/* event.c: EVENT LOGGING * * $Id: //info.ravenbrook.com/project/mps/version/1.111/code/event.c#1 $ * Copyright (c) 2001 Ravenbrook Limited. See end of file for license. * * .sources: mps.design.event * * TRANSGRESSIONS (rule.impl.trans) * * .trans.ref: The reference counting used to destroy the mps_io object * isn't right. * * .trans.log: The log file will be re-created if the lifetimes of * arenas don't overlap, but shared if they do. mps_io_create cannot * be called twice, but EventInit avoids this anyway. * * .trans.ifdef: This file should logically be split into two, event.c * (which contains NOOP definitions, for general use) and eventdl.c, which * is specific to the logging variety and actually does logging (maybe). * Unfortunately, the build system doesn't really cope, and so this file * consists of two versions which are conditional on the EVENT symbol. */ #include "mpm.h" #include "event.h" #include "mpsio.h" SRCID(event, "$Id: //info.ravenbrook.com/project/mps/version/1.111/code/event.c#1 $"); #ifdef EVENT /* .trans.ifdef */ static Bool eventInited = FALSE; static Bool eventIOInited = FALSE; static mps_io_t eventIO; static Count eventUserCount; static Serial EventInternSerial; /* Buffers in which events are recorded, from the top down. */ char EventBuffer[EventKindLIMIT][EventBufferSIZE]; /* Pointers to last written event in each buffer. */ char *EventLast[EventKindLIMIT]; EventControlSet EventKindControl; /* Bit set used to control output. */ /* A single event structure output once per buffer flush. */ EventEventClockSyncStruct eventClockSyncStruct; /* eventClockSync -- Populate and write the clock sync event. */ static Res eventClockSync(void) { Res res; size_t size; size= size_tAlignUp(sizeof(eventClockSyncStruct), MPS_PF_ALIGN); eventClockSyncStruct.code = EventEventClockSyncCode; eventClockSyncStruct.size = (EventSize)size; EVENT_CLOCK(eventClockSyncStruct.clock); eventClockSyncStruct.f0 = (Word)mps_clock(); res = (Res)mps_io_write(eventIO, (void *)&eventClockSyncStruct, size); if (res != ResOK) goto failWrite; res = ResOK; failWrite: return res; } /* EventFlush -- flush event buffer to the event stream */ Res EventFlush(EventKind kind) { Res res; size_t size; AVER(eventInited); AVER(0 <= kind && kind < EventKindLIMIT); AVER(EventBuffer[kind] <= EventLast[kind]); AVER(EventLast[kind] <= EventBuffer[kind] + EventBufferSIZE); /* Is event logging enabled for this kind of event, or are or are we just writing to the buffer for backtraces, cores, and other debugging? */ if (BS_IS_MEMBER(EventKindControl, kind)) { size = (size_t)(EventBuffer[kind] + EventBufferSIZE - EventLast[kind]); /* Checking the size avoids creating the event stream when the arena is destroyed and no events have been logged. */ if (size == 0) return ResOK; /* Ensure the IO stream is open. We do this late so that no stream is created if no events are enabled by telemetry control. */ if (!eventIOInited) { res = (Res)mps_io_create(&eventIO); if(res != ResOK) goto failCreate; eventIOInited = TRUE; } /* Send an EventClockSync event */ res = eventClockSync(); if (res != ResOK) goto failClockSync; /* Writing might be faster if the size is aligned to a multiple of the C library or kernel's buffer size. We could pad out the buffer with a marker for this purpose. */ res = (Res)mps_io_write(eventIO, (void *)EventLast[kind], size); if (res != ResOK) goto failWrite; } res = ResOK; failClockSync: failWrite: failCreate: /* Flush the in-memory buffer whether or not we succeeded, so that we can record recent events there. */ EventLast[kind] = EventBuffer[kind] + EventBufferSIZE; return res; } /* EventSync -- synchronize the event stream with the buffers */ void EventSync(void) { EventKind kind; for (kind = 0; kind < EventKindLIMIT; ++kind) (void)EventFlush(kind); (void)mps_io_flush(eventIO); } /* EventInit -- start using the event system, initialize if necessary */ void EventInit(void) { /* Make local enums for all event params in order to check that the indexes in the parameter definition macros are in order, and that parameter idents are unique. */ #define EVENT_CHECK_ENUM_PARAM(name, index, sort, ident) \ Event##name##Param##ident, #define EVENT_CHECK_ENUM(X, name, code, always, kind) \ enum Event##name##ParamEnum { \ EVENT_##name##_PARAMS(EVENT_CHECK_ENUM_PARAM, name) \ Event##name##ParamLIMIT \ }; EVENT_LIST(EVENT_CHECK_ENUM, X) /* Check consistency of the event definitions. These are all compile-time checks and should get optimised away. */ #define EVENT_PARAM_CHECK_P(name, index, ident) #define EVENT_PARAM_CHECK_A(name, index, ident) #define EVENT_PARAM_CHECK_W(name, index, ident) #define EVENT_PARAM_CHECK_U(name, index, ident) #define EVENT_PARAM_CHECK_D(name, index, ident) #define EVENT_PARAM_CHECK_B(name, index, ident) #define EVENT_PARAM_CHECK_S(name, index, ident) \ AVER(index + 1 == Event##name##ParamLIMIT); /* strings must come last */ #define EVENT_PARAM_CHECK(name, index, sort, ident) \ AVER(index == Event##name##Param##ident); \ AVER(sizeof(EventF##sort) >= 0); /* check existence of type */ \ EVENT_PARAM_CHECK_##sort(name, index, ident) #define EVENT_CHECK(X, name, code, always, kind) \ AVER(size_tAlignUp(sizeof(Event##name##Struct), MPS_PF_ALIGN) \ <= EventSizeMAX); \ AVER(Event##name##Code == code); \ AVER(0 <= code && code <= EventCodeMAX); \ AVER(sizeof(#name) - 1 <= EventNameMAX); \ AVER((Bool)Event##name##Always == always); \ AVERT(Bool, always); \ AVER(0 <= Event##name##Kind); \ AVER((EventKind)Event##name##Kind < EventKindLIMIT); \ EVENT_##name##_PARAMS(EVENT_PARAM_CHECK, name) EVENT_LIST(EVENT_CHECK, X) /* Ensure that no event can be larger than the maximum event size. */ AVER(EventBufferSIZE <= EventSizeMAX); /* Only if this is the first call. */ if(!eventInited) { /* See .trans.log */ EventKind kind; for (kind = 0; kind < EventKindLIMIT; ++kind) { AVER(EventLast[kind] == NULL); EventLast[kind] = EventBuffer[kind] + EventBufferSIZE; } eventUserCount = (Count)1; eventInited = TRUE; EventKindControl = (Word)mps_lib_telemetry_control(); EventInternSerial = (Serial)1; /* 0 is reserved */ (void)EventInternString(MPSVersion()); /* emit version */ EVENT7(EventInit, EVENT_VERSION_MAJOR, EVENT_VERSION_MEDIAN, EVENT_VERSION_MINOR, EventCodeMAX, EventNameMAX, MPS_WORD_WIDTH, mps_clocks_per_sec()); /* flush these initial events to get the first ClockSync out. */ EventSync(); } else { ++eventUserCount; } } /* EventFinish -- stop using the event system */ void EventFinish(void) { AVER(eventInited); AVER(eventUserCount > 0); EventSync(); --eventUserCount; } /* EventControl -- Change or read control word * * Resets the bits specified in resetMask, and flips those in * flipMask. Returns old value. * * Operations can be implemented as follows: * Set(M) EventControl(M,M) * Reset(M) EventControl(M,0) * Flip(M) EventControl(0,M) * Read() EventControl(0,0) * * TODO: Candy-machine interface is a transgression. */ EventControlSet EventControl(EventControlSet resetMask, EventControlSet flipMask) { EventControlSet oldValue = EventKindControl; /* EventKindControl = (EventKindControl & ~resetMask) ^ flipMask */ EventKindControl = BS_SYM_DIFF(BS_DIFF(EventKindControl, resetMask), flipMask); return oldValue; } /* EventInternString -- emit an Intern event on the (null-term) string given */ EventStringId EventInternString(const char *label) { AVER(label != NULL); return EventInternGenString(StringLength(label), label); } /* EventInternGenString -- emit an Intern event on the string given */ EventStringId EventInternGenString(size_t len, const char *label) { EventStringId id; AVER(label != NULL); id = EventInternSerial; ++EventInternSerial; EVENT2S(Intern, id, len, label); return id; } /* EventLabelAddr -- emit event to label address with the given id */ void EventLabelAddr(Addr addr, EventStringId id) { AVER((Serial)id < EventInternSerial); EVENT2(Label, addr, id); } /* Convert event parameter sort to WriteF arguments */ #define EVENT_WRITE_PARAM_MOST(name, index, sort, ident) \ " $"#sort, (WriteF##sort)event->name.f##index, #define EVENT_WRITE_PARAM_A EVENT_WRITE_PARAM_MOST #define EVENT_WRITE_PARAM_P EVENT_WRITE_PARAM_MOST #define EVENT_WRITE_PARAM_U EVENT_WRITE_PARAM_MOST #define EVENT_WRITE_PARAM_W EVENT_WRITE_PARAM_MOST #define EVENT_WRITE_PARAM_D EVENT_WRITE_PARAM_MOST #define EVENT_WRITE_PARAM_S EVENT_WRITE_PARAM_MOST #define EVENT_WRITE_PARAM_B(name, index, sort, ident) \ " $U", (WriteFU)event->name.f##index, Res EventDescribe(Event event, mps_lib_FILE *stream) { Res res; /* TODO: Some sort of EventCheck would be good */ if (event == NULL) return ResFAIL; if (stream == NULL) return ResFAIL; res = WriteF(stream, "Event $P {\n", (WriteFP)event, " code $U\n", (WriteFU)event->any.code, " clock ", NULL); if (res != ResOK) return res; res = EVENT_CLOCK_WRITE(stream, event->any.clock); if (res != ResOK) return res; res = WriteF(stream, "\n size $U\n", (WriteFU)event->any.size, NULL); if (res != ResOK) return res; switch (event->any.code) { #define EVENT_DESC_PARAM(name, index, sort, ident) \ "\n $S", (WriteFS)#ident, \ EVENT_WRITE_PARAM_##sort(name, index, sort, ident) #define EVENT_DESC(X, name, _code, always, kind) \ case _code: \ res = WriteF(stream, \ " event \"$S\"", (WriteFS)#name, \ EVENT_##name##_PARAMS(EVENT_DESC_PARAM, name) \ NULL); \ if (res != ResOK) return res; \ break; EVENT_LIST(EVENT_DESC, X) default: res = WriteF(stream, " event type unknown", NULL); if (res != ResOK) return res; /* TODO: Hexdump unknown event contents. */ break; } res = WriteF(stream, "\n} Event $P\n", (WriteFP)event, NULL); return res; } Res EventWrite(Event event, mps_lib_FILE *stream) { Res res; if (event == NULL) return ResFAIL; if (stream == NULL) return ResFAIL; res = EVENT_CLOCK_WRITE(stream, event->any.clock); if (res != ResOK) return res; switch (event->any.code) { #define EVENT_WRITE_PARAM(name, index, sort, ident) \ EVENT_WRITE_PARAM_##sort(name, index, sort, ident) #define EVENT_WRITE(X, name, code, always, kind) \ case code: \ res = WriteF(stream, " $S", #name, \ EVENT_##name##_PARAMS(EVENT_WRITE_PARAM, name) \ NULL); \ if (res != ResOK) return res; \ break; EVENT_LIST(EVENT_WRITE, X) default: res = WriteF(stream, " ", event->any.code, NULL); if (res != ResOK) return res; /* TODO: Hexdump unknown event contents. */ break; } return ResOK; } void EventDump(mps_lib_FILE *stream) { Event event; EventKind kind; AVER(stream != NULL); for (kind = 0; kind < EventKindLIMIT; ++kind) { for (event = (Event)EventLast[kind]; event < (Event)(EventBuffer[kind] + EventBufferSIZE); event = (Event)((char *)event + event->any.size)) { /* Try to keep going even if there's an error, because this is used as a backtrace and we'll take what we can get. */ (void)EventWrite(event, stream); (void)WriteF(stream, "\n", NULL); } } } #else /* EVENT, not */ void EventSync(void) { NOOP; } void EventInit(void) { NOOP; } void EventFinish(void) { NOOP; } EventControlSet EventControl(EventControlSet resetMask, EventControlSet flipMask) { UNUSED(resetMask); UNUSED(flipMask); return BS_EMPTY(EventControlSet); } EventStringId EventInternString(const char *label) { UNUSED(label); /* EventInternString is reached in varieties without events, but the result is not used for anything. */ return (EventStringId)0x9024EAC8; } Word EventInternGenString(size_t len, const char *label) { UNUSED(len); UNUSED(label); /* EventInternGenString is reached in varieties without events, but the result is not used for anything. */ return (EventStringId)0x9024EAC8; } void EventLabelAddr(Addr addr, Word id) { UNUSED(addr); UNUSED(id); /* EventLabelAddr is reached in varieties without events, but doesn't have to do anything. */ } Res EventDescribe(Event event, mps_lib_FILE *stream) { UNUSED(event); UNUSED(stream); return ResUNIMPL; } Res EventWrite(Event event, mps_lib_FILE *stream) { UNUSED(event); UNUSED(stream); return ResUNIMPL; } extern void EventDump(mps_lib_FILE *stream) { UNUSED(stream); } #endif /* EVENT */ /* C. COPYRIGHT AND LICENSE * * Copyright (C) 2001-2002 Ravenbrook Limited . * All rights reserved. This is an open source license. Contact * Ravenbrook for commercial licensing options. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * 3. Redistributions in any form must be accompanied by information on how * to obtain complete source code for this software and any accompanying * software that uses this software. The source code must either be * included in the distribution or be available for no more than the cost * of distribution plus a nominal fee, and must be freely redistributable * under reasonable conditions. For an executable file, complete source * code means the source code for all modules it contains. It does not * include source code for modules or files that typically accompany the * major components of the operating system on which the executable file * runs. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR * PURPOSE, OR NON-INFRINGEMENT, ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT HOLDERS AND CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */