/**
* vim: set ts=4 sw=4 tw=99 noet:
* =============================================================================
* SourcePawn
* Copyright (C) 2004-2008 AlliedModders LLC. All rights reserved.
* =============================================================================
*
* This program is free software; you can redistribute it and/or modify it under
* the terms of the GNU General Public License, version 3.0, as published by the
* Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
* FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
* details.
*
* You should have received a copy of the GNU General Public License along with
* this program. If not, see <http://www.gnu.org/licenses/>.
*
* As a special exception, AlliedModders LLC gives you permission to link the
* code of this program (as well as its derivative works) to "Half-Life 2," the
* "Source Engine," the "SourcePawn JIT," and any Game MODs that run on software
* by the Valve Corporation. You must obey the GNU General Public License in
* all respects for all other code used. Additionally, AlliedModders LLC grants
* this exception to all derivative works. AlliedModders LLC defines further
* exceptions, found in LICENSE.txt (as of this writing, version JULY-31-2007),
* or <http://www.sourcemod.net/license.php>.
*
* Version: $Id$
*/
#include <string.h>
#include <stdarg.h>
#include <assert.h>
#include <limits.h>
#include "sp_vm_api.h"
#include "sp_vm_basecontext.h"
#include "sp_vm_engine.h"
#include "watchdog_timer.h"
#include "x86/jit_x86.h"
#include "engine2.h"
#include "interpreter.h"
using namespace SourcePawn;
#define CELLBOUNDMAX (INT_MAX/sizeof(cell_t))
#define STACKMARGIN ((cell_t)(16*sizeof(cell_t)))
BaseContext::BaseContext(BaseRuntime *pRuntime)
{
m_pRuntime = pRuntime;
m_InExec = false;
m_CustomMsg = false;
/* Initialize the null references */
uint32_t index;
if (FindPubvarByName("NULL_VECTOR", &index) == SP_ERROR_NONE)
{
sp_pubvar_t *pubvar;
GetPubvarByIndex(index, &pubvar);
m_pNullVec = pubvar->offs;
}
else
{
m_pNullVec = NULL;
}
if (FindPubvarByName("NULL_STRING", &index) == SP_ERROR_NONE)
{
sp_pubvar_t *pubvar;
GetPubvarByIndex(index, &pubvar);
m_pNullString = pubvar->offs;
}
else
{
m_pNullString = NULL;
}
m_ctx.hp = m_pRuntime->plugin()->data_size;
m_ctx.sp = m_pRuntime->plugin()->mem_size - sizeof(cell_t);
m_ctx.frm = m_ctx.sp;
m_ctx.n_err = SP_ERROR_NONE;
m_ctx.n_idx = SP_ERROR_NONE;
m_ctx.rp = 0;
g_Jit.SetupContextVars(m_pRuntime, this, &m_ctx);
}
BaseContext::~BaseContext()
{
g_Jit.FreeContextVars(&m_ctx);
}
IVirtualMachine *BaseContext::GetVirtualMachine()
{
return NULL;
}
sp_context_t *BaseContext::GetContext()
{
return reinterpret_cast<sp_context_t *>((IPluginContext * )this);
}
sp_context_t *BaseContext::GetCtx()
{
return &m_ctx;
}
bool BaseContext::IsDebugging()
{
return true;
}
int BaseContext::SetDebugBreak(void *newpfn, void *oldpfn)
{
return SP_ERROR_ABORTED;
}
IPluginDebugInfo *BaseContext::GetDebugInfo()
{
return NULL;
}
int BaseContext::Execute(uint32_t code_addr, cell_t *result)
{
return SP_ERROR_ABORTED;
}
void BaseContext::SetErrorMessage(const char *msg, va_list ap)
{
m_CustomMsg = true;
vsnprintf(m_MsgCache, sizeof(m_MsgCache), msg, ap);
}
void BaseContext::_SetErrorMessage(const char *msg, ...)
{
va_list ap;
va_start(ap, msg);
SetErrorMessage(msg, ap);
va_end(ap);
}
cell_t BaseContext::ThrowNativeErrorEx(int error, const char *msg, ...)
{
if (!m_InExec)
{
return 0;
}
m_ctx.n_err = error;
if (msg)
{
va_list ap;
va_start(ap, msg);
SetErrorMessage(msg, ap);
va_end(ap);
}
return 0;
}
cell_t BaseContext::ThrowNativeError(const char *msg, ...)
{
if (!m_InExec)
{
return 0;
}
m_ctx.n_err = SP_ERROR_NATIVE;
if (msg)
{
va_list ap;
va_start(ap, msg);
SetErrorMessage(msg, ap);
va_end(ap);
}
return 0;
}
int BaseContext::HeapAlloc(unsigned int cells, cell_t *local_addr, cell_t **phys_addr)
{
cell_t *addr;
ucell_t realmem;
#if 0
if (cells > CELLBOUNDMAX)
{
return SP_ERROR_ARAM;
}
#else
assert(cells < CELLBOUNDMAX);
#endif
realmem = cells * sizeof(cell_t);
/**
* Check if the space between the heap and stack is sufficient.
*/
if ((cell_t)(m_ctx.sp - m_ctx.hp - realmem) < STACKMARGIN)
{
return SP_ERROR_HEAPLOW;
}
addr = (cell_t *)(m_pRuntime->plugin()->memory + m_ctx.hp);
/* store size of allocation in cells */
*addr = (cell_t)cells;
addr++;
m_ctx.hp += sizeof(cell_t);
*local_addr = m_ctx.hp;
if (phys_addr)
{
*phys_addr = addr;
}
m_ctx.hp += realmem;
return SP_ERROR_NONE;
}
int BaseContext::HeapPop(cell_t local_addr)
{
cell_t cellcount;
cell_t *addr;
/* check the bounds of this address */
local_addr -= sizeof(cell_t);
if (local_addr < (cell_t)m_pRuntime->plugin()->data_size || local_addr >= m_ctx.sp)
{
return SP_ERROR_INVALID_ADDRESS;
}
addr = (cell_t *)(m_pRuntime->plugin()->memory + local_addr);
cellcount = (*addr) * sizeof(cell_t);
/* check if this memory count looks valid */
if ((signed)(m_ctx.hp - cellcount - sizeof(cell_t)) != local_addr)
{
return SP_ERROR_INVALID_ADDRESS;
}
m_ctx.hp = local_addr;
return SP_ERROR_NONE;
}
int BaseContext::HeapRelease(cell_t local_addr)
{
if (local_addr < (cell_t)m_pRuntime->plugin()->data_size)
{
return SP_ERROR_INVALID_ADDRESS;
}
m_ctx.hp = local_addr - sizeof(cell_t);
return SP_ERROR_NONE;
}
int BaseContext::FindNativeByName(const char *name, uint32_t *index)
{
return m_pRuntime->FindNativeByName(name, index);
}
int BaseContext::GetNativeByIndex(uint32_t index, sp_native_t **native)
{
return m_pRuntime->GetNativeByIndex(index, native);
}
uint32_t BaseContext::GetNativesNum()
{
return m_pRuntime->GetNativesNum();
}
int BaseContext::FindPublicByName(const char *name, uint32_t *index)
{
return m_pRuntime->FindPublicByName(name, index);
}
int BaseContext::GetPublicByIndex(uint32_t index, sp_public_t **pblic)
{
return m_pRuntime->GetPublicByIndex(index, pblic);
}
uint32_t BaseContext::GetPublicsNum()
{
return m_pRuntime->GetPublicsNum();
}
int BaseContext::GetPubvarByIndex(uint32_t index, sp_pubvar_t **pubvar)
{
return m_pRuntime->GetPubvarByIndex(index, pubvar);
}
int BaseContext::FindPubvarByName(const char *name, uint32_t *index)
{
return m_pRuntime->FindPubvarByName(name, index);
}
int BaseContext::GetPubvarAddrs(uint32_t index, cell_t *local_addr, cell_t **phys_addr)
{
return m_pRuntime->GetPubvarAddrs(index, local_addr, phys_addr);
}
uint32_t BaseContext::GetPubVarsNum()
{
return m_pRuntime->GetPubVarsNum();
}
int BaseContext::BindNatives(const sp_nativeinfo_t *natives, unsigned int num, int overwrite)
{
return SP_ERROR_ABORTED;
}
int BaseContext::BindNative(const sp_nativeinfo_t *native)
{
return SP_ERROR_ABORTED;
}
int BaseContext::BindNativeToIndex(uint32_t index, SPVM_NATIVE_FUNC func)
{
return SP_ERROR_ABORTED;
}
int BaseContext::BindNativeToAny(SPVM_NATIVE_FUNC native)
{
return SP_ERROR_ABORTED;
}
int BaseContext::LocalToPhysAddr(cell_t local_addr, cell_t **phys_addr)
{
if (((local_addr >= m_ctx.hp) && (local_addr < m_ctx.sp))
|| (local_addr < 0) || ((ucell_t)local_addr >= m_pRuntime->plugin()->mem_size))
{
return SP_ERROR_INVALID_ADDRESS;
}
if (phys_addr)
{
*phys_addr = (cell_t *)(m_pRuntime->plugin()->memory + local_addr);
}
return SP_ERROR_NONE;
}
int BaseContext::PushCell(cell_t value)
{
return SP_ERROR_ABORTED;
}
int BaseContext::PushCellsFromArray(cell_t array[], unsigned int numcells)
{
return SP_ERROR_ABORTED;
}
int BaseContext::PushCellArray(cell_t *local_addr, cell_t **phys_addr, cell_t array[], unsigned int numcells)
{
return SP_ERROR_ABORTED;
}
int BaseContext::LocalToString(cell_t local_addr, char **addr)
{
if (((local_addr >= m_ctx.hp) && (local_addr < m_ctx.sp))
|| (local_addr < 0) || ((ucell_t)local_addr >= m_pRuntime->plugin()->mem_size))
{
return SP_ERROR_INVALID_ADDRESS;
}
*addr = (char *)(m_pRuntime->plugin()->memory + local_addr);
return SP_ERROR_NONE;
}
int BaseContext::PushString(cell_t *local_addr, char **phys_addr, const char *string)
{
return SP_ERROR_ABORTED;
}
int BaseContext::StringToLocal(cell_t local_addr, size_t bytes, const char *source)
{
char *dest;
size_t len;
if (((local_addr >= m_ctx.hp) && (local_addr < m_ctx.sp))
|| (local_addr < 0) || ((ucell_t)local_addr >= m_pRuntime->plugin()->mem_size))
{
return SP_ERROR_INVALID_ADDRESS;
}
if (bytes == 0)
{
return SP_ERROR_NONE;
}
len = strlen(source);
dest = (char *)(m_pRuntime->plugin()->memory + local_addr);
if (len >= bytes)
{
len = bytes - 1;
}
memmove(dest, source, len);
dest[len] = '\0';
return SP_ERROR_NONE;
}
inline int __CheckValidChar(char *c)
{
int count;
int bytecount = 0;
for (count=1; (*c & 0xC0) == 0x80; count++)
{
c--;
}
switch (*c & 0xF0)
{
case 0xC0:
case 0xD0:
{
bytecount = 2;
break;
}
case 0xE0:
{
bytecount = 3;
break;
}
case 0xF0:
{
bytecount = 4;
break;
}
}
if (bytecount != count)
{
return count;
}
return 0;
}
int BaseContext::StringToLocalUTF8(cell_t local_addr, size_t maxbytes, const char *source, size_t *wrtnbytes)
{
char *dest;
size_t len;
bool needtocheck = false;
if (((local_addr >= m_ctx.hp) && (local_addr < m_ctx.sp))
|| (local_addr < 0)
|| ((ucell_t)local_addr >= m_pRuntime->plugin()->mem_size))
{
return SP_ERROR_INVALID_ADDRESS;
}
if (maxbytes == 0)
{
return SP_ERROR_NONE;
}
len = strlen(source);
dest = (char *)(m_pRuntime->plugin()->memory + local_addr);
if ((size_t)len >= maxbytes)
{
len = maxbytes - 1;
needtocheck = true;
}
memmove(dest, source, len);
if ((dest[len-1] & 1<<7) && needtocheck)
{
len -= __CheckValidChar(dest+len-1);
}
dest[len] = '\0';
if (wrtnbytes)
{
*wrtnbytes = len;
}
return SP_ERROR_NONE;
}
IPluginFunction *BaseContext::GetFunctionById(funcid_t func_id)
{
return m_pRuntime->GetFunctionById(func_id);
}
IPluginFunction *BaseContext::GetFunctionByName(const char *public_name)
{
return m_pRuntime->GetFunctionByName(public_name);
}
int BaseContext::LocalToStringNULL(cell_t local_addr, char **addr)
{
int err;
if ((err = LocalToString(local_addr, addr)) != SP_ERROR_NONE)
{
return err;
}
if ((cell_t *)*addr == m_pNullString)
{
*addr = NULL;
}
return SP_ERROR_NONE;
}
SourceMod::IdentityToken_t *BaseContext::GetIdentity()
{
SourceMod::IdentityToken_t *tok;
if (GetKey(1, (void **)&tok))
{
return tok;
}
return NULL;
}
cell_t *BaseContext::GetNullRef(SP_NULL_TYPE type)
{
if (type == SP_NULL_VECTOR)
{
return m_pNullVec;
}
return NULL;
}
bool BaseContext::IsInExec()
{
return m_InExec;
}
int BaseContext::Execute2(IPluginFunction *function, const cell_t *params, unsigned int num_params, cell_t *result)
{
int ir;
int serial;
cell_t *sp;
JitFunction *fn;
cell_t _ignore_result;
EnterProfileScope profileScope("SourcePawn", "EnterJIT");
if (!g_WatchdogTimer.HandleInterrupt())
return SP_ERROR_TIMEOUT;
funcid_t fnid = function->GetFunctionID();
if (!(fnid & 1))
return SP_ERROR_INVALID_ADDRESS;
unsigned public_id = fnid >> 1;
CFunction *cfun = m_pRuntime->GetPublicFunction(public_id);
if (!cfun)
return SP_ERROR_NOT_FOUND;
if (m_pRuntime->IsPaused())
return SP_ERROR_NOT_RUNNABLE;
if ((cell_t)(m_ctx.hp + 16*sizeof(cell_t)) > (cell_t)(m_ctx.sp - (sizeof(cell_t) * (num_params + 1))))
return SP_ERROR_STACKLOW;
if (result == NULL)
result = &_ignore_result;
/* We got this far. It's time to start profiling. */
EnterProfileScope scriptScope("SourcePawn", cfun->FullName());
/* See if we have to compile the callee. */
if (g_engine2.IsJitEnabled() && (fn = m_pRuntime->m_PubJitFuncs[public_id]) == NULL)
{
/* We might not have to - check pcode offset. */
fn = m_pRuntime->GetJittedFunctionByOffset(cfun->Public()->code_offs);
if (fn)
{
m_pRuntime->m_PubJitFuncs[public_id] = fn;
}
else
{
if ((fn = g_Jit.CompileFunction(m_pRuntime, cfun->Public()->code_offs, &ir)) == NULL)
{
return ir;
}
m_pRuntime->m_PubJitFuncs[public_id] = fn;
}
}
/* Save our previous state. */
bool save_exec;
uint32_t save_n_idx;
cell_t save_sp, save_hp, save_rp, save_cip;
save_sp = m_ctx.sp;
save_hp = m_ctx.hp;
save_exec = m_InExec;
save_n_idx = m_ctx.n_idx;
save_rp = m_ctx.rp;
save_cip = m_ctx.cip;
/* Push parameters */
m_ctx.sp -= sizeof(cell_t) * (num_params + 1);
sp = (cell_t *)(m_pRuntime->plugin()->memory + m_ctx.sp);
sp[0] = num_params;
for (unsigned int i = 0; i < num_params; i++)
{
sp[i + 1] = params[i];
}
/* Clear internal state */
m_ctx.n_err = SP_ERROR_NONE;
m_ctx.n_idx = 0;
m_MsgCache[0] = '\0';
m_CustomMsg = false;
m_InExec = true;
/* Start the frame tracer */
if (g_engine2.IsJitEnabled())
ir = g_Jit.InvokeFunction(m_pRuntime, fn, result);
else
ir = Interpret(m_pRuntime, cfun->Public()->code_offs, result);
/* Restore some states, stop the frame tracer */
m_InExec = save_exec;
if (ir == SP_ERROR_NONE)
{
m_ctx.n_err = SP_ERROR_NONE;
if (m_ctx.sp != save_sp)
{
ir = SP_ERROR_STACKLEAK;
_SetErrorMessage("Stack leak detected: sp:%d should be %d!",
m_ctx.sp,
save_sp);
}
if (m_ctx.hp != save_hp)
{
ir = SP_ERROR_HEAPLEAK;
_SetErrorMessage("Heap leak detected: hp:%d should be %d!",
m_ctx.hp,
save_hp);
}
if (m_ctx.rp != save_rp)
{
ir = SP_ERROR_STACKLEAK;
_SetErrorMessage("Return stack leak detected: rp:%d should be %d!",
m_ctx.rp,
save_rp);
}
}
if (ir == SP_ERROR_TIMEOUT)
g_WatchdogTimer.NotifyTimeoutReceived();
if (ir != SP_ERROR_NONE)
{
g_engine1.ReportError(m_pRuntime, ir, m_MsgCache, save_rp);
}
m_ctx.sp = save_sp;
m_ctx.hp = save_hp;
m_ctx.rp = save_rp;
m_ctx.cip = save_cip;
m_ctx.n_idx = save_n_idx;
m_ctx.n_err = SP_ERROR_NONE;
m_MsgCache[0] = '\0';
m_CustomMsg = false;
return ir;
}
IPluginRuntime *BaseContext::GetRuntime()
{
return m_pRuntime;
}
DebugInfo::DebugInfo(sp_plugin_t *plugin) : m_pPlugin(plugin)
{
}
#define USHR(x) ((unsigned int)(x)>>1)
int DebugInfo::LookupFile(ucell_t addr, const char **filename)
{
int high, low, mid;
high = m_pPlugin->debug.files_num;
low = -1;
while (high - low > 1)
{
mid = USHR(low + high);
if (m_pPlugin->debug.files[mid].addr <= addr)
{
low = mid;
} else {
high = mid;
}
}
if (low == -1)
{
return SP_ERROR_NOT_FOUND;
}
*filename = m_pPlugin->debug.stringbase + m_pPlugin->debug.files[low].name;
return SP_ERROR_NONE;
}
int DebugInfo::LookupFunction(ucell_t addr, const char **name)
{
if (!m_pPlugin->debug.unpacked)
{
uint32_t max, iter;
sp_fdbg_symbol_t *sym;
uint8_t *cursor = (uint8_t *)(m_pPlugin->debug.symbols);
max = m_pPlugin->debug.syms_num;
for (iter = 0; iter < max; iter++)
{
sym = (sp_fdbg_symbol_t *)cursor;
if (sym->ident == sp::IDENT_FUNCTION
&& sym->codestart <= addr
&& sym->codeend > addr)
{
*name = m_pPlugin->debug.stringbase + sym->name;
return SP_ERROR_NONE;
}
if (sym->dimcount > 0)
{
cursor += sizeof(sp_fdbg_symbol_t);
cursor += sizeof(sp_fdbg_arraydim_t) * sym->dimcount;
continue;
}
cursor += sizeof(sp_fdbg_symbol_t);
}
return SP_ERROR_NOT_FOUND;
}
else
{
uint32_t max, iter;
sp_u_fdbg_symbol_t *sym;
uint8_t *cursor = (uint8_t *)(m_pPlugin->debug.symbols);
max = m_pPlugin->debug.syms_num;
for (iter = 0; iter < max; iter++)
{
sym = (sp_u_fdbg_symbol_t *)cursor;
if (sym->ident == sp::IDENT_FUNCTION
&& sym->codestart <= addr
&& sym->codeend > addr)
{
*name = m_pPlugin->debug.stringbase + sym->name;
return SP_ERROR_NONE;
}
if (sym->dimcount > 0)
{
cursor += sizeof(sp_u_fdbg_symbol_t);
cursor += sizeof(sp_u_fdbg_arraydim_t) * sym->dimcount;
continue;
}
cursor += sizeof(sp_u_fdbg_symbol_t);
}
return SP_ERROR_NOT_FOUND;
}
}
int DebugInfo::LookupLine(ucell_t addr, uint32_t *line)
{
int high, low, mid;
high = m_pPlugin->debug.lines_num;
low = -1;
while (high - low > 1)
{
mid = USHR(low + high);
if (m_pPlugin->debug.lines[mid].addr <= addr)
{
low = mid;
} else {
high = mid;
}
}
if (low == -1)
{
return SP_ERROR_NOT_FOUND;
}
/* Since the CIP occurs BEFORE the line, we have to add one */
*line = m_pPlugin->debug.lines[low].line + 1;
return SP_ERROR_NONE;
}
#undef USHR
int BaseContext::GetLastNativeError()
{
return m_ctx.n_err;
}
cell_t *BaseContext::GetLocalParams()
{
return (cell_t *)(m_pRuntime->plugin()->memory + m_ctx.frm + (2 * sizeof(cell_t)));
}
void BaseContext::SetKey(int k, void *value)
{
if (k < 1 || k > 4)
{
return;
}
m_keys[k - 1] = value;
m_keys_set[k - 1] = true;
}
bool BaseContext::GetKey(int k, void **value)
{
if (k < 1 || k > 4 || m_keys_set[k - 1] == false)
{
return false;
}
*value = m_keys[k - 1];
return true;
}
void BaseContext::ClearLastNativeError()
{
m_ctx.n_err = SP_ERROR_NONE;
}