# TF A module for manipulating files in the *MicroPython* environment. [TOC] ## Oveview I discovered *MicroPython* when working on the ESP8266 processor. Everything seemed very nice, except it was awkward moving files around. All the methods I could find required a back-and-forth with the programmer's desktop. This **TF** module includes functions for creating, searching, editing and making backups of local files, using only the embedded processor. The module itself is small (about 7k) and can be downloaded into the target machine. Once there, the user can invoke it by either calling functions, or using the builtin command line. For example, to make a backup, you can call ``` tf.cp('log.txt','log.2021-03-20.bak') ``` or you can use the builtin command line and ``` /$ cp m.log.bak mail.log /$ dir -rwx all 230 boot.py -rwx all 2886 m.log.bak -rwx all 2886 mail.log -rwx all 2401 main.py -rwx all 2259 main_test.py -rwx all 99182 mqtt.log -rwx all 6949 tf.py -rwx all 15 webrepl_cfg.py disk size: 392 KB disk free: 196 KB /$ cat -n -l 1000-1005 mqtt.log ====mqtt.log===== 1000 1616120701: Client mosq-d911rjWHX3Rdwcntoo disconnected. 1001 1616124181: New connection from 72.53.209.21 on port 1883. 1002 1616124181: New client connected from 72.53.209.21 as mosq-kwcmiGmZ7jlEVRecrU (c1, k60). 1003 1616124181: Client mosq-kwcmiGmZ7jlEVRecrU disconnected. 1004 1616126374: Socket error on client DVES_98843E, disconnecting. 1005 1616126425: Client DVES_83244E has exceeded timeout, disconnecting. /$ grep 24.114.80.\d+ mqtt.log 977 1616120273: New connection from 24.114.80.91 on port 1883. 980 1616120273: New client connected from 24.114.80.91 as Rutherford1616120233590 (c1, k60, u'patb'). 1046 1616142039: New connection from 24.114.80.109 on port 1883. 1049 1616142039: New client connected from 24.114.80.109 as Rutherford1616120233590 (c1, k60, u'patb'). /$ ``` The first half of the **TF** module holds the functions. These may come in handy for parsing files, making backups or searching through files. The second half contains the simple command shell. This may come in handy for testing the functions, experimenting with their functions, or if you, like me, like to play around with a live system. If you don't need the shell, just delete everything from `def _help():` downward. ## Functions These methods all belong to the **tf** module, so you would typically invoke the as members of tf: ``` import tf tf.cp('log.txt','log.bak')` ``` #### cp() ``` cp(src-filename, dest-filename) in: src-filename file to read dest-filename file to write returns: Null ``` Simply copies a source file to a destination file. Filenames may include folders or . or .. prefixes. The destination is overwritten if it exists. This function reads-&-writes one line at a time, so it can handle megabyte files. Typical speeds are 100kB/sec on an ESP8266. **NOTE** this function *only works on text files*. Line lengths of up to 4096 work fine on the ESP8266. #### cat() ``` cat(filename, first=1, last=1000000, numbers=False, title=True) in: filename file to read and display first the first line to display last the last line to display numbers whether to prepend each line with line-number + space title whether to prepend the listing with the filename return: Null ``` Displays the source file on the screen. You can specify a line range, and whether line numbers are displayed, and whether to put a *title line* on the output display. #### _dir() ``` dir(directory-name='') in: directory-name defaults to current directory return: Null ``` Displays the contents of the current working directory. Files and folders are marked; ownership is assumed to be `all` and all are assumed to be `rwx` (read+write+execute). The file size is also shown and the disk size summary is shown at the bottom. File dates are not displayed, as they all depend on the time from last reboot, and don't mean much in this environment. NOTE: the name is `_dir()` because `dir()` is a python builtin. #### grep() ``` grep(filename, pattern, numbers=False) in: filename the file to scan pattern a python regex to match numbers whether to prepend a line-number + space return: Null ``` You can search a file for a pattern, and any matching lines are displayed. Searches using ^ (start of line) work fine, but searches with $ (end-of-line) aren't currently working. ###### Examples ``` tf.grep('log.txt', '2021-03-\d\d') tf.grep('config.txt', 'user.\s=') tf.grep('config.ini', '\[\w*\]', numbers = True) ``` #### sed() ``` sed(filename, pattern, bak_ext=".bak") in: filename the file to edit pattern a sed pattern, involving one of "aidsxX" bak_ext the extension to use when creating the file backup (without the dot) return: tuple(number of lines in the input file, number of lines modified/added/deleted/matched) ``` The *sed* function is an inline file editor, based on `sed` from the Unix world. When invoked, it first renames the source file to have a `.bak` extension. That file is opened and each line of the source file is loaded in, and a regex pattern match is performed. If the line is changed/found/inserted, then the output is streamed to the new (output) file with the same name as the original; it appears to the user that the files is edited-in-place, with a .bak file created. This version of `sed` has 6 commands: * a appends a line * i inserts a line * d deletes a line or lines * s does a search and replace * x does a grep and only saves lines that match * X does a grep and only saves lines that do not match If the single-letter command is preceded by a number or number-range, then the edit operation only applies to that line(s). A number range may be separated by `-` hyphen or `,` comma. ##### Examples ``` 12aMAX_FILE_NAME=255 insert a line AFTER line 12 12iDEFAULT_DIR = "/" insert a line BEFORE line 12 43-45d delete lines 43, 44 and 45 1,20s/^#\s*/## / only in lines 1 through 20, replace lines that start with a # followed by whitespace with two-# and two-spaces....to align some comments ``` The x/X patterns are wrapped in a pair of delimiter characters, typically /, although any other character is allowed (except space). Valid X commands are: ``` x/abcd/ 10-20X/\w*\s*\d\d/ x!ratio x/y! ``` Similarly, the s patterns are wrapped in a triplet of delimiter characters, typcially / also. Valid 's' commands are ``` s/toronto/Toronto/ s/thier/their/ 10-120s/while\s(True|False)/while 1/ s@ratio\s*=\s*num/denom@ratio = num/denom if denom else 0@ ``` **Note**: The function version of sed() can have embedded space characters in the pattern; the command line version (below) requires single-quotes around patterns that have space characters. **Note**: You will need some free space on your disk, the same size as the source file, as a backup file is *always* made. To edit an 800k file, you should have 800k of free space. **Note**: The functions for * file delete (`rm, del`) * file move (`mv, move, rename`) * change/make/delete directory/folder (`chdir, mkdir, rmdir`) are not included in this list, because the `os` module already has functions that implement these directly: `os.remove(), os.rename(), os.chdir(), os.mkdir(), os.rmdir()` ## Simple Command Line By invoking `tf.main()`, you will be presented a command prompt, similar to Linux, where the prompt shows you what directory/folder you are currently in, and a '$'. From there, you can enter one of these commands: ``` cat [-n] [-l-] cp dir [] grep mkdir sed mv rm cd [] mkdir rmdir help ``` You can also use `copy`, `move`, `del`, `list` and `ls` as synonyms for `cp`, `mv`, `rm`, `cat` and `dir` . The `mv` can rename directories. For the `cat/list` command, you can enable line numbers with `-n` and you can limit the display range with `-l n-m` where `n` and `m` are decimal numbers (and n should be less than m). These are all valid uses of `cat` ``` cat -n log.txt # whole file cat -n -l223 log.txt # one line cat -l 223-239 log.txt # 17 lines cat -l244-$ log.txt # from 244 to the end ``` For `grep` and `sed`, the patterns are *MicroPython* regular explressions, from the `re` module. If a pattern has a space character in it, then the pattern must be wrapped in single-quote ' characters; patterns without an embedded space char can simply be typed. [The line parser is basically a `str.split()` unless a leading ' is detected.] To include a single quote in a quoted-pattern, you can escape it with \ . Here are some valid uses of `sed` and `grep` ```text grep #define main.c grep '^\s*#define\s+[A-Z]' main.c sed 1,100s/recieve/receive/ doc.txt sed '33-$s/it is/it\'s/' doc.txt sed '45i a new line of indented text' doc.txt ``` The **REPL** typing-history is functional, so you can use the up-arrow to recall the last 4-5 commands. Use the left-arrow and backspace to correct lines that have errors. Commands with invalid syntax return a line of information, and are ignored. Non valid commands are simply eaten and ignored. ## Limitations In its present form, the module has these limitations: * filenames are limited to 255 chars * files must be text * or have a `\n` at least every 4096 characters * `sed()` requires lines <=2048 characters, and this `sed()` won't match binary chars * search patterns involving \ escapes other than `\'` probably won't work * in the simple shell * filenames must not have spaces * patterns with spaces ***must*** be quoted * the target of `cp`and `mv` *cannot* be a simple a directory-name as in Linux; write the whole filename *w.r.t,* the current directory * the complexity of pattern matching is limited. * try to format the grep patterns so they avoid deep stack recursion. For example, '([^#]|\\#)\*' has a very generous search term as the first half, and can cause deep-stack recursion. The equivalent '(\\#|[^#]\*)' is more likely to succeed. * with sed, lines are parsed and saved one-line-at-a-time, so pattern matching to \n and \r does not work * this simple shell is different than [mpfshell](https://github.com/wendlers/mpfshell) in that this shell runs entirely on the target device. There is no allowance in this shell for transferring files in/out of the target. ## Examples Make a simple change to a source file, perhaps modify a constant. ``` [function] tf.sed('main.py','10-30s/CITY_NAME = \'Toronto\'/CITY_NAME = \'Ottawa\'/') [command line] sed '10-30s/CITY_NAME = \'Toronto\'/CITY_NAME = \'Ottawa\'/' main.py sed 10-30s/Toronto/Ottawa/ main.py ``` Remove some comments from a source file. ``` [function] tf.sed('main.py','X/^#\s*TODO:/') [command line] sed X/^#\s*TODO:/ main.py ``` Search a log file for an incident ``` [function] tf.grep('log.txt','^2021-02-12 16:\d\d',numbers=True) [command line] grep [Ee]rror log.txt grep '2021-02-12 16:\d\d' log.txt # search and keep a record cp log.txt log.details sed 'x/2021-02-12 16:\d\d` log.details ``` ## Installation ~If you need help with getting connected to your MicroPython board, there are excellent howto guides here and here~ TODO! Move the 'tf.py' file over to the target. You can use `webrepl` [command line program](https://github.com/micropython/webrepl) or the **WEBREPL** [web page](http://micropython.org/webrepl/) . If you want the command line extensions, then send over the `tf_extend.py` file as well Once the module is present in the file system of the target, you can use the **REPL** command line interface to invoke it ``` >>> import tf tf module loaded; members cp(), cat(), cd(), _dir(), grep() and sed() simple shell: cp/copy mv/move rm/del cat/list cd dir/ls mkdir rmdir grep sed help /$ ``` This is the *simple command line*. You can type `dir` to get an idea of what's already in your flash file system, and `cat` to see the contents. [You'll probably find the files `boot.py` and `webrepl_cfg.py` are already installed] ``` /$ dir -rwx all 230 boot.py -rwx all 2886 mail.log -rwx all 2401 main.py -rwx all 2259 main_test.py -rwx all 99182 mqtt.log -rwx all 98 test.py drwx all 2 test_dir -rwx all 6903 tf.py -rwx all 15 webrepl_cfg.py disk size: 392 KB disk free: 212 KB /$ cd test_dir /test_dir$ dir -rwx all 98 test.py disk size: 392 KB disk free: 212 KB /test_dir$ ``` If you don't need the *simple command line*, you can still use the methods listed at the top of this readme. Feel free to cut the `tf.py` module in half by deleting everything below the line ``` def ext_cmd(a): ``` ## Extensions I found the simple command line so useful, I added some extra non-file-related functions. These are included in the optional filr `tf_extend.py'. the available command list is extended to include ``` scan # scan and show the local AP's connect essid password # create a persistent wifi connection ifconfig # show current ip address host # do an DNS lookup freq [160 | 80] # get/set the ESP8266 frequency exec # execute a small python file free # display the heap size: used + free ``` The `tf.py` module checks to see if the `tf_extend.py` files exists, and forwards unknown commands to it. The `help` system also extends when the extension file exists. Installing the extensions module uses about 2k of flash/disk space and 2kB of heap ram. ## Performance Typical performance on an ESP8266 @80MHz, 90kB log file, 1200 lines; serial connected terminal @115200baud | operation | time | bytes/sec | | --------------------:| --------:| --------------:| | copy | 5.7 s | 16kB/s | | cat | 8.3 s | 10.8kB/s | | grep | 7.5s | 12kB/s | | sed-append | 6.4s | 14KB/s | | sed-search/replace | 8.0-8.2s | 11.0-11.25kB/s | | sed-extract 30 lines | 2.5s | 36kB/s | **Note**: The copy() time is indicative of the flash-write speed. The grep() and cat() speeds are indicative of the serial rate, as all the characters must be sent through the UART at 115kbaud=11.5kB/s. The sed-extract() is faster, because it only writes 30 lines of text to the flash. The sed-append() is constrained by having to write the entire file.