The best thing one can do is to get PHP out of the mix as much as possible. Always the case for loading CSV, or exporting it.
In the below, I have a 26 Million row student table. I will export 200K rows of it. Granted, the column count is small in the student table. Mostly for testing other things I do with campus info for students. But you will get the idea I hope. The issue will be how long it takes for your:
... and then check if the record "passes" the filtering rules.
which naturally could occur via the db engine in theory without PHP. Without PHP should be the mantra. But that is yet to be determined. The point is, get PHP processing out of the equation. PHP is many things. An adequate partner in DB processing it is not.
select count(*) from students;
-- 26.2 million
select * from students limit 1;
| id | thing | camId |
| 1 | 1 | 14 |
drop table if exists xOnesToExport;
create table xOnesToExport
( id int not null
insert xOnesToExport (id) select id from students where id>1000000 limit 200000;
-- 200K rows, 5.1 seconds
alter table xOnesToExport ADD PRIMARY KEY(id);
-- 4.2 seconds
SELECT s.id,s.thing,s.camId INTO OUTFILE 'outStudents_20160720_0100.txt'
FIELDS TERMINATED BY ',' OPTIONALLY ENCLOSED BY '"'
LINES TERMINATED BY '\r\n'
FROM students s
join xOnesToExport x
-- 1.1 seconds
The above 1AM timestamped file with 200K rows was exported as a CSV via the join. It took 1 second.
LOAD DATA INFILE and
SELECT INTO OUTFILE are companion functions that, for one one thing, cannot be beat for speed short of raw table moves. Secondly, people rarely seem to use the latter. They are flexible too if one looks into all they can do with use cases and tricks.
For Linux, use
LINES TERMINATED BY '\n' ... I am on a Windows machine at the moment with the code blocks above. The only differences tend to be with paths to the file, and the line terminator.