FreeCalypso > hg > fc-magnetite
view cdg211/cdginc/m_rr_com.val @ 673:62a5285e014a
Lorekeeping: allow tpudrv-leonardo.lib on Leonardo/Tango
Back in 2015 the Mother's idea was to produce a FreeCalypso development
board that would be a clone of TI Leonardo, including the original
quadband RFFE; one major additional stipulation was that this board
needed to be able to run original unmodified TCS211-20070608 firmware
with all blobs intact, with only minimal binary patches to main.lib
and tpudrv.lib. The necessary patched libs were produced at that time
in the tcs211-patches repository.
That plan was changed and we produced FCDEV3B instead, with Openmoko's
triband RFFE instead of Leonardo quadband, but when FC Magnetite started
in 2016, a TPUDRV_blob= provision was still made, allowing the possibility
of patching OM's tpudrv.lib for a restored Leonardo RFFE.
Now in 2020 we have FC Tango which is essentially a verbatim clone of
Leonardo core, including the original quadband RFFE. We have also
deblobbed our firmware so much that we have absolutely no real need
for a blob version of tpudrv.lib - but I thought it would be neat to put
the ancient TPUDRV_blob= mechanism (classic config) to its originally
intended use, just for the heck of it.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Fri, 29 May 2020 03:55:36 +0000 |
parents | 56abf6cf8a0b |
children |
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/* +--------------------------------------------------------------------------+ | PROJECT : PROTOCOL STACK | | FILE : m_rr_com.val | | SOURCE : "__out__\g23m_dfile\msg\rr_com.mdf" | | LastModified : "2002-11-18" | | IdAndVersion : "8443.250.02.008" | | SrcFileTime : "Mon Nov 24 15:49:38 2003" | | Generated by CCDGEN_2.5.5 on Fri Jun 08 13:59:14 2007 | | !!DO NOT MODIFY!!DO NOT MODIFY!!DO NOT MODIFY!! | +--------------------------------------------------------------------------+ */ /* PRAGMAS * PREFIX : NONE * COMPATIBILITY_DEFINES : NO (require PREFIX) * ALWAYS_ENUM_IN_VAL_FILE: NO * ENABLE_GROUP: NO * CAPITALIZE_TYPENAME: NO */ #ifndef M_RR_COM_VAL #define M_RR_COM_VAL #define CDG_ENTER__M_RR_COM_VAL #define CDG_ENTER__FILENAME _M_RR_COM_VAL #define CDG_ENTER__M_RR_COM_VAL__FILE_TYPE CDGINC #define CDG_ENTER__M_RR_COM_VAL__LAST_MODIFIED _2002_11_18 #define CDG_ENTER__M_RR_COM_VAL__ID_AND_VERSION _8443_250_02_008 #define CDG_ENTER__M_RR_COM_VAL__SRC_FILE_TIME _Mon_Nov_24_15_49_38_2003 #include "CDG_ENTER.h" #undef CDG_ENTER__M_RR_COM_VAL #undef CDG_ENTER__FILENAME /* * Value constants for VAL_bool */ #define NO (0x0) /* value is not set */ #define YES (0x1) /* value is set */ #define NOT_SUPPORTED (0x0) /* feature not supported */ #define SUPPORTED (0x1) /* feature supported */ /* * Value constants for VAL_rev_lev */ #define VAL_REV_LEV___DEF (0x0) /* Reserved by future use */ #define PHASE_1 (0x0) /* Reserved for GSM phase 1 */ #define PHASE_2 (0x1) /* Used by GSM phase 2 mobile stations */ #define R99_SUPPORT (0x2) /* Used by mobile stations supporting R99 or later versions */ /* * Value constants for VAL_ss_screen */ #define VAL_SS_SCREEN___DEF (0x0) /* for future use (The network shall interpret these values the same as ?1?) */ #define SS_SCREEN_DEFAULT (0x0) /* default value of phase 1 */ #define SS_SCREEN_PHASE_2 (0x1) /* capability of handling of ellipsis notation and phase 2 error handling */ /* * Value constants for VAL_egsm */ #define EGSM_NOT_SUPPORTED (0x0) /* The mobile station does not support the extension band. */ #define EGSM_SUPPORTED (0x1) /* The mobile station does support the extension band (E-GSM or R-GSM). */ /* * Value constants for VAL_ucs2_treat */ #define DEFAULT_PREF (0x0) /* the ME has a preference for the default alphabet (defined in GSM 03.38) over UCS2. */ #define NO_PREF (0x1) /* the ME has no preference between the use of the default alphabet and the use of UCS2. */ /* * Value constants for VAL_single_band */ #define VAL_SINGLE_BAND___DEF (0x0) /* Reserved */ #define SINGLE_EGSM (0x0) /* Extended GSM is supported */ #define SINGLE_GSM900 (0x1) /* GSM 900 is supported */ #define SINGLE_DCS1800 (0x2) /* DCS 1800 is supported */ #define SINGLE_GSM450 (0x3) /* GSM 450 is supported */ #define SINGLE_GSM480 (0x4) /* GSM 480 is supported */ #define SINGLE_GSM850 (0x5) /* GSM 850 is supported */ #define SINGLE_PCS1900 (0x6) /* PCS 1900 is supported */ /* * Value constants for VAL_mod_cap */ #define DL_ONLY_8PSK (0x0) /* 8-PSK supported for downlink reception only */ #define FULL_8PSK (0x1) /* 8-PSK supported for uplink transmission and downlink reception */ /* * Value constants for VAL_mb_value */ #define VAL_MB_VALUE___DEF (0x0) /* Reserved */ #define MB_NO_EUROPEAN_BAND (0x0) /* 0b000: neither GSM 900, E-GSM or DCS 1800 supported */ #define MB_GSM900 (0x1) /* 0b001: GSM 900 is supported */ #define MB_EGSM (0x2) /* 0b010: E-GSM is supported */ #define MB_DCS1800 (0x4) /* 0b100: DCS 1800 is supported */ #define MB_DUAL (0x5) /* 0b101: GSM 900 and DCS 1800 is supported */ #define MB_DUAL_EXT (0x6) /* 0b110: E-GSM and DCS 1800 is supported */ /* * Value constants for VAL_gsm400_supp */ #define VAL_GSM400_SUPP___0 (0x0) /* reserved (if neither GSM 480 nor GSM 450 is supported the whole gsm400_struct is omitted) */ #define GSM480 (0x1) /* GSM 480 supported but GSM 450 not supported */ #define GSM450 (0x2) /* GSM 450 supported but GSM 480 not supported */ #define GSM450_480 (0x3) /* GSM 450 supported and GSM 480 supported */ /* * Value constants for VAL_acc_tech_typ */ #define VAL_ACC_TECH_TYP___DEF (0x0) /* unknown */ #define ACC_GSM_P (0x0) /* GSM P */ #define ACC_GSM_E (0x1) /* GSM E -note that GSM E covers GSM P */ #define ACC_GSM_R (0x2) /* GSM R - note that GSM R covers GSM E and GSM P */ #define ACC_GSM_1800 (0x3) /* GSM 1800 (DCS) */ #define ACC_GSM_1900 (0x4) /* GSM 1900 (PCS) */ #define ACC_GSM_450 (0x5) /* GSM 450 */ #define ACC_GSM_480 (0x6) /* GSM 480 */ #define ACC_GSM_850 (0x7) /* GSM 850 */ #define ACC_INVALID (0xf) /* no valid access technology type present (this value isn?t defined in the specification) */ /* * Value constants for VAL_sms_val */ #define SM_1 (0x0) /* 1/4 timeslot (~144 micro sec) */ #define SM_2 (0x1) /* 2/4 timeslot (~288 micro sec) */ #define SM_3 (0x2) /* 3/4 timeslot (~433 micro sec) */ #define SM_4 (0x3) /* 4/4 timeslot */ #define SM_5 (0x4) /* 5/4 timeslot */ #define SM_6 (0x5) /* 6/4 timeslot */ #define SM_7 (0x6) /* 7/4 timeslot */ #define SM_8 (0x7) /* 8/4 timeslot */ #define SM_9 (0x8) /* 9/4 timeslot */ #define SM_10 (0x9) /* 10/4 timeslot */ #define SM_11 (0xa) /* 11/4 timeslot */ #define SM_12 (0xb) /* 12/4 timeslot */ #define SM_13 (0xc) /* 13/4 timeslot */ #define SM_14 (0xd) /* 14/4 timeslot */ #define SM_15 (0xe) /* 15/4 timeslot */ #define SM_16 (0xf) /* 16/4 timeslot (~2307 micro sec) */ /* * Value constants for VAL_rf_pow_cap */ #define RF_CLASS_1 (0x0) /* class 1 for GSM 850, 900P+E, DCS 1800 and PCS 1900 */ #define RF_CLASS_2 (0x1) /* class 2 for GSM 850, 900P+E, DCS 1800 and PCS 1900 */ #define RF_CLASS_3 (0x2) /* class 3 for GSM 850, 900P+E, DCS 1800 and PCS 1900 */ #define RF_CLASS_4 (0x3) /* class 4 for GSM 850, 900P+E (reserved for DCS 1800 and PCS 1900) */ #define RF_CLASS_5 (0x4) /* class 5 for GSM 850, 900P+E (reserved for DCS 1800 and PCS 1900) */ #define VAL_RF_POW_CAP___5 (0x5) /* reserved */ #define VAL_RF_POW_CAP___6 (0x6) /* reserved */ #define RF_CLASS_IRRELEVANT (0x7) /* irrelevent for this IE (multiband GSM MS) */ /* * Value constants for VAL_pow_class */ #define POWER_CLASS_1 (0x1) /* Power Class 1 */ #define POWER_CLASS_2 (0x2) /* Power Class 2 */ #define POWER_CLASS_3 (0x3) /* Power Class 3 */ #define POWER_CLASS_4 (0x4) /* Power Class 4 */ #define POWER_CLASS_5 (0x5) /* Power Class 5 */ #define VAL_POW_CLASS___6 (0x6) /* Reserved */ #define VAL_POW_CLASS___7 (0x7) /* Reserved */ #define MIN_CLASS_GSM (0x2) /* minimal GSM power class */ #define MAX_CLASS_GSM (0x5) /* maximal GSM power class */ #define MIN_CLASS_DCS (0x1) /* minimal DCS power class */ #define MAX_CLASS_DCS (0x3) /* maximal DCS power class */ #define MIN_CLASS_PCS (0x1) /* minimal PCS power class */ #define MAX_CLASS_PCS (0x3) /* maximal PCS power class */ #define CLASS_MIN_POW_GSM (0x5) /* GSM power class with the lowest output power */ #define CLASS_MIN_POW_DCS (0x2) /* DCS power class with the lowest output power */ #define CLASS_MIN_POW_PCS (0x2) /* PCS power class with the lowest output power */ #define IDX_PWRCLASS_900 (0x0) /* Index for use with rf_cap.rf_power.pow_class4[] array */ #define IDX_PWRCLASS_1800 (0x1) /* Index for use with rf_cap.rf_power.pow_class4[] array */ #define IDX_PWRCLASS_1900 (0x2) /* Index for use with rf_cap.rf_power.pow_class4[] array */ #define IDX_PWRCLASS_850 (0x3) /* Index for use with rf_cap.rf_power.pow_class4[] array */ #define IDX_PWRCLASS_400 (0x4) /* Index for use with rf_cap.rf_power.pow_class4[] array */ /* * Value constants for VAL_ms_class */ #define MSLOT_CLASS_1 (0x1) /* Multi Slot Class 1 */ #define MSLOT_CLASS_2 (0x2) /* Multi Slot Class 2 */ #define MSLOT_CLASS_3 (0x3) /* Multi Slot Class 3 */ #define MSLOT_CLASS_4 (0x4) /* Multi Slot Class 4 */ #define MSLOT_CLASS_5 (0x5) /* Multi Slot Class 5 */ #define MSLOT_CLASS_6 (0x6) /* Multi Slot Class 6 */ #define MSLOT_CLASS_7 (0x7) /* Multi Slot Class 7 */ #define MSLOT_CLASS_8 (0x8) /* Multi Slot Class 8 */ #define MSLOT_CLASS_9 (0x9) /* Multi Slot Class 9 */ #define MSLOT_CLASS_10 (0xa) /* Multi Slot Class 10 */ #define MSLOT_CLASS_11 (0xb) /* Multi Slot Class 11 */ #define MSLOT_CLASS_12 (0xc) /* Multi Slot Class 12 */ #define MSLOT_CLASS_13 (0xd) /* Multi Slot Class 13 */ #define MSLOT_CLASS_14 (0xe) /* Multi Slot Class 14 */ #define MSLOT_CLASS_15 (0xf) /* Multi Slot Class 15 */ #define MSLOT_CLASS_16 (0x10) /* Multi Slot Class 16 */ #define MSLOT_CLASS_17 (0x11) /* Multi Slot Class 17 */ #define MSLOT_CLASS_18 (0x12) /* Multi Slot Class 18 */ #define MSLOT_CLASS_19 (0x13) /* Multi Slot Class 19 */ #define MSLOT_CLASS_20 (0x14) /* Multi Slot Class 20 (not for HSCSD) */ #define MSLOT_CLASS_21 (0x15) /* Multi Slot Class 21 (not for HSCSD) */ #define MSLOT_CLASS_22 (0x16) /* Multi Slot Class 22 (not for HSCSD) */ #define MSLOT_CLASS_23 (0x17) /* Multi Slot Class 23 (not for HSCSD) */ #define MSLOT_CLASS_24 (0x18) /* Multi Slot Class 24 (not for HSCSD) */ #define MSLOT_CLASS_25 (0x19) /* Multi Slot Class 25 (not for HSCSD) */ #define MSLOT_CLASS_26 (0x1a) /* Multi Slot Class 26 (not for HSCSD) */ #define MSLOT_CLASS_27 (0x1b) /* Multi Slot Class 27 (not for HSCSD) */ #define MSLOT_CLASS_28 (0x1c) /* Multi Slot Class 28 (not for HSCSD) */ #define MSLOT_CLASS_29 (0x1d) /* Multi Slot Class 29 (not for HSCSD) */ /* * Value constants for VAL_dtm_g_ms_class */ #define SUB_CLASS_1 (0x0) /* Sub-Class 1 supported */ #define SUB_CLASS_5 (0x1) /* Sub-Class 5 supported */ #define SUP_CLASS_9 (0x2) /* Sub-Class 9 supported */ #define VAL_DTM_G_MS_CLASS___3 (0x3) /* Reserved */ /* * Value constants for VAL_pow_8psk_cap */ #define VAL_POW_8PSK_CAP___0 (0x0) /* Reserved */ #define POWER_CLASS_E1 (0x1) #define POWER_CLASS_E2 (0x2) #define POWER_CLASS_E3 (0x3) /* * Value constants for VAL_bands */ #define BAND_AUTO (0x0) /* 0b00000000: All bands shall be scanned */ #define BAND_GSM_900 (0x1) /* 0b00000001: GSM 900 is supported, shall be scanned */ #define BAND_DCS_1800 (0x2) /* 0b00000010: DCS 1800 is supported, shall be scanned */ #define BAND_PCS_1900 (0x4) /* 0b00000100: PCS 1900 is supported, shall be scanned */ #define BAND_E_GSM (0x8) /* 0b00001000: Extended GSM is supported, shall be scanned */ #define BAND_GSM_850 (0x10) /* 0b00010000: GSM 850 is supported, shall be scanned */ #define BAND_GSM_450 (0x20) /* 0b00100000: GSM 450 is supported, shall be scanned */ #define BAND_GSM_480 (0x40) /* 0b01000000: GSM 480 is supported, shall be scanned */ #define BAND_R_GSM (0x80) /* 0b10000000: R-GSM is supported, shall be scanned */ #define BAND_DUAL (0x3) /* 0b00000011: GSM 900 and DCS 1800 is supported, shall be scanned */ #define BAND_DUAL_EXT (0xb) /* 0b00001011: GSM 900, E-GSM and DCS 1800 is supported, shall be scanned */ #define BAND_DUAL_US (0x14) /* 0b00010100: GSM 850 and PCS 1900 is supported, shall be scanned */ /* * user defined constants */ #define RR_COM_DUMMY_CONSTANT (0x0) #include "CDG_LEAVE.h" #endif