FreeCalypso > hg > fc-tourmaline
view src/gpf/frame/cust_os/osx.c @ 268:f2e52cab0a73
abb_inth.c: check all interrupt causes, not just one
The original code used if - else if - else if etc constructs, thus
the first detected interrupt was the only one handled. However,
Iota ITSTATREG is a clear-on-read register, thus if we only handle
the first detected interrupt and skip checking the others, then the
other interrupts will be lost, if more than one interrupt happened
to occur in one ABB interrupt handling cycle - a form of rare race
condition. Change the code to check all interrupts that were read
in this cycle.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Sun, 13 Jun 2021 18:17:53 +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); }