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author | Patrik Nyblom <[email protected]> | 2012-03-22 18:29:34 +0100 |
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committer | Patrik Nyblom <[email protected]> | 2012-03-22 18:30:07 +0100 |
commit | 5957a8338fe1f4e79a39277174094bbd9e978896 (patch) | |
tree | 4abcf47850e2a577b401a61bb1693d85cb137ffe /erts/emulator/beam/erlang_dtrace.d | |
parent | b5f6596f49db47e6dacddb2b10292a7294e13993 (diff) | |
parent | 1e653c3539423e4cfdeab1d232483bcac0e8b073 (diff) | |
download | otp-5957a8338fe1f4e79a39277174094bbd9e978896.tar.gz otp-5957a8338fe1f4e79a39277174094bbd9e978896.tar.bz2 otp-5957a8338fe1f4e79a39277174094bbd9e978896.zip |
Merge branch 'pan/dtrace' into maint
* pan/dtrace: (22 commits)
Use distinct function-entry probes for local and global calls
Correct calculation of stack depth in call/return probes
Add probes for all kind of calls
Don't try to "clean up" generated fun names
erl_process.c: Fix probe for process exit
Remove code causing dialyzer warning from prim_file
Add documentation for dyntrace and system_info changes
Update slogan and add system_info for dynamic trace
Update README's for dtrace and systemtap
Rename dyntrace BIFs to more suiting names
If VM probes are not enabled, short-circuit calls to probe BIFs
beam_makeops: Add a simple preprocessor
Ifdef all dynamic trace code
Move dtrace erlang code and NIF into runtime_tools
Correct some errors in the user tag spreading
Change to more specific configure options for dtrace
Add user tag spreading functionality to VM and use in file
Update dtrace for changes in R15
Add DTrace support for OS X, Solaris, and Linux (via SystemTap), 4/4
Add DTrace support for OS X, Solaris, and Linux (via SystemTap), 3/4
...
OTP-10017
Diffstat (limited to 'erts/emulator/beam/erlang_dtrace.d')
-rw-r--r-- | erts/emulator/beam/erlang_dtrace.d | 726 |
1 files changed, 726 insertions, 0 deletions
diff --git a/erts/emulator/beam/erlang_dtrace.d b/erts/emulator/beam/erlang_dtrace.d new file mode 100644 index 0000000000..587e51cb67 --- /dev/null +++ b/erts/emulator/beam/erlang_dtrace.d @@ -0,0 +1,726 @@ +/* + * %CopyrightBegin% + * + * Copyright Dustin Sallings, Michal Ptaszek, Scott Lystig Fritchie 2011. + * All Rights Reserved. + * + * The contents of this file are subject to the Erlang Public License, + * Version 1.1, (the "License"); you may not use this file except in + * compliance with the License. You should have received a copy of the + * Erlang Public License along with this software. If not, it can be + * retrieved online at http://www.erlang.org/. + * + * Software distributed under the License is distributed on an "AS IS" + * basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See + * the License for the specific language governing rights and limitations + * under the License. + * + * %CopyrightEnd% + */ + +/* + * A note on probe naming: if "__" appears in a provider probe + * definition, then two things happen during compilation: + * + * 1. The "__" will turn into a hypen, "-", for the probe name. + * 2. The "__" will turn into a single underscore, "_", for the + * macro names and function definitions that the compiler and + * C developers will see. + * + * We'll try to use the following naming convention. We're a bit + * limited because, as a USDT probe, we can only specify the 4th part + * of the probe name, e.g. erlang*:::mumble. The 2nd part of the + * probe name is always going to be "beam" or "beam.smp", and the 3rd + * part of the probe name will always be the name of the function + * that's calling the probe. + * + * So, all probes will be have names defined in this file using the + * convention category__name or category__sub_category__name. This + * will translate to probe names of category-name or + * category-sub_category-name. + * + * Each of "category", "sub_category", and "name" may have underscores + * but may not have hyphens. + */ + +provider erlang { + /** + * Fired when a message is sent from one local process to another. + * + * NOTE: The 'size' parameter is in machine-dependent words and + * that the actual size of any binary terms in the message + * are not included. + * + * @param sender the PID (string form) of the sender + * @param receiver the PID (string form) of the receiver + * @param size the size of the message being delivered (words) + * @param token_label for the sender's sequential trace token + * @param token_previous count for the sender's sequential trace token + * @param token_current count for the sender's sequential trace token + */ + probe message__send(char *sender, char *receiver, uint32_t size, + int token_label, int token_previous, int token_current); + + /** + * Fired when a message is sent from a local process to a remote process. + * + * NOTE: The 'size' parameter is in machine-dependent words and + * that the actual size of any binary terms in the message + * are not included. + * + * @param sender the PID (string form) of the sender + * @param node_name the Erlang node name (string form) of the receiver + * @param receiver the PID/name (string form) of the receiver + * @param size the size of the message being delivered (words) + * @param token_label for the sender's sequential trace token + * @param token_previous count for the sender's sequential trace token + * @param token_current count for the sender's sequential trace token + */ + probe message__send__remote(char *sender, char *node_name, char *receiver, + uint32_t size, + int token_label, int token_previous, int token_current); + + /** + * Fired when a message is queued to a local process. This probe + * will not fire if the sender's pid == receiver's pid. + * + * NOTE: The 'size' parameter is in machine-dependent words and + * that the actual size of any binary terms in the message + * are not included. + * + * NOTE: In cases of messages in external format (i.e. from another + * Erlang node), we probably don't know the message size + * without performing substantial extra computation. To + * avoid the extra CPU overhead, the message size may be + * reported as -1, which can appear to a D script as 4294967295. + * + * @param receiver the PID (string form) of the receiver + * @param size the size of the message being delivered (words) + * @param queue_len length of the queue of the receiving process + * @param token_label for the sender's sequential trace token + * @param token_previous count for the sender's sequential trace token + * @param token_current count for the sender's sequential trace token + */ + probe message__queued(char *receiver, uint32_t size, uint32_t queue_len, + int token_label, int token_previous, int token_current); + + /** + * Fired when a message is 'receive'd by a local process and removed + * from its mailbox. + * + * NOTE: The 'size' parameter is in machine-dependent words and + * that the actual size of any binary terms in the message + * are not included. + * + * NOTE: In cases of messages in external format (i.e. from another + * Erlang node), we probably don't know the message size + * without performing substantial extra computation. To + * avoid the extra CPU overhead, the message size may be + * reported as -1, which can appear to a D script as 4294967295. + * + * @param receiver the PID (string form) of the receiver + * @param size the size of the message being delivered (words) + * @param queue_len length of the queue of the receiving process + * @param token_label for the sender's sequential trace token + * @param token_previous count for the sender's sequential trace token + * @param token_current count for the sender's sequential trace token + */ + probe message__receive(char *receiver, uint32_t size, uint32_t queue_len, + int token_label, int token_previous, int token_current); + + /** + * Fired when an Eterm structure is being copied. + * + * NOTE: Due to the placement of this probe, the process ID of + * owner of the Eterm is not available. + * + * @param size the size of the structure + */ + probe copy__struct(uint32_t size); + + /** + * Fired when an Eterm is being copied onto a process. + * + * @param proc the PID (string form) of the recipient process + * @param size the size of the structure + */ + probe copy__object(char *proc, uint32_t size); + + /* PID, Module, Function, Arity */ + + /** + * Fired whenever a user function is being called locally. + * + * @param p the PID (string form) of the process + * @param mfa the m:f/a of the function + * @param depth the stack depth + */ + probe local__function__entry(char *p, char *mfa, int depth); + + /** + * Fired whenever a user function is called externally + * (through an export entry). + * + * @param p the PID (string form) of the process + * @param mfa the m:f/a of the function + * @param depth the stack depth + */ + probe global__function__entry(char *p, char *mfa, int depth); + + /** + * Fired whenever a user function returns. + * + * @param p the PID (string form) of the process + * @param mfa the m:f/a of the function + * @param depth the stack depth + */ + probe function__return(char *p, char *mfa, int depth); + + /** + * Fired whenever a Built In Function is called. + * + * @param p the PID (string form) of the process + * @param mfa the m:f/a of the function + */ + probe bif__entry(char *p, char *mfa); + + /** + * Fired whenever a Built In Function returns. + * + * @param p the PID (string form) of the process + * @param mfa the m:f/a of the function + */ + probe bif__return(char *p, char *mfa); + + /** + * Fired whenever a Native Function is called. + * + * @param p the PID (string form) of the process + * @param mfa the m:f/a of the function + */ + probe nif__entry(char *p, char *mfa); + + /** + * Fired whenever a Native Function returns. + * + * @param p the PID (string form) of the process + * @param mfa the m:f/a of the function + */ + probe nif__return(char *p, char *mfa); + + /** + * Fired when a major GC is starting. + * + * @param p the PID (string form) of the exiting process + * @param need the number of words needed on the heap + */ + probe gc_major__start(char *p, int need); + + /** + * Fired when a minor GC is starting. + * + * @param p the PID (string form) of the exiting process + * @param need the number of words needed on the heap + */ + probe gc_minor__start(char *p, int need); + + /** + * Fired when a major GC is starting. + * + * @param p the PID (string form) of the exiting process + * @param reclaimed the amount of space reclaimed + */ + probe gc_major__end(char *p, int reclaimed); + + /** + * Fired when a minor GC is starting. + * + * @param p the PID (string form) of the exiting process + * @param reclaimed the amount of space reclaimed + */ + probe gc_minor__end(char *p, int reclaimed); + + /** + * Fired when a process is spawned. + * + * @param p the PID (string form) of the new process. + * @param mfa the m:f/a of the function + */ + probe process__spawn(char *p, char *mfa); + + /** + * Fired when a process is exiting. + * + * @param p the PID (string form) of the exiting process + * @param reason the reason for the exit (may be truncated) + */ + probe process__exit(char *p, char *reason); + + /** + * Fired when exit signal is delivered to a local process. + * + * @param sender the PID (string form) of the exiting process + * @param receiver the PID (string form) of the process receiving EXIT signal + * @param reason the reason for the exit (may be truncated) + */ + probe process__exit_signal(char *sender, char *receiver, char *reason); + + /** + * Fired when exit signal is delivered to a remote process. + * + * @param sender the PID (string form) of the exiting process + * @param node_name the Erlang node name (string form) of the receiver + * @param receiver the PID (string form) of the process receiving EXIT signal + * @param reason the reason for the exit (may be truncated) + * @param token_label for the sender's sequential trace token + * @param token_previous count for the sender's sequential trace token + * @param token_current count for the sender's sequential trace token + */ + probe process__exit_signal__remote(char *sender, char *node_name, + char *receiver, char *reason, + int token_label, int token_previous, int token_current); + + /** + * Fired when a process is scheduled. + * + * @param p the PID (string form) of the newly scheduled process + * @param mfa the m:f/a of the function it should run next + */ + probe process__scheduled(char *p, char *mfa); + + /** + * Fired when a process is unscheduled. + * + * @param p the PID (string form) of the process that has been + * unscheduled. + */ + probe process__unscheduled(char *p); + + /** + * Fired when a process goes into hibernation. + * + * @param p the PID (string form) of the process entering hibernation + * @param mfa the m:f/a of the location to resume + */ + probe process__hibernate(char *p, char *mfa); + + /** + * Fired when a process is unblocked after a port has been unblocked. + * + * @param p the PID (string form) of the process that has been + * unscheduled. + * @param port the port that is no longer busy (i.e., is now unblocked) + */ + probe process__port_unblocked(char *p, char *port); + + /** + * Fired when process' heap is growing. + * + * @param p the PID (string form) + * @param old_size the size of the old heap + * @param new_size the size of the new heap + */ + probe process__heap_grow(char *p, int old_size, int new_size); + + /** + * Fired when process' heap is shrinking. + * + * @param p the PID (string form) + * @param old_size the size of the old heap + * @param new_size the size of the new heap + */ + probe process__heap_shrink(char *p, int old_size, int new_size); + + /* network distribution */ + + /** + * Fired when network distribution event monitor events are triggered. + * + * @param node the name of the reporting node + * @param what the type of event, e.g., nodeup, nodedown + * @param monitored_node the name of the monitored node + * @param type the type of node, e.g., visible, hidden + * @param reason the reason term, e.g., normal, connection_closed, term() + */ + probe dist__monitor(char *node, char *what, char *monitored_node, + char *type, char *reason); + + /** + * Fired when network distribution port is busy (i.e. blocked), + * usually due to the remote node not consuming distribution + * data quickly enough. + * + * @param node the name of the reporting node + * @param port the port ID of the busy port + * @param remote_node the name of the remote node. + * @param pid the PID (string form) of the local process that has + * become unschedulable until the port becomes unblocked. + */ + probe dist__port_busy(char *node, char *port, char *remote_node, + char *pid); + + /** + * Fired when network distribution's driver's "output" callback is called + * + * @param node the name of the reporting node + * @param port the port ID of the busy port + * @param remote_node the name of the remote node. + * @param bytes the number of bytes written + */ + probe dist__output(char *node, char *port, char *remote_node, int bytes); + + /** + * Fired when network distribution's driver's "outputv" callback is called + * + * @param node the name of the reporting node + * @param port the port ID of the busy port + * @param remote_node the name of the remote node. + * @param bytes the number of bytes written + */ + probe dist__outputv(char *node, char *port, char *remote_node, int bytes); + + /** + * Fired when network distribution port is no longer busy (i.e. blocked). + * + * NOTE: This probe may fire multiple times after the same single + * dist-port_busy probe firing. + * + * @param node the name of the reporting node + * @param port the port ID of the busy port + * @param remote_node the name of the remote node. + */ + probe dist__port_not_busy(char *node, char *port, char *remote_node); + + /* ports */ + + /** + * Fired when new port is opened. + * + * @param process the PID (string form) + * @param port_name the string used when the port was opened + * @param port the Port (string form) of the new port + */ + probe port__open(char *process, char *port_name, char *port); + + /** + * Fired when port_command is issued. + * + * @param process the PID (string form) + * @param port the Port (string form) + * @param port_name the string used when the port was opened + * @param command_type type of the issued command, one of: "close", "command" or "connect" + */ + probe port__command(char *process, char *port, char *port_name, char *command_type); + + /** + * Fired when port_control is issued. + * + * @param process the PID (string form) + * @param port the Port (string form) + * @param port_name the string used when the port was opened + * @param command_no command number that has been issued to the port + */ + probe port__control(char *process, char *port, char *port_name, int command_no); + + /** + * Fired when port is closed via port_close/1 (reason = 'normal') + * or is sent an exit signal. + * + * @param process the PID (string form) + * @param port the Port (string form) + * @param port_name the string used when the port was opened + * @param reason Erlang term representing the exit signal, e.g. 'normal' + */ + probe port__exit(char *process, char *port, char *port_name, + char *new_process); + + /** + * Fired when port_connect is issued. + * + * @param process the PID (string form) of the current port owner + * @param port the Port (string form) + * @param port_name the string used when the port was opened + * @param new_process the PID (string form) of the new port owner + */ + probe port__connect(char *process, char *port, char *port_name, + char *new_process); + + /** + * Fired when a port is busy (i.e. blocked) + * + * @param port the port ID of the busy port + */ + probe port__busy(char *port); + + /** + * Fired when a port is no longer busy (i.e. no longer blocked) + * + * @param port the port ID of the not busy port + */ + probe port__not_busy(char *port); + + /* drivers */ + + /** + * Fired when drivers's "init" callback is called. + * + * @param name the name of the driver + * @param major the major version number + * @param minor the minor version number + * @param flags the flags argument + */ + probe driver__init(char *name, int major, int minor, int flags); + + /** + * Fired when drivers's "start" callback is called. + * + * @param process the PID (string form) of the calling process + * @param name the name of the driver + * @param port the Port (string form) of the driver's port + */ + probe driver__start(char *process, char *name, char *port); + + /** + * Fired when drivers's "stop" callback is called. + * + * @param process the PID (string form) of the calling process + * @param name the name of the driver + * @param port the Port (string form) of the driver's port + */ + probe driver__stop(char *process, char *name, char *port); + + /** + * Fired when drivers's "finish" callback is called. + * + * @param name the name of the driver + */ + probe driver__finish(char *name); + + /** + * Fired when drivers's "flush" callback is called. + * + * @param process the PID (string form) + * @param port the Port (string form) + * @param port_name the string used when the port was opened + */ + probe driver__flush(char *process, char *port, char *port_name); + + /** + * Fired when driver's "output" callback is called + * + * @param process the PID (string form) + * @param port the Port (string form) + * @param port_name the string used when the port was opened + * @param bytes the number of bytes written + */ + probe driver__output(char *node, char *port, char *port_name, int bytes); + + /** + * Fired when driver's "outputv" callback is called + * + * @param process the PID (string form) + * @param port the Port (string form) + * @param port_name the string used when the port was opened + * @param bytes the number of bytes written + */ + probe driver__outputv(char *node, char *port, char *port_name, int bytes); + + /** + * Fired when driver's "control" callback is called + * + * @param process the PID (string form) + * @param port the Port (string form) + * @param port_name the string used when the port was opened + * @param command the command # + * @param bytes the number of bytes written + */ + probe driver__control(char *node, char *port, char *port_name, + int command, int bytes); + + /** + * Fired when driver's "call" callback is called + * + * @param process the PID (string form) + * @param port the Port (string form) + * @param port_name the string used when the port was opened + * @param command the command # + * @param bytes the number of bytes written + */ + probe driver__call(char *node, char *port, char *port_name, + int command, int bytes); + + /** + * Fired when driver's "event" callback is called + * + * @param process the PID (string form) + * @param port the Port (string form) + * @param port_name the string used when the port was opened + */ + probe driver__event(char *node, char *port, char *port_name); + + /** + * Fired when driver's "ready_input" callback is called + * + * @param process the PID (string form) + * @param port the Port (string form) + * @param port_name the string used when the port was opened + */ + probe driver__ready_input(char *node, char *port, char *port_name); + + /** + * Fired when driver's "read_output" callback is called + * + * @param process the PID (string form) + * @param port the Port (string form) + * @param port_name the string used when the port was opened + */ + probe driver__ready_output(char *node, char *port, char *port_name); + + /** + * Fired when driver's "timeout" callback is called + * + * @param process the PID (string form) + * @param port the Port (string form) + * @param port_name the string used when the port was opened + */ + probe driver__timeout(char *node, char *port, char *port_name); + + /** + * Fired when drivers's "ready_async" callback is called. + * + * @param process the PID (string form) + * @param port the Port (string form) + * @param port_name the string used when the port was opened + */ + probe driver__ready_async(char *process, char *port, char *port_name); + + /** + * Fired when driver's "process_exit" callback is called + * + * @param process the PID (string form) + * @param port the Port (string form) + * @param port_name the string used when the port was opened + */ + probe driver__process_exit(char *node, char *port, char *port_name); + + /** + * Fired when driver's "stop_select" callback is called + * + * @param name the name of the driver + */ + probe driver__stop_select(char *name); + + + /* Async driver pool */ + + /** + * Show the post-add length of the async driver thread pool member's queue. + * + * NOTE: The port name is not available: additional lock(s) must + * be acquired in order to get the port name safely in an SMP + * environment. The same is true for the aio__pool_get probe. + * + * @param port the Port (string form) + * @param new queue length + */ + probe aio_pool__add(char *, int); + + /** + * Show the post-get length of the async driver thread pool member's queue. + * + * @param port the Port (string form) + * @param new queue length + */ + probe aio_pool__get(char *, int); + + /* Probes for efile_drv.c */ + + /** + * Entry into the efile_drv.c file I/O driver + * + * For a list of command numbers used by this driver, see the section + * "Guide to probe arguments" in ../../../README.md. That section + * also contains explanation of the various integer and string + * arguments that may be present when any particular probe fires. + * + * NOTE: Not all Linux platforms (using SystemTap) can support + * arguments beyond arg9. + * + * + * TODO: Adding the port string, args[10], is a pain. Making that + * port string available to all the other efile_drv.c probes + * will be more pain. Is the pain worth it? If yes, then + * add them everywhere else and grit our teeth. If no, then + * rip it out. + * + * @param thread-id number of the scheduler Pthread arg0 + * @param tag number: {thread-id, tag} uniquely names a driver operation + * @param user-tag string arg2 + * @param command number arg3 + * @param string argument 1 arg4 + * @param string argument 2 arg5 + * @param integer argument 1 arg6 + * @param integer argument 2 arg7 + * @param integer argument 3 arg8 + * @param integer argument 4 arg9 + * @param port the port ID of the busy port args[10] + */ + probe efile_drv__entry(int, int, char *, int, char *, char *, + int64_t, int64_t, int64_t, int64_t, char *); + + /** + * Entry into the driver's internal work function. Computation here + * is performed by a async worker pool Pthread. + * + * @param thread-id number + * @param tag number + * @param command number + */ + probe efile_drv__int_entry(int, int, int); + + /** + * Return from the driver's internal work function. + * + * @param thread-id number + * @param tag number + * @param command number + */ + probe efile_drv__int_return(int, int, int); + + /** + * Return from the efile_drv.c file I/O driver + * + * @param thread-id number arg0 + * @param tag number arg1 + * @param user-tag string arg2 + * @param command number arg3 + * @param Success? 1 is success, 0 is failure arg4 + * @param If failure, the errno of the error. arg5 + */ + probe efile_drv__return(int, int, char *, int, int, int); + +/* + * NOTE: + * For formatting int64_t arguments within a D script, see: + * + * http://mail.opensolaris.org/pipermail/dtrace-discuss/2006-November/002830.html + * Summary: + * "1) you don't need the 'l' printf() modifiers with DTrace ever" + */ + +/* + * NOTE: For file_drv_return + SMP + R14B03 (and perhaps other + * releases), the sched-thread-id will be the same as the + * work-thread-id: erl_async.c's async_main() function + * will call the asynchronous invoke function and then + * immediately call the drivers ready_async function while + * inside the same I/O worker pool thread. + * For R14B03's source, see erl_async.c lines 302-317. + */ +}; + +#pragma D attributes Evolving/Evolving/Common provider erlang provider +#pragma D attributes Private/Private/Common provider erlang module +#pragma D attributes Private/Private/Common provider erlang function +#pragma D attributes Evolving/Evolving/Common provider erlang name +#pragma D attributes Evolving/Evolving/Common provider erlang args |