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这篇文章主要讲解了“PostgreSQL中函数StartTransaction的实现逻辑是什么”,文中的讲解内容简单清晰,易于学习与理解,下面请大家跟着小编的思路慢慢深入,一起来研究和学习“PostgreSQL中函数StartTransaction的实现逻辑是什么”吧!
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静态变量
当前事务状态CurrentTransactionState
/*
* CurrentTransactionState always points to the current transaction state
* block. It will point to TopTransactionStateData when not in a
* transaction at all, or when in a top-level transaction.
* CurrentTransactionState通常指向当前事务块.
* 如不处于事务中或者处于顶层事务中,则指向TopTransactionStateData
*/
static TransactionStateData TopTransactionStateData = {
.state = TRANS_DEFAULT,
.blockState = TBLOCK_DEFAULT,
};
/*
* unreportedXids holds XIDs of all subtransactions that have not yet been
* reported in an XLOG_XACT_ASSIGNMENT record.
* unreportedXids保存所有尚未在XLOG_XACT_ASSIGNMENT记录的子事务.
*/
static int nUnreportedXids;
static TransactionId unreportedXids[PGPROC_MAX_CACHED_SUBXIDS];
static TransactionState CurrentTransactionState = &TopTransactionStateData;
/*
* The subtransaction ID and command ID assignment counters are global
* to a whole transaction, so we do not keep them in the state stack.
* subtransaction ID和command ID全局计数器,对事务可见,在state栈中不记录这些信息.
*/
static SubTransactionId currentSubTransactionId;
static CommandId currentCommandId;
static bool currentCommandIdUsed;TransactionState
事务状态结构体
/* * transaction states - transaction state from server perspective * 事务状态枚举 - 服务器视角的事务状态 */ typedef enum TransState { TRANS_DEFAULT, /* idle 空闲 */ TRANS_START, /* transaction starting 事务启动 */ TRANS_INPROGRESS, /* inside a valid transaction 进行中 */ TRANS_COMMIT, /* commit in progress 提交中 */ TRANS_ABORT, /* abort in progress 回滚中 */ TRANS_PREPARE /* prepare in progress 准备中 */ } TransState; /* * transaction block states - transaction state of client queries * 事务块状态 - 客户端查询的事务状态 * * Note: the subtransaction states are used only for non-topmost * transactions; the others appear only in the topmost transaction. * 注意:subtransaction只用于非顶层事务;其他字段用于顶层事务. */ typedef enum TBlockState { /* not-in-transaction-block states 未进入事务块状态 */ TBLOCK_DEFAULT, /* idle 空闲 */ TBLOCK_STARTED, /* running single-query transaction 单个查询事务 */ /* transaction block states 事务块状态 */ TBLOCK_BEGIN, /* starting transaction block 开始事务块 */ TBLOCK_INPROGRESS, /* live transaction 进行中 */ TBLOCK_IMPLICIT_INPROGRESS, /* live transaction after implicit BEGIN 隐式事务,进行中 */ TBLOCK_PARALLEL_INPROGRESS, /* live transaction inside parallel worker 并行worker中的事务,进行中 */ TBLOCK_END, /* COMMIT received 接收到COMMIT */ TBLOCK_ABORT, /* failed xact, awaiting ROLLBACK 失败,等待ROLLBACK */ TBLOCK_ABORT_END, /* failed xact, ROLLBACK received 失败,已接收ROLLBACK */ TBLOCK_ABORT_PENDING, /* live xact, ROLLBACK received 进行中,接收到ROLLBACK */ TBLOCK_PREPARE, /* live xact, PREPARE received 进行中,接收到PREPARE */ /* subtransaction states 子事务状态 */ TBLOCK_SUBBEGIN, /* starting a subtransaction 开启 */ TBLOCK_SUBINPROGRESS, /* live subtransaction 进行中 */ TBLOCK_SUBRELEASE, /* RELEASE received 接收到RELEASE */ TBLOCK_SUBCOMMIT, /* COMMIT received while TBLOCK_SUBINPROGRESS 进行中,接收到COMMIT */ TBLOCK_SUBABORT, /* failed subxact, awaiting ROLLBACK 失败,等待ROLLBACK */ TBLOCK_SUBABORT_END, /* failed subxact, ROLLBACK received 失败,已接收ROLLBACK */ TBLOCK_SUBABORT_PENDING, /* live subxact, ROLLBACK received 进行中,接收到ROLLBACK */ TBLOCK_SUBRESTART, /* live subxact, ROLLBACK TO received 进行中,接收到ROLLBACK TO */ TBLOCK_SUBABORT_RESTART /* failed subxact, ROLLBACK TO received 失败,已接收ROLLBACK TO */ } TBlockState; /* * transaction state structure * 事务状态结构体 */ typedef struct TransactionStateData { //事务ID TransactionId transactionId; /* my XID, or Invalid if none */ //子事务ID SubTransactionId subTransactionId; /* my subxact ID */ //保存点名称 char *name; /* savepoint name, if any */ //保存点级别 int savepointLevel; /* savepoint level */ //低级别的事务状态 TransState state; /* low-level state */ //高级别的事务状态 TBlockState blockState; /* high-level state */ //事务嵌套深度 int nestingLevel; /* transaction nesting depth */ //GUC上下文嵌套深度 int gucNestLevel; /* GUC context nesting depth */ //事务生命周期上下文 MemoryContext curTransactionContext; /* my xact-lifetime context */ //查询资源 ResourceOwner curTransactionOwner; /* my query resources */ //按XID顺序保存的已提交的子事务ID TransactionId *childXids; /* subcommitted child XIDs, in XID order */ //childXids数组大小 int nChildXids; /* # of subcommitted child XIDs */ //分配的childXids数组空间 int maxChildXids; /* allocated size of childXids[] */ //上一个CurrentUserId Oid prevUser; /* previous CurrentUserId setting */ //上一个SecurityRestrictionContext int prevSecContext; /* previous SecurityRestrictionContext */ //上一事务是否只读? bool prevXactReadOnly; /* entry-time xact r/o state */ //是否处于Recovery? bool startedInRecovery; /* did we start in recovery? */ //XID是否已保存在WAL Record中? bool didLogXid; /* has xid been included in WAL record? */ //Enter/ExitParallelMode计数器 int parallelModeLevel; /* Enter/ExitParallelMode counter */ //父事务状态 struct TransactionStateData *parent; /* back link to parent */ } TransactionStateData; //结构体指针 typedef TransactionStateData *TransactionState;
VirtualTransactionId
VirtualTransactionIDs由执行事务的后台进程BackendId和逻辑分配的LocalTransactionId组成.
/*
* Top-level transactions are identified by VirtualTransactionIDs comprising
* the BackendId of the backend running the xact, plus a locally-assigned
* LocalTransactionId. These are guaranteed unique over the short term,
* but will be reused after a database restart; hence they should never
* be stored on disk.
* 最高层的事务通过VirtualTransactionIDs定义.
* VirtualTransactionIDs由执行事务的后台进程BackendId和逻辑分配的LocalTransactionId组成.
*
* Note that struct VirtualTransactionId can not be assumed to be atomically
* assignable as a whole. However, type LocalTransactionId is assumed to
* be atomically assignable, and the backend ID doesn't change often enough
* to be a problem, so we can fetch or assign the two fields separately.
* We deliberately refrain from using the struct within PGPROC, to prevent
* coding errors from trying to use struct assignment with it; instead use
* GET_VXID_FROM_PGPROC().
* 请注意,不能假设struct VirtualTransactionId作为一个整体是原子可分配的。
* 但是,类型LocalTransactionId是假定原子可分配的,同时后台进程ID不会经常变换,因此这不是一个问题,
* 因此我们可以单独提取或者分配这两个域字段.
*
*/
typedef struct
{
BackendId backendId; /* determined at backend startup */
LocalTransactionId localTransactionId; /* backend-local transaction id */
} VirtualTransactionId;StartTransaction函数,用于启动事务,设置事务状态为TRANS_INPROGRESS,CurrentTransactionState->state = TRANS_INPROGRESS.
/*
* StartTransaction
* 启动事务
*/
static void
StartTransaction(void)
{
TransactionState s;//事务状态
VirtualTransactionId vxid;//虚拟事务ID
/*
* Let's just make sure the state stack is empty
* 确保事务栈是空的
*/
s = &TopTransactionStateData;
CurrentTransactionState = s;
Assert(XactTopTransactionId == InvalidTransactionId);
/* check the current transaction state */
//检查当前事务状态
Assert(s->state == TRANS_DEFAULT);
/*
* Set the current transaction state information appropriately during
* start processing. Note that once the transaction status is switched
* this process cannot fail until the user ID and the security context
* flags are fetched below.
* 在启动过程中设置当前事务状态信息。
* 请注意,一旦切换了事务状态,在后续获取用户ID和安全上下文标志前,不会出现异常。
*/
s->state = TRANS_START;
//无效事务ID,待分配
s->transactionId = InvalidTransactionId; /* until assigned */
/*
* initialize current transaction state fields
* 初始化当前事务状态字段
*
* note: prevXactReadOnly is not used at the outermost level
* 注意:prevXactReadOnly不会在最外层中使用
*/
s->nestingLevel = 1;
s->gucNestLevel = 1;
s->childXids = NULL;
s->nChildXids = 0;
s->maxChildXids = 0;
/*
* Once the current user ID and the security context flags are fetched,
* both will be properly reset even if transaction startup fails.
* 一旦当前用户ID和安全上下文标记已提取,即使事务启动失败,也会正确地重置它们。
*/
GetUserIdAndSecContext(&s->prevUser, &s->prevSecContext);
/* SecurityRestrictionContext should never be set outside a transaction */
//SecurityRestrictionContext不应在事务外设置
Assert(s->prevSecContext == 0);
/*
* Make sure we've reset xact state variables
* 确保已重置了xact状态变量
*
* If recovery is still in progress, mark this transaction as read-only.
* We have lower level defences in XLogInsert and elsewhere to stop us
* from modifying data during recovery, but this gives the normal
* indication to the user that the transaction is read-only.
* 如仍处于恢复过程,标志此事务为只读.
* 在XLogInsert中和其他地方有低级别的保护机制确保在恢复过程中不会更新数据,
* 只是给用户正常的提示,说明事务只读.
*/
if (RecoveryInProgress())
{
//只读状态
s->startedInRecovery = true;
XactReadOnly = true;
}
else
{
s->startedInRecovery = false;
XactReadOnly = DefaultXactReadOnly;
}
XactDeferrable = DefaultXactDeferrable;
XactIsoLevel = DefaultXactIsoLevel;
forceSyncCommit = false;
MyXactFlags = 0;
/*
* reinitialize within-transaction counters
* 重新初始化事务内计数器
*/
s->subTransactionId = TopSubTransactionId;
currentSubTransactionId = TopSubTransactionId;
currentCommandId = FirstCommandId;
currentCommandIdUsed = false;
/*
* initialize reported xid accounting
* 初始化已报告的事务计数
*/
nUnreportedXids = 0;
s->didLogXid = false;
/*
* must initialize resource-management stuff first
* 必须首先初始化资源管理器
*/
AtStart_Memory();
AtStart_ResourceOwner();
/*
* Assign a new LocalTransactionId, and combine it with the backendId to
* form a virtual transaction id.
* 分配新的本地事务ID(LocalTransactionId),
* 与backendId组成虚拟事务ID.
*/
vxid.backendId = MyBackendId;
vxid.localTransactionId = GetNextLocalTransactionId();
/*
* Lock the virtual transaction id before we announce it in the proc array
* 在proc array声明前,锁定虚拟事务ID
*/
VirtualXactLockTableInsert(vxid);
/*
* Advertise it in the proc array. We assume assignment of
* LocalTransactionID is atomic, and the backendId should be set already.
* 在proc array中声明.
* 假定LocalTransactionID是原子的,backendId已分配.
*/
Assert(MyProc->backendId == vxid.backendId);
MyProc->lxid = vxid.localTransactionId;
TRACE_POSTGRESQL_TRANSACTION_START(vxid.localTransactionId);
/*
* set transaction_timestamp() (a/k/a now()). Normally, we want this to
* be the same as the first command's statement_timestamp(), so don't do a
* fresh GetCurrentTimestamp() call (which'd be expensive anyway). But
* for transactions started inside procedures (i.e., nonatomic SPI
* contexts), we do need to advance the timestamp. Also, in a parallel
* worker, the timestamp should already have been provided by a call to
* SetParallelStartTimestamps().
* 设置transaction_timestamp.
* 正常来说,期望该值与第一条命令的statement_timestamp一样,这样就不需要
* 调用GetCurrentTimestamp进行刷新(昂贵的操作!).
* 但对于在过程中启动的事务(如非原子的SPI上下文),我们确实需要增加时间戳.
* 同样的,在并行worker中,时间戳应通过外层调用SetParallelStartTimestamps提供.
*/
if (!IsParallelWorker())
{
if (!SPI_inside_nonatomic_context())
xactStartTimestamp = stmtStartTimestamp;
else
xactStartTimestamp = GetCurrentTimestamp();
}
else
Assert(xactStartTimestamp != 0);
pgstat_report_xact_timestamp(xactStartTimestamp);
/* Mark xactStopTimestamp as unset. */
//标记xactStopTimestamp未设置
xactStopTimestamp = 0;
/*
* initialize other subsystems for new transaction
* 为新事务初始化其他子系统(GUC/Cache等)
*/
AtStart_GUC();
AtStart_Cache();
AfterTriggerBeginXact();
/*
* done with start processing, set current transaction state to "in
* progress"
* 已完成启动过程,设置事务状态为TRANS_INPROGRESS
*/
s->state = TRANS_INPROGRESS;
ShowTransactionState("StartTransaction");
}执行begin,触发该函数调用
11:10:36 (xdb@[local]:5432)testdb=# begin;
启动gdb,设置断点
(gdb) b StartTransaction Breakpoint 4 at 0x54800f: file xact.c, line 1825. (gdb) c Continuing. Breakpoint 4, StartTransaction () at xact.c:1825 1825 s = &TopTransactionStateData; (gdb)
查看调用栈
(gdb) bt #0 StartTransaction () at xact.c:1825 #1 0x0000000000548f50 in StartTransactionCommand () at xact.c:2718 #2 0x00000000008c8e7d in start_xact_command () at postgres.c:2500 #3 0x00000000008c6771 in exec_simple_query (query_string=0x24a6ec8 "begin;") at postgres.c:948 #4 0x00000000008cae70 in PostgresMain (argc=1, argv=0x24d2dc8, dbname=0x24d2c30 "testdb", username=0x24a3ba8 "xdb") at postgres.c:4182 #5 0x000000000082642b in BackendRun (port=0x24c8c00) at postmaster.c:4361 #6 0x0000000000825b8f in BackendStartup (port=0x24c8c00) at postmaster.c:4033 #7 0x0000000000821f1c in ServerLoop () at postmaster.c:1706 #8 0x00000000008217b4 in PostmasterMain (argc=1, argv=0x24a1b60) at postmaster.c:1379 #9 0x00000000007488ef in main (argc=1, argv=0x24a1b60) at main.c:228 (gdb)
查看TopTransactionStateData全局变量(尚未初始化)
(gdb) p TopTransactionStateData
$7 = {transactionId = 0, subTransactionId = 0, name = 0x0, savepointLevel = 0, state = TRANS_DEFAULT,
blockState = TBLOCK_DEFAULT, nestingLevel = 0, gucNestLevel = 0, curTransactionContext = 0x0, curTransactionOwner = 0x0,
childXids = 0x0, nChildXids = 0, maxChildXids = 0, prevUser = 10, prevSecContext = 0, prevXactReadOnly = false,
startedInRecovery = false, didLogXid = true, parallelModeLevel = 0, parent = 0x0}设置全局变量CurrentTransactionState = & TopTransactionStateData;
(gdb) n 1826 CurrentTransactionState = s; (gdb) 1828 Assert(XactTopTransactionId == InvalidTransactionId); (gdb)
初始化事务状态
(gdb) n 1833 if (s->state != TRANS_DEFAULT) (gdb) 1841 s->state = TRANS_START; (gdb) 1842 s->transactionId = InvalidTransactionId; /* until assigned */ (gdb) 1852 if (RecoveryInProgress()) (gdb) 1859 s->startedInRecovery = false; (gdb) 1860 XactReadOnly = DefaultXactReadOnly; (gdb) 1862 XactDeferrable = DefaultXactDeferrable; (gdb) 1863 XactIsoLevel = DefaultXactIsoLevel; (gdb) 1864 forceSyncCommit = false; (gdb) 1865 MyXactFlags = 0; (gdb) 1870 s->subTransactionId = TopSubTransactionId; (gdb) 1871 currentSubTransactionId = TopSubTransactionId; (gdb) 1872 currentCommandId = FirstCommandId; (gdb) 1873 currentCommandIdUsed = false; (gdb) 1878 nUnreportedXids = 0; (gdb) 1879 s->didLogXid = false; (gdb) 1884 AtStart_Memory(); (gdb)
启动subsystem(内存/GUC/Cache等)
(gdb) 1884 AtStart_Memory(); (gdb) n 1885 AtStart_ResourceOwner(); (gdb)
设置虚拟事务ID
1891 vxid.backendId = MyBackendId;
(gdb)
1892 vxid.localTransactionId = GetNextLocalTransactionId();
(gdb)
1897 VirtualXactLockTableInsert(vxid);
(gdb)
1903 Assert(MyProc->backendId == vxid.backendId);
(gdb) p vxid
$8 = {backendId = 3, localTransactionId = 6}
(gdb)
(gdb) n
1904 MyProc->lxid = vxid.localTransactionId;
(gdb)设置时间戳
1906 TRACE_POSTGRESQL_TRANSACTION_START(vxid.localTransactionId); (gdb) 1917 if (!IsParallelWorker()) (gdb) 1919 if (!SPI_inside_nonatomic_context()) (gdb) 1920 xactStartTimestamp = stmtStartTimestamp; (gdb) 1926 pgstat_report_xact_timestamp(xactStartTimestamp); (gdb) 1928 xactStopTimestamp = 0; (gdb) (gdb) p xactStartTimestamp $9 = 601009839154257
初始化其他字段
(gdb) n
1935 s->nestingLevel = 1;
(gdb) n
1936 s->gucNestLevel = 1;
(gdb)
1937 s->childXids = NULL;
(gdb)
1938 s->nChildXids = 0;
(gdb)
1939 s->maxChildXids = 0;
(gdb)
1940 GetUserIdAndSecContext(&s->prevUser, &s->prevSecContext);
(gdb)
1942 Assert(s->prevSecContext == 0);
(gdb)
1947 AtStart_GUC();
(gdb)
1948 AtStart_Cache();
(gdb)
1949 AfterTriggerBeginXact();
(gdb)
1955 s->state = TRANS_INPROGRESS;
(gdb)
1957 ShowTransactionState("StartTransaction");
(gdb)
1958 }
(gdb)初始化后的事务状态
(gdb) p *s
$10 = {transactionId = 0, subTransactionId = 1, name = 0x0, savepointLevel = 0, state = TRANS_INPROGRESS,
blockState = TBLOCK_DEFAULT, nestingLevel = 1, gucNestLevel = 1, curTransactionContext = 0x2523850,
curTransactionOwner = 0x24d4868, childXids = 0x0, nChildXids = 0, maxChildXids = 0, prevUser = 10, prevSecContext = 0,
prevXactReadOnly = false, startedInRecovery = false, didLogXid = false, parallelModeLevel = 0, parent = 0x0}
(gdb)完成调用
(gdb) n StartTransactionCommand () at xact.c:2719 2719 s->blockState = TBLOCK_STARTED; (gdb) 2720 break; (gdb)
感谢各位的阅读,以上就是“PostgreSQL中函数StartTransaction的实现逻辑是什么”的内容了,经过本文的学习后,相信大家对PostgreSQL中函数StartTransaction的实现逻辑是什么这一问题有了更深刻的体会,具体使用情况还需要大家实践验证。这里是创新互联,小编将为大家推送更多相关知识点的文章,欢迎关注!
