an fbin and as a frequency - do not convert
611     */
612     if (fbin == AR9300_BCHAN_UNUSED)
613     {
614         return fbin;
615     }
616 
617     return (u_int16_t)((is_2ghz) ? (2300 + fbin) : (4800 + 5 * fbin));
618 }
619 
620 extern int CompressionHeaderUnpack(u_int8_t *best, int *code, int *reference, int *length, int *major, int *minor);
621 extern void Ar9300EepromFormatConvert(ar9300_eeprom_t *mptr);
622 extern HAL_BOOL ar9300_eeprom_restore(struct ath_hal *ah);
623 extern int ar9300_eeprom_restore_internal(struct ath_hal *ah, ar9300_eeprom_t *mptr, int /*msize*/);
624 extern int ar9300_eeprom_base_address(struct ath_hal *ah);
625 extern int ar9300_eeprom_volatile(struct ath_hal *ah);
626 extern int ar9300_eeprom_low_limit(struct ath_hal *ah);
627 extern u_int16_t ar9300_compression_checksum(u_int8_t *data, int dsize);
628 extern int ar9300_compression_header_unpack(u_int8_t *best, int *code, int *reference, int *length, int *major, int *minor);
629 
630 extern u_int16_t ar9300_eeprom_struct_size(void);
631 extern ar9300_eeprom_t *ar9300EepromStructInit(int default_index);
632 extern ar9300_eeprom_t *ar9300EepromStructGet(void);
633 extern ar9300_eeprom_t *ar9300_eeprom_struct_default(int default_index);
634 extern ar9300_eeprom_t *ar9300_eeprom_struct_default_find_by_id(int ver);
635 extern int ar9300_eeprom_struct_default_many(void);
636 extern int ar9300EepromUpdateCalPier(int pierIdx, int freq, int chain,
637                           int pwrCorrection, int volt_meas, int temp_meas);
638 extern int ar9300_power_control_override(struct ath_hal *ah, int frequency, int *correction, int *voltage, int *temperature);
639 
640 extern void ar9300EepromDisplayCalData(int for2GHz);
641 extern void ar9300EepromDisplayAll(void);
642 extern void ar9300_set_target_power_from_eeprom(struct ath_hal *ah, u_int16_t freq,
643                                            u_int8_t *target_power_val_t2);
644 extern HAL_BOOL ar9300_eeprom_set_power_per_rate_table(struct ath_hal *ah,
645                                              ar9300_eeprom_t *p_eep_data,
646                                              const struct ieee80211_channel *chan,
647                                              u_int8_t *p_pwr_array,
648                                              u_int16_t cfg_ctl,
649                                              u_int16_t antenna_reduction,
650                                              u_int16_t twice_max_regulatory_power,
651                                              u_int16_t power_limit,
652                                              u_int8_t chainmask);
653 extern int ar9300_transmit_power_reg_write(struct ath_hal *ah, u_int8_t *p_pwr_array);
654 
655 extern u_int8_t ar9300_eeprom_get_legacy_trgt_pwr(struct ath_hal *ah, u_int16_t rate_index, u_int16_t freq, HAL_BOOL is_2ghz);
656 extern u_int8_t ar9300_eeprom_get_ht20_trgt_pwr(struct ath_hal *ah, u_int16_t rate_index, u_int16_t freq, HAL_BOOL is_2ghz);
657 extern u_int8_t ar9300_eeprom_get_ht40_trgt_pwr(struct ath_hal *ah, u_int16_t rate_index, u_int16_t freq, HAL_BOOL is_2ghz);
658 extern u_int8_t ar9300_eeprom_get_cck_trgt_pwr(struct ath_hal *ah, u_int16_t rate_index, u_int16_t freq);
659 extern HAL_BOOL ar9300_internal_regulator_apply(struct ath_hal *ah);
660 extern HAL_BOOL ar9300_drive_strength_apply(struct ath_hal *ah);
661 extern HAL_BOOL ar9300_attenuation_apply(struct ath_hal *ah, u_int16_t channel);
662 extern int32_t ar9300_thermometer_get(struct ath_hal *ah);
663 extern HAL_BOOL ar9300_thermometer_apply(struct ath_hal *ah);
664 extern HAL_BOOL ar9300_xpa_timing_control_apply(struct ath_hal *ah, HAL_BOOL is_2ghz);
665 extern HAL_BOOL ar9300_x_lNA_bias_strength_apply(struct ath_hal *ah, HAL_BOOL is_2ghz);
666 
667 extern int32_t ar9300MacAdressGet(u_int8_t *mac);
668 extern int32_t ar9300CustomerDataGet(u_int8_t *data, int32_t len);
669 extern int32_t ar9300ReconfigDriveStrengthGet(void);
670 extern int32_t ar9300EnableTempCompensationGet(void);
671 extern int32_t ar9300EnableVoltCompensationGet(void);
672 extern int32_t ar9300FastClockEnableGet(void);
673 extern int32_t ar9300EnableDoublingGet(void);
674 
675 extern u_int16_t *ar9300_regulatory_domain_get(struct ath_hal *ah);
676 extern int32_t ar9300_eeprom_write_enable_gpio_get(struct ath_hal *ah);
677 extern int32_t ar9300_wlan_led_gpio_get(struct ath_hal *ah);
678 extern int32_t ar9300_wlan_disable_gpio_get(struct ath_hal *ah);
679 extern int32_t ar9300_rx_band_select_gpio_get(struct ath_hal *ah);
680 extern int32_t ar9300_rx_gain_index_get(struct ath_hal *ah);
681 extern int32_t ar9300_tx_gain_index_get(struct ath_hal *ah);
682 extern int32_t ar9300_xpa_bias_level_get(struct ath_hal *ah, HAL_BOOL is_2ghz);
683 extern HAL_BOOL ar9300_xpa_bias_level_apply(struct ath_hal *ah, HAL_BOOL is_2ghz);
684 extern u_int32_t ar9300_ant_ctrl_common_get(struct ath_hal *ah, HAL_BOOL is_2ghz);
685 extern u_int32_t ar9300_ant_ctrl_common2_get(struct ath_hal *ah, HAL_BOOL is_2ghz);
686 extern u_int16_t ar9300_ant_ctrl_chain_get(struct ath_hal *ah, int chain, HAL_BOOL is_2ghz);
687 extern HAL_BOOL ar9300_ant_ctrl_apply(struct ath_hal *ah, HAL_BOOL is_2ghz);
688 /* since valid noise floor values are negative, returns 1 on error */
689 extern int32_t ar9300_noise_floor_cal_or_power_get(
690     struct ath_hal *ah, int32_t frequency, int32_t ichain, HAL_BOOL use_cal);
691 #define ar9300NoiseFloorGet(ah, frequency, ichain) \
692     ar9300_noise_floor_cal_or_power_get(ah, frequency, ichain, 1/*use_cal*/)
693 #define ar9300NoiseFloorPowerGet(ah, frequency, ichain) \
694     ar9300_noise_floor_cal_or_power_get(ah, frequency, ichain, 0/*use_cal*/)
695 extern void ar9300_eeprom_template_preference(int32_t value);
696 extern int32_t ar9300_eeprom_template_install(struct ath_hal *ah, int32_t value);
697 extern void ar9300_calibration_data_set(struct ath_hal *ah, int32_t source);
698 extern int32_t ar9300_calibration_data_get(struct ath_hal *ah);
699 extern int32_t ar9300_calibration_data_address_get(struct ath_hal *ah);
700 extern void ar9300_calibration_data_address_set(struct ath_hal *ah, int32_t source);
701 extern HAL_BOOL ar9300_calibration_data_read_flash(struct ath_hal *ah, long address, u_int8_t *buffer, int many);
702 extern HAL_BOOL ar9300_calibration_data_read_eeprom(struct ath_hal *ah, long address, u_int8_t *buffer, int many);
703 extern HAL_BOOL ar9300_calibration_data_read_otp(struct ath_hal *ah, long address, u_int8_t *buffer, int many, HAL_BOOL is_wifi);
704 extern HAL_BOOL ar9300_calibration_data_read(struct ath_hal *ah, long address, u_int8_t *buffer, int many);
705 extern int32_t ar9300_eeprom_size(struct ath_hal *ah);
706 extern int32_t ar9300_otp_size(struct ath_hal *ah);
707 extern HAL_BOOL ar9300_calibration_data_read_array(struct ath_hal *ah, int address, u_int8_t *buffer, int many);
708 
709 
710 
711 #if defined(WIN32) || defined(WIN64)
712 #pragma pack (pop, ar9300)
713 #endif
714 
715 #endif  /* _ATH_AR9300_EEP_H_ */
716