FreeCalypso > hg > fc-tourmaline
view src/gpf/frame/cust_os/osx.c @ 267:10b3a6876273
fc-target.h preprocessor symbols: introduce CONFIG_TARGET_LEO_RFFE
Out of our currently existing supported targets, Leonardo and Tango
use TI's classic Leonardo RFFE wiring. However, we would like to
use the same quadband RFFE with the same classic wiring on our
FreeCalypso Libre Dumbphone handset, and also on the planned
development board that will serve as a stepping stone toward that
goal. Therefore, we introduce the new CONFIG_TARGET_LEO_RFFE
preprocessor symbol, and conditionalize on this symbol in tpudrv12.h,
instead of a growing || of different targets.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Wed, 09 Jun 2021 07:26:51 +0000 |
| parents | 4e78acac3d88 |
| children |
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/* * This C module is a reconstruction based on the disassembly of * osx.obj in osx_na7_db.lib from the Leonardo package. */ /* reconstructed set of included headers from COFF symtab: */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include "typedefs.h" #include "vsi.h" #include "cust_os.h" int osx_config = 2; int _caller; T_OSX_REGISTER _osx_registry[MAX_OSX_QUEUE]; void int_osx_send_sig(int caller, unsigned long opc, void *signal_ptr, int queue_handle) { T_QMSG Message; int status; TRACE_ASSERT(queue_handle != 0); Message.MsgType = MSG_SIGNAL; Message.Msg.Signal.SigOPC = opc; Message.Msg.Signal.SigBuffer = signal_ptr; Message.Msg.Signal.SigLen = sizeof(xSignalHeaderRec); status = vsi_c_send(caller, queue_handle, &Message FILE_LINE_MACRO); TRACE_ASSERT(status == VSI_OK); } void osx_send_sig(unsigned long opc, void *signal_ptr, T_ENUM_OS_QUEUE queue_type) { int caller, queue_handle; caller = _osx_registry[queue_type].caller; queue_handle = _osx_registry[queue_type].queue_handle; TRACE_ASSERT(queue_handle != 0); int_osx_send_sig(caller, opc, signal_ptr, queue_handle); } void int_osx_free_prim(int caller, xSignalHeaderRec *prim_ptr) { vsi_c_free(caller, (T_VOID_STRUCT **) &prim_ptr FILE_LINE_MACRO); } void int_osx_send_prim(int caller, xSignalHeaderRec *prim_ptr, int queue_handle) { T_QMSG Message; int status; if (osx_config & 1 && prim_ptr->SignalCode == 0x7D) { vsi_c_free(caller, (T_VOID_STRUCT **) &prim_ptr FILE_LINE_MACRO); return; } TRACE_ASSERT(queue_handle != 0); Message.MsgType = MSG_PRIMITIVE; Message.Msg.Primitive.Prim = (T_VOID_STRUCT *) prim_ptr; Message.Msg.Primitive.PrimLen = sizeof(xSignalHeaderRec); status = vsi_c_send(caller, queue_handle, &Message FILE_LINE_MACRO); TRACE_ASSERT(status == VSI_OK); } void osx_send_prim(xSignalHeaderRec *prim_ptr, T_ENUM_OS_QUEUE queue_type) { int_osx_send_prim(_osx_registry[queue_type].caller, prim_ptr, _osx_registry[queue_type].queue_handle); } xSignalHeaderRec * int_osx_receive_prim(int caller, int queue_handle) { T_QMSG Message; unsigned opc; xSignalHeaderRec *message; int status; TRACE_ASSERT(queue_handle != OSX_ERROR); for (;;) { status = vsi_c_await(caller, queue_handle, &Message, 0xFFFFFFFF); TRACE_ASSERT(status == VSI_OK); /* * Disassembly reveals that the original code expects * the received message to be a primitive, rather than * a signal or a timeout. If one of the latter comes * in, the original code would go haywire. Hence the * following TRACE_ASSERT is a FreeCalypso addition. */ TRACE_ASSERT(Message.MsgType == MSG_PRIMITIVE); message = (xSignalHeaderRec *) Message.Msg.Primitive.Prim; opc = message->SignalCode & 0xFFFF; if (opc == 11 && osx_config & 2) message->SigP = *(DummyStruct **)(message + 1); else message->SigP = (DummyStruct *)(message + 1); if (opc != 0x8000) return(message); vsi_c_primitive(caller, message); } } xSignalHeaderRec * osx_receive_prim(T_ENUM_OS_QUEUE queue_type) { return int_osx_receive_prim(_osx_registry[queue_type].caller, _osx_registry[queue_type].queue_handle); } void osx_free_prim(xSignalHeaderRec *prim_ptr) { vsi_c_free(_caller, (T_VOID_STRUCT **) &prim_ptr FILE_LINE_MACRO); } void int_osx_free_mem(int caller, void *mem_ptr) { int status; TRACE_ASSERT(mem_ptr != 0); status = D_FREE(mem_ptr); TRACE_ASSERT(status == VSI_OK); } void osx_free_mem(void *mem_ptr) { int_osx_free_mem(_caller, mem_ptr); } xSignalHeaderRec * int_osx_alloc_prim(int caller, unsigned long len, int pool_group_handle) { xSignalHeaderRec *prim_ptr; prim_ptr = (xSignalHeaderRec *) vsi_c_new(caller, (len & 0xFFFF) + sizeof(xSignalHeaderRec), 0 FILE_LINE_MACRO); /* This check is a FreeCalypso addition */ TRACE_ASSERT(prim_ptr != 0); prim_ptr->SigP = (DummyStruct *)(prim_ptr + 1); return(prim_ptr); } xSignalHeaderRec * osx_alloc_prim(unsigned long len) { xSignalHeaderRec *prim_ptr; prim_ptr = (xSignalHeaderRec *) vsi_c_new(_caller, (len & 0xFFFF) + sizeof(xSignalHeaderRec), 0 FILE_LINE_MACRO); /* This check is a FreeCalypso addition */ TRACE_ASSERT(prim_ptr != 0); prim_ptr->SigP = (DummyStruct *)(prim_ptr + 1); return(prim_ptr); } void * int_osx_alloc_mem(int caller, unsigned long len) { void *mem_ptr; DMALLOC(mem_ptr, len); TRACE_ASSERT(mem_ptr != 0); return(mem_ptr); } void * osx_alloc_mem(unsigned long len) { return int_osx_alloc_mem(_caller, len); } int _osx_open(int caller, unsigned short queue_type, int queue_handle) { if (!queue_type && !queue_handle) { _caller = caller; return(OSX_ERROR); } if (queue_type >= MAX_OSX_QUEUE) return(OSX_ERROR); if (_osx_registry[queue_type].queue_handle != queue_handle && _osx_registry[queue_type].queue_handle != -1) return(OSX_ERROR); _osx_registry[queue_type].queue_handle = queue_handle; _osx_registry[queue_type].caller = caller; return(OSX_OK); } void _osx_init(void) { USHORT i; for (i = 0; i < MAX_OSX_QUEUE; i++) _osx_registry[i].queue_handle = -1; } int _osx_config(const char *config) { if (!strcmp(config, L1S_TRACE_DISABLE)) { osx_config |= 1; return(OSX_OK); } if (!strcmp(config, L1S_TRACE_ENABLE)) { osx_config &= ~1; return(OSX_OK); } if (!strcmp(config, NO_SPECIAL_MPHC_RXLEV_REQ)) { osx_config &= ~2; return(OSX_OK); } return(OSX_ERROR); }