1.. SPDX-License-Identifier: GPL-2.0 2 3=================== 4System Trace Module 5=================== 6 7System Trace Module (STM) is a device described in MIPI STP specs as 8STP trace stream generator. STP (System Trace Protocol) is a trace 9protocol multiplexing data from multiple trace sources, each one of 10which is assigned a unique pair of master and channel. While some of 11these masters and channels are statically allocated to certain 12hardware trace sources, others are available to software. Software 13trace sources are usually free to pick for themselves any 14master/channel combination from this pool. 15 16On the receiving end of this STP stream (the decoder side), trace 17sources can only be identified by master/channel combination, so in 18order for the decoder to be able to make sense of the trace that 19involves multiple trace sources, it needs to be able to map those 20master/channel pairs to the trace sources that it understands. 21 22For instance, it is helpful to know that syslog messages come on 23master 7 channel 15, while arbitrary user applications can use masters 2448 to 63 and channels 0 to 127. 25 26To solve this mapping problem, stm class provides a policy management 27mechanism via configfs, that allows defining rules that map string 28identifiers to ranges of masters and channels. If these rules (policy) 29are consistent with what decoder expects, it will be able to properly 30process the trace data. 31 32This policy is a tree structure containing rules (policy_node) that 33have a name (string identifier) and a range of masters and channels 34associated with it, located in "stp-policy" subsystem directory in 35configfs. The topmost directory's name (the policy) is formatted as 36the STM device name to which this policy applies and and arbitrary 37string identifier separated by a stop. From the examle above, a rule 38may look like this:: 39 40 $ ls /config/stp-policy/dummy_stm.my-policy/user 41 channels masters 42 $ cat /config/stp-policy/dummy_stm.my-policy/user/masters 43 48 63 44 $ cat /config/stp-policy/dummy_stm.my-policy/user/channels 45 0 127 46 47which means that the master allocation pool for this rule consists of 48masters 48 through 63 and channel allocation pool has channels 0 49through 127 in it. Now, any producer (trace source) identifying itself 50with "user" identification string will be allocated a master and 51channel from within these ranges. 52 53These rules can be nested, for example, one can define a rule "dummy" 54under "user" directory from the example above and this new rule will 55be used for trace sources with the id string of "user/dummy". 56 57Trace sources have to open the stm class device's node and write their 58trace data into its file descriptor. 59 60In order to find an appropriate policy node for a given trace source, 61several mechanisms can be used. First, a trace source can explicitly 62identify itself by calling an STP_POLICY_ID_SET ioctl on the character 63device's file descriptor, providing their id string, before they write 64any data there. Secondly, if they chose not to perform the explicit 65identification (because you may not want to patch existing software 66to do this), they can just start writing the data, at which point the 67stm core will try to find a policy node with the name matching the 68task's name (e.g., "syslogd") and if one exists, it will be used. 69Thirdly, if the task name can't be found among the policy nodes, the 70catch-all entry "default" will be used, if it exists. This entry also 71needs to be created and configured by the system administrator or 72whatever tools are taking care of the policy configuration. Finally, 73if all the above steps failed, the write() to an stm file descriptor 74will return a error (EINVAL). 75 76Previously, if no policy nodes were found for a trace source, the stm 77class would silently fall back to allocating the first available 78contiguous range of master/channels from the beginning of the device's 79master/channel range. The new requirement for a policy node to exist 80will help programmers and sysadmins identify gaps in configuration 81and have better control over the un-identified sources. 82 83Some STM devices may allow direct mapping of the channel mmio regions 84to userspace for zero-copy writing. One mappable page (in terms of 85mmu) will usually contain multiple channels' mmios, so the user will 86need to allocate that many channels to themselves (via the 87aforementioned ioctl() call) to be able to do this. That is, if your 88stm device's channel mmio region is 64 bytes and hardware page size is 894096 bytes, after a successful STP_POLICY_ID_SET ioctl() call with 90width==64, you should be able to mmap() one page on this file 91descriptor and obtain direct access to an mmio region for 64 channels. 92 93Examples of STM devices are Intel(R) Trace Hub [1] and Coresight STM 94[2]. 95 96stm_source 97========== 98 99For kernel-based trace sources, there is "stm_source" device 100class. Devices of this class can be connected and disconnected to/from 101stm devices at runtime via a sysfs attribute called "stm_source_link" 102by writing the name of the desired stm device there, for example:: 103 104 $ echo dummy_stm.0 > /sys/class/stm_source/console/stm_source_link 105 106For examples on how to use stm_source interface in the kernel, refer 107to stm_console, stm_heartbeat or stm_ftrace drivers. 108 109Each stm_source device will need to assume a master and a range of 110channels, depending on how many channels it requires. These are 111allocated for the device according to the policy configuration. If 112there's a node in the root of the policy directory that matches the 113stm_source device's name (for example, "console"), this node will be 114used to allocate master and channel numbers. If there's no such policy 115node, the stm core will use the catch-all entry "default", if one 116exists. If neither policy nodes exist, the write() to stm_source_link 117will return an error. 118 119stm_console 120=========== 121 122One implementation of this interface also used in the example above is 123the "stm_console" driver, which basically provides a one-way console 124for kernel messages over an stm device. 125 126To configure the master/channel pair that will be assigned to this 127console in the STP stream, create a "console" policy entry (see the 128beginning of this text on how to do that). When initialized, it will 129consume one channel. 130 131stm_ftrace 132========== 133 134This is another "stm_source" device, once the stm_ftrace has been 135linked with an stm device, and if "function" tracer is enabled, 136function address and parent function address which Ftrace subsystem 137would store into ring buffer will be exported via the stm device at 138the same time. 139 140Currently only Ftrace "function" tracer is supported. 141 142* [1] https://software.intel.com/sites/default/files/managed/d3/3c/intel-th-developer-manual.pdf 143* [2] http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.ddi0444b/index.html 144