Re: [Lynx-dev] Ot: how email size is established?
Hi, I did include ot in the subject line. Further I have sent this same file, several times in fact, without triggering this error. Yes you are correct the communication exceeds etc...even when the email itself has no text at all. If I am using the same mail client, pine, that I used when sending say 8 copies of the file, what would lead to a change? On Mon, 8 May 2023, Mouse wrote: This isn't really directly related to lynx, but many of the encoding mechanisms can be (though in my experience usually aren't) used for Web content. I am sending a file that is slightly larger than 7 meg. However I am getting a users.shellworld.net error claiming that the file exceeds the slightly above 10 meg size restriction. If it said the _file_ size exceeded a 10M limit, it was badly worded. More correctly, it would say the _message_ size exceeded a 10M limit, or perhaps the _encoded_ file size did. The 7M is probably the size on disk; the latter is probably the size of the email, including the _encoded_ file. All ways of sending non-plain-text files by email involve some kind of encoding. The commonest is probably what is called `base64', which enlarges the file by a factor of approximately four to three (ie, every three bytes of file are four bytes of email - "approximately" because there is slight additional overhead, roughly three percent, for line breaks). 7 megs times 4/2 turns into 4*(7/3) or some 9.333 megs. As for where the rest comes from, the most likely thing that occurs to me is that (a) your 7 megs is binary megs, 1048576 (2^20) bytes each, but the 10 megs is decimal megs, 100 bytes each. 7 binary megs, times 4/3, plus the end-of-line overhead, is about half a percent over 10 decimal megs: 7*1048576 is 7340032 bytes; times 4/3 gives 9786709.333... bytes, times 74/72 (the approximate end-of-line overhead: one CRLF inserted every 72 octets) is 10058562.37+ octets. The size of a megabyte is a contentious issue. As the Jargon File notes, when counting things (like bytes on disk) that naturally occur in units of powers of two, prefixes like "kilo" and "mega" naturally attract power-of-two meanings (1024, 1048576, etc). But in datacomm, they traditionally use power-of-ten meanings (1000, 100, etc). Compounding the confusion, back in the...late '80s, I think it was?, disk makers decided they were going to use the decimal meanings when labeling their disks, because it lets them label disks with artifically inflated numbers without quite lying enough to get slapped with misleading-advertising charges. (Personally, I think they still should; advertising, and in some cases devices, often says, in tiny print, things like "based on 1GB = 1 billion bytes", which seems to me like a clear admission that they _know_ they're being misleading.) There even were, I'm told (I was just getting into geekdom at the time; I wasn't buying disks), cases where the exact same device with the exact same capacity was still sold - relabeled with the bigger number. Then, further compounding the confusion, someone came up with the idiotic idea of sticking a marker into the SI prefixes to indicate binary meanings, leading to things like KiB, MiB, etc. I have no idea where this came from, unless it was initiated by disk-industry shills, since as far as I can tell nobody else seriously used decimal units to label storage. (Not even other parts of the storage industry do that; you even now see things like a "4G" stick of memory, not a "4.29G" stick of memory.) One infamous fail here is the "1.44M" floppy, which is nothing of the sort by either definition. It is 1474560 bytes, or 1.44 * 1024 * 1000; the "M" is formed by multiplying one decimal K by one binary K, leading to a unit nobody uses for anything else as far as I can tell. Perhaps fortunately, those floppies are pretty much dead anyway by now. Odd thing is that I have sent the same file previously, with no error at all. Either it wasn't quite the same file (a smaller version of the same thing, maybe) or the limit has been lowered in the meantime. what I am seeking as a short term solution is a way to understand how programs decide email size... Well, for the full details, read the MIME RFCs. But, most briefly, the message is assembled from various parts, such as the text you give it and any attachments. Each part is, potentially, encoded, though normally only attachments will be encoded in ways that enlarge them significantly. There is also some overhead, delimiting the parts and declaring their types and encodings and such, but that is small enough that, unless you have a lot of tiny attachments or the like, you can usually ignore it. /~\ The ASCII Mouse \ / Ribbon Campaign X Against HTML mo...@rodents-montreal.org / \ Email! 7D C8 61 52 5D E7 2D 39 4E F1 31 3E E8 B3 27 4B
Re: [Lynx-dev] Ot: how email size is established?
Hi Karen, > I am sending a file that is slightly larger than 7 meg. > However I am getting a users.shellworld.net error claiming that the file > exceeds the slightly above 10 meg size restriction. this is rather offtopic, but, yes, files sent by email are enlarged by four thirds because of the way they have to be encoded (this is also true for e.g. messages in mostly Asian scripts). So you can say 7.5 MiB * 4/3 = 10 MiB, plus the message itself and some metainformation, which is a couple of KiB, can already be too much. bye, //mirabilos -- 21:49⎜ I have a question guys, ⎜Can I use my PC as SMTP server, I use Windows 7 . ⎜Already googled and Installed IIS ⎜but Still I can't send E-mail
Re: [Lynx-dev] Ot: how email size is established?
This isn't really directly related to lynx, but many of the encoding mechanisms can be (though in my experience usually aren't) used for Web content. > I am sending a file that is slightly larger than 7 meg. > However I am getting a users.shellworld.net error claiming that the > file exceeds the slightly above 10 meg size restriction. If it said the _file_ size exceeded a 10M limit, it was badly worded. More correctly, it would say the _message_ size exceeded a 10M limit, or perhaps the _encoded_ file size did. The 7M is probably the size on disk; the latter is probably the size of the email, including the _encoded_ file. All ways of sending non-plain-text files by email involve some kind of encoding. The commonest is probably what is called `base64', which enlarges the file by a factor of approximately four to three (ie, every three bytes of file are four bytes of email - "approximately" because there is slight additional overhead, roughly three percent, for line breaks). 7 megs times 4/2 turns into 4*(7/3) or some 9.333 megs. As for where the rest comes from, the most likely thing that occurs to me is that (a) your 7 megs is binary megs, 1048576 (2^20) bytes each, but the 10 megs is decimal megs, 100 bytes each. 7 binary megs, times 4/3, plus the end-of-line overhead, is about half a percent over 10 decimal megs: 7*1048576 is 7340032 bytes; times 4/3 gives 9786709.333... bytes, times 74/72 (the approximate end-of-line overhead: one CRLF inserted every 72 octets) is 10058562.37+ octets. The size of a megabyte is a contentious issue. As the Jargon File notes, when counting things (like bytes on disk) that naturally occur in units of powers of two, prefixes like "kilo" and "mega" naturally attract power-of-two meanings (1024, 1048576, etc). But in datacomm, they traditionally use power-of-ten meanings (1000, 100, etc). Compounding the confusion, back in the...late '80s, I think it was?, disk makers decided they were going to use the decimal meanings when labeling their disks, because it lets them label disks with artifically inflated numbers without quite lying enough to get slapped with misleading-advertising charges. (Personally, I think they still should; advertising, and in some cases devices, often says, in tiny print, things like "based on 1GB = 1 billion bytes", which seems to me like a clear admission that they _know_ they're being misleading.) There even were, I'm told (I was just getting into geekdom at the time; I wasn't buying disks), cases where the exact same device with the exact same capacity was still sold - relabeled with the bigger number. Then, further compounding the confusion, someone came up with the idiotic idea of sticking a marker into the SI prefixes to indicate binary meanings, leading to things like KiB, MiB, etc. I have no idea where this came from, unless it was initiated by disk-industry shills, since as far as I can tell nobody else seriously used decimal units to label storage. (Not even other parts of the storage industry do that; you even now see things like a "4G" stick of memory, not a "4.29G" stick of memory.) One infamous fail here is the "1.44M" floppy, which is nothing of the sort by either definition. It is 1474560 bytes, or 1.44 * 1024 * 1000; the "M" is formed by multiplying one decimal K by one binary K, leading to a unit nobody uses for anything else as far as I can tell. Perhaps fortunately, those floppies are pretty much dead anyway by now. > Odd thing is that I have sent the same file previously, with no error > at all. Either it wasn't quite the same file (a smaller version of the same thing, maybe) or the limit has been lowered in the meantime. > what I am seeking as a short term solution is a way to understand how > programs decide email size... Well, for the full details, read the MIME RFCs. But, most briefly, the message is assembled from various parts, such as the text you give it and any attachments. Each part is, potentially, encoded, though normally only attachments will be encoded in ways that enlarge them significantly. There is also some overhead, delimiting the parts and declaring their types and encodings and such, but that is small enough that, unless you have a lot of tiny attachments or the like, you can usually ignore it. /~\ The ASCII Mouse \ / Ribbon Campaign X Against HTMLmo...@rodents-montreal.org / \ Email! 7D C8 61 52 5D E7 2D 39 4E F1 31 3E E8 B3 27 4B
[Lynx-dev] Ot: how email size is established?
Hi all, mostly asking here because of all the bright minds working in various formats. Tiny background, because of the many things I do professionally, I often need to send files, to others, to my office email, to robobraille.org so they can be converted to other formats, to staff for editing and the like. For well frankly decades this has not been an issue..until now. I am sending a file that is slightly larger than 7 meg. However I am getting a users.shellworld.net error claiming that the file exceeds the slightly above 10 meg size restriction. Odd thing is that I have sent the same file previously, with no error at all. what I am seeking as a short term solution is a way to understand how programs decide email size...even if the email itself is entirely blank, I am getting the error. No idea where 3 meg or so is coming from and cannot plan accordingly. Also cannot reach our administrator, so again seeking to discover a solution. ideas? thanks, Karen