From owner-freebsd-i386@FreeBSD.ORG Mon Jan 27 01:50:02 2014 Return-Path: Delivered-To: freebsd-i386@smarthost.ysv.freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [IPv6:2001:1900:2254:206a::19:1]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id F1FF6928 for ; Mon, 27 Jan 2014 01:50:01 +0000 (UTC) Received: from freefall.freebsd.org (freefall.freebsd.org [IPv6:2001:1900:2254:206c::16:87]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id B6D51112D for ; Mon, 27 Jan 2014 01:50:01 +0000 (UTC) Received: from freefall.freebsd.org (localhost [127.0.0.1]) by freefall.freebsd.org (8.14.7/8.14.7) with ESMTP id s0R1o1DA072685 for ; Mon, 27 Jan 2014 01:50:01 GMT (envelope-from gnats@freefall.freebsd.org) Received: (from gnats@localhost) by freefall.freebsd.org (8.14.7/8.14.7/Submit) id s0R1o1QC072684; Mon, 27 Jan 2014 01:50:01 GMT (envelope-from gnats) Resent-Date: Mon, 27 Jan 2014 01:50:01 GMT Resent-Message-Id: <201401270150.s0R1o1QC072684@freefall.freebsd.org> Resent-From: FreeBSD-gnats-submit@FreeBSD.org (GNATS Filer) Resent-To: freebsd-i386@FreeBSD.org Resent-Reply-To: FreeBSD-gnats-submit@FreeBSD.org, julie Received: from mx1.freebsd.org (mx1.freebsd.org [8.8.178.115]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id 2C438909 for ; Mon, 27 Jan 2014 01:47:16 +0000 (UTC) Received: from oldred.freebsd.org (oldred.freebsd.org [IPv6:2001:1900:2254:206a::50:4]) (using TLSv1 with cipher DHE-RSA-AES256-SHA (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id 14EC8111A for ; Mon, 27 Jan 2014 01:47:16 +0000 (UTC) Received: from oldred.freebsd.org ([127.0.1.6]) by oldred.freebsd.org (8.14.5/8.14.7) with ESMTP id s0R1lFNa079400 for ; Mon, 27 Jan 2014 01:47:15 GMT (envelope-from nobody@oldred.freebsd.org) Received: (from nobody@localhost) by oldred.freebsd.org (8.14.5/8.14.5/Submit) id s0R1lFKk079387; Mon, 27 Jan 2014 01:47:15 GMT (envelope-from nobody) Message-Id: <201401270147.s0R1lFKk079387@oldred.freebsd.org> Date: Mon, 27 Jan 2014 01:47:15 GMT From: julie To: freebsd-gnats-submit@FreeBSD.org X-Send-Pr-Version: www-3.1 Subject: i386/186153: I386 LINKING 86 RADIOACTIVE NUMBER AND 386 READING RADIOACTIVE WASTE X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 Precedence: list List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Mon, 27 Jan 2014 01:50:02 -0000 >Number: 186153 >Category: i386 >Synopsis: I386 LINKING 86 RADIOACTIVE NUMBER AND 386 READING RADIOACTIVE WASTE >Confidential: no >Severity: non-critical >Priority: low >Responsible: freebsd-i386 >State: open >Quarter: >Keywords: >Date-Required: >Class: sw-bug >Submitter-Id: current-users >Arrival-Date: Mon Jan 27 01:50:01 UTC 2014 >Closed-Date: >Last-Modified: >Originator: julie >Release: note fini file on the computer where i live >Organization: >Environment: I FOUND A FINI FILE AND I386.NOTE THOUGH 386 IS RADIOACTIVE WASTE. NOTE 86 IS ALSO A NUMBER FOR RADON. SEE INFO RE JOBS AND WORD COOK. NOTE THE COMPUTER MAY HAVE READ JOBS RE COOKING AVAILABLE - SEE SITE BELOW AND NOTE STEVE JOBS AND MAC COMPUTERS. NOTE 86 IS RADON. NOTE DRAGON AND RADON IN THE LETTERS. NOTE A DRAGON LAKE IN QUESNEL BUT ALSO SAYING DRAGON LADY AND IT LINKING IN THE SYTEM TO FEMALES. NOTE PAL IS A DOG FOOD BRAND. NOTE IT HAS THE SAME LETTERS AS LAP AND NOTE LAP TOP COMPUTERS. NOTE PAL MAY ALSO READ PICK A LADY. NOTE BRIDE OF RED DRAGON IN BIBLE. NOTE AGAIN IT MIGHT LINK RADON TO FEMALES IDENTITIES RE THE COMPUTER READING RADON IN DRAGON AND BRIDE OF RED DRAGON. REGARDS, JULIE I LIVE AT 1010 SPERLING ST , BURNABY B.C. NOTE I HAVE HAD TO PUT UP WITH PULSAR BEAMS, CHAKRA FREQUENCIES, BEAMS AIMED AT MY COLON AREA. NOTE: SYMBOL BETWEEN HOURS AND MINUTES ON MICROWAVE OVENS IS : AND : ALSO = COLON AND ALSO ON COMPUTER TIME. NOTE INFO RE BRAIN MACHINE INTERFACES AND TRANSMITTERS. >Description: Message Object ( [recipient:protected] => webmaster@rcmp-grc.gc.ca [recipientName:protected] => Royal Canadian Mounted Police [sender:protected] => kj987654321@hotmail.ca [senderName:protected] => julie julie [subject:protected] => RCMP Web Comment [content:protected] => PCCLONES,fini Jan 26,2014, i386, 86=RADON,DRAGON HAS RADON IN LETTERS, NOTE BRIDE OF RED DRAGON & ALSO DRAGON LAKE IN QUESNEL.‏ k j 5:28 PM To: help@accessprobono.ca From: kj987654321@hotmail.ca Sent: January-26-14 5:28:18 PM To: help@accessprobono.ca From: kj987654321@hotmail.ca To: help@accessprobono.ca Subject: fini Jan 26,2014, i386, 86=RADON,DRAGON HAS RADON IN LETTERS, NOTE BRIDE OF RED DRAGON & ALSO DRAGON LAKE IN QUESNEL. Date: Sun, 26 Jan 2014 17:25:01 -0800 Note it says out of box experience C:\WINDOWS\ServicePackFiles\i386\fini.htm Intel 80386 - Wikipedia, the free encyclopedia en.wikipedia.org/wiki/Intel_80386‎ The Intel 80386 ("eighty-three-eighty-six"), also known as the Intel386, i386, or just 386 ("three-eighty-six"), was a 32-bit microprocessor introduced by Intel in ... ‎Intel 80486 - ‎Intel 80286 - ‎Intel 80386EX Difference between the i386 download and the amd64? - Ask Ubuntu askubuntu.com/.../difference-between-the-i386-download-and-the-amd6...‎ Jul 23, 2011 - i386 refers to the 32-bit edition of windows and amd64 (or x86_64) refers to ... The Intel 80386, also known as the i386, or just 386, was a 32-bit ... NOTE MIRROR RE CentOS6/ison/i386 BELOW RE i386. I NOTED THAT AT 4.51PM JAN 26,2014. NOTE INFO RE NUMBER 3 AND MIRROR ALTERING IT TO A NUMBER 7 (ANGLED WRITTEN 3?) ON GOOGLE SEARCH. NOTE EARLIER EMAIL SHOWING THAT INFO ON GOOGLE SEARCH. NOTE HOME AND NUMBER 7 ON COMPUTER KEYBOARD. NOTE PRIYANKA (HYLAND SHELTER STAFF) SAYING HER NAME MEANS MIRROR. NOTE OPERA AND NUMBER BELOW NOTE FINI IS A FILE ON THIS COMPUTER AND NOTE i386 IN ABOVE ADDRESS i386 - CentOS Mirror mirror.centos.org/centos/6/isos/i386/‎ In order to conserve the limited bandwidth available .iso images are not downloadable from mirror.centos.org. The following mirrors should have the ISO images ... i386 - Debian www.debian.org/ports/i386/‎ Dec 8, 2013 - Debian GNU/Linux on x86 Machines. Being the architecture with the largest number of developers, and the first one supported by Debian, most ... OpenBSD/i386 www.openbsd.org/i386.html‎ 200+ items - OpenBSD/i386 runs on the standard PC's and clones, with a ... Installation with other operating systems Getting and installing OpenBSD/i386 NetBSD/i386 www.netbsd.org/ports/i386/‎ NetBSD/i386 is the port of NetBSD to generic machines ("PC clones") with 32-bit x86-family processors. It runs on PCI-Express, PCI, and CardBus systems, ... FreeBSD/i386 Project - The FreeBSD Project www.freebsd.org/platforms/i386.html‎ This page contains information about the FreeBSD/i386 platform. This architecture supports the largest variety of CPUs since most home users purchase these ... Linux i386 - Opera Web Browser | Faster & safer | Download the ... www.opera.com/download/guide/?os=linux-i386&list=all‎ Operating system. Linux i386. Please select your preferred version. Opera. Opera 12.16 · Opera 12.15 · Opera 12.14 · Opera 12.13 · Opera 12.12 · Opera 12.11 ... i386 - DistroWatch.com: Put the fun back into computing. Use Linux ... distrowatch.com/search.php?architecture=i386‎ It is also based indirectly on William Jolitz's port of U.C. Berkeley's "Net/2" to the i386, known as "386BSD", though very little of the 386BSD code remains. James Dumay (i386) on Twitter https://twitter.com/i386‎ The latest from James Dumay (@i386). I am a product manager at Atlassian for Bamboo. I crave to build useful and exciting tools and my opinions are my own ... Searches related to i386 i386 folder download i386 folder windows xp i386 download i386 vs amd64 amd64 i686 ubunt Note win ini appeared during virus scan of fini and i386 I noted that at 4.48pm Jan 26,2014 Note ansi sys also appeared during virus scan. Note a download also appeared. NOTE LOCATION NEAR BUTE. NOTE TUBE HAS SAME LETTERS AS BUTE. SEE INFO RE LETTER FLIPPING EQUIPMENT AND INTERACTIVE MAPS AND INTERACTIVE POWER GRID.SEE EARLIER EMAILS RE THOSE SUBJECTS. NOTE WORDS RADIOACTIVE MATE UNDER 386. NOTE SADISTIC PEOPLE DO EXIST. NOTE I AM BEING USED DAILY. REGARDS, JULIE EightSix Network Inc Suite 1202-1277 Melville St, Vancouver, BC V6E 0A4 ‎ (604) 568-9863 ‎ · 86network.com NOTE TORONTO,CALGARY AND VANCOUVER MENTIONED BELOW AND COOK JOBS. NOTE A MALE NAMED STEVE JOBS AND MAC COMPANY AND THE COMPUTER POSSIBLY READING RE MICROWAVE LEVEL ON GOOGLE (2 LEVELS ABOVE GOOGLE EARTH) THE WORDS COOK JOBS AND LINKED TO HIS LAST NAME. NOTE IT MEANS JOBS OR CAREER RE COOKING. I NOTED THAT AT 5.00PM JAN 26,2014. NOTIFY MAC COMPUTER SYSTEM. REGARDS, JULIE EightSix Network https://www.86network.com/‎ Hospitality jobs in Toronto, Vancouver & Calgary. Find restaurant Jobs, server jobs, bartender jobs, busser jobs, hostess jobs, cook jobs and restaurant manager ... Google+ page · Be the first to review Suite 1202-1277 Melville St, Vancouver, BC V6E 0A4 (604) 568-9863 Radon - Wikipedia, the free encyclopedia en.wikipedia.org/wiki/Radon‎ Radon is a chemical element with symbol Rn and atomic number 86. It is aradioactive, colorless, odorless, tasteless noble gas, occurring naturally as an indirect ... Chernobyl disaster - Wikipedia, the free encyclopedia en.wikipedia.org/wiki/Chernobyl_disaster‎ An explosion and fire released large quantities of radioactive particles into the ... test on Saturday, 26 April 1986 at reactor number four of the Chernobyl plant, ... It's Elemental - The Element Radon education.jlab.org/itselemental/ele086.html‎ 86. Rn. Radon. 222. Atomic Number: 86. Atomic Weight: 222. Melting Point: 202 ... At normal room temperatures, radon is a colorless, odorless, radioactive gas. NOTE RADIOACTIVE DATING. NOTE DATES IN COMPUTER, DATES AS A FRUIT, AND DATES AS IN GOING ON A DATE (OUTING) WITH SOMEONE. NOTE FRANK AND NOTE STEIGERS HOME PAGE. NOTE F STEIGER AND RADIOACCT.HTML BELOW. NOTE MATHEW GANGEL SAID HIS FRIEND FRANK (I DON'T KNOW HIS LAST NAME) MADE A SPECIAL PORN FOR HIM AND THAT I'D BE A RECEIVER. I DON'T WANT ANY RADIOACTIVITY AIMED AT ME RE A FIELD. NOTE SADISTIC PEOPLE EXIST AND THOSE THAT HATE US WOMEN. NOTE EARLIER EMAIL RE MISOGONY. NOTE SIM CARDS IN CELL PHONES AND BODY CELLS AND FI = 69 AND 69 = PORN CONNOTATION AND ALSO A CANCER SYMBOL. NOTE SIM IN THE LETTERS AND GYNO (ABBREVIATION FOR GYNOCOLOGY) AND NY = NEW YORK AND NOTE CAR IN THE LETTERS CARD. NOTE RADIOACTIVE NUMBERS IN A PROGRAM MIGHT BE BEING USED ON US AS A WEAPON. PLEASE FILE A LAW SUIT FOR ME. REGARDS, JULIE Radioactive Dating - Frank Steiger's Home Page www.fsteiger.com/radioact.html‎ Debunking the creationist radioactive dating argument. ... By way of background, all atoms of a given element have the same number of protons in the nucleus; ...Strontium-86 is a stable element that does not undergo radioactive change. Radon >From Wikipedia, the free encyclopedia This article is about the chemical element. For other uses, see Radon (disambiguation). Radon 86Rn Xe ↑ Rn ↓ Uuo astatine ← radon → francium Radon in the periodic table Appearance colorless gas A small gold tube filled with radon gas, causingradioluminescence of the phosphor layer below General properties Name, symbol,number radon, Rn, 86 Pronunciation /ˈreɪdɒn/ ray-don Element category noble gases Group, period,block 18 (noble gases), 6, p Standard atomic weight (222) Electron configuration [Xe] 4f14 5d10 6s2 6p6 2, 8, 18, 32, 18, 8 History Discovery Friedrich Ernst Dorn (1898) First isolation William Ramsay and Robert Whytlaw-Gray (1910) Physical properties Phase gas Density (0 °C, 101.325 kPa) 9.73 g/L Liquid density atb.p. 4.4 g·cm−3 Melting point 202 K, −71 °C, −96 °F Boiling point 211.5 K, −61.7 °C, −79.1 °F Critical point 377 K, 6.28[1] MPa Heat of fusion 3.247 kJ·mol−1 Heat of vaporization 18.10 kJ·mol−1 Molar heat capacity 5R/2 = 20.786 J·mol−1·K−1 Vapor pressure P (Pa) 1 10 100 1 k 10 k 100 k at T (K) 110 121 134 152 176 211 Atomic properties Oxidation states 6, 2, 0 Electronegativity 2.2 (Pauling scale) Ionization energies 1st: 1037 kJ·mol−1 Covalent radius 150 pm Van der Waals radius 220 pm Miscellanea Crystal structure face-centered cubic Magnetic ordering non-magnetic Thermal conductivity 3.61 m W·m−1·K−1 CAS registry number 10043-92-2 Most stable isotopes Main article: Isotopes of radon iso NA half-life DM DE (MeV) DP 210Rn syn 2.4 h α 6.404 206Po 211Rn syn 14.6 h ε 2.892 211At α 5.965 207Po 222Rn trace 3.8235 d α 5.590 218Po 224Rn syn 1.8 h β− 0.8 224Fr vte · ref Radon is a chemical element with symbol Rn and atomic number 86. It is aradioactive, colorless, odorless, tasteless[2] noble gas, occurring naturally as an indirect decay product of uranium or thorium. Its most stable isotope, 222Rn, has a half-life of 3.8 days. Radon is one of the densest substances that remains a gasunder normal conditions. It is also the only gas under normal conditions that only has radioactive isotopes, and is considered a health hazard due to its radioactivity. Intense radioactivity has also hindered chemical studies of radon and only a few compounds are known. Radon is formed as one intermediate step in the normal radioactive decay chains, through which thorium and uranium slowly decay into lead. Thorium and uranium are the two most common radioactive elements on earth; they have been around since the earth was formed. Their naturally occurring isotopes have very long half-lives, on the order of billions of years. Thorium and uranium, their decay productradium, and its decay product radon, will therefore continue to occur for tens of millions of years at almost the same concentrations as they do now.[3] As radon itself decays, it produces new radioactive elements called radon daughters or decay products. Unlike the gaseous radon itself, radon daughters are solids and stick to surfaces, such as dust particles in the air. If such contaminated dust is inhaled, these particles can stick to the airways of the lung and increase the risk of developing lung cancer.[4] Unlike all the other intermediate elements in the aforementioned decay chains, radon is gaseous, and is thus easily inhaled. Thus, even in this age of nuclear reactors, naturally-occurring radon is responsible for the majority of the public exposure to ionizing radiation. It is often the single largest contributor to an individual's background radiation dose, and is the most variable from location to location. Despite its short lifetime, some radon gas from natural sources can accumulate to far higher than normal concentrations in buildings, especially in low areas such as basements and crawl spaces due to its heavy nature. It can also be found in some spring waters and hot springs.[5] Epidemiological studies have shown a clear link between breathing high concentrations of radon and incidence of lung cancer. Thus, radon is considered a significant contaminant that affects indoor air quality worldwide. According to theUnited States Environmental Protection Agency, radon is the second most frequent cause of lung cancer, after cigarette smoking, causing 21,000 lung cancer deaths per year in the United States. About 2,900 of these deaths occur among people who have never smoked. While radon is the second most frequent cause of lung cancer, it is the number one cause among non-smokers, according to EPA estimates.[6] Contents [hide] 1 Characteristics 1.1 Physical properties 1.2 Chemical properties 1.3 Isotopes 1.3.1 Progenies 2 History and etymology 3 Occurrence 3.1 Concentration units 3.2 Natural 3.3 Accumulation in houses 3.4 Industrial production 3.5 Concentration scale 4 Applications 4.1 Medical 4.2 Scientific 5 Health risks 5.1 In mines 5.2 Domestic-level exposure 5.3 Action and reference level 5.4 Relationship to smoking 5.5 Relationship to passive smoking 5.6 In drinking water 5.7 Testing and mitigation 6 See also 7 References 8 External links Characteristics[edit] Emission spectrum of radon, photographed by Ernest Rutherford in 1908. Numbers at the side of the spectrum are wavelengths. The middle spectrum is of radon, while the outer two are of helium (added to calibrate the wavelengths). Physical properties[edit] Radon is a colorless, odorless, and tasteless gas and therefore not detectable by human senses alone. Atstandard temperature and pressure, radon forms a monatomic gas with a density of 9.73 kg/m3,[7] about 8 times the density of theEarth's atmosphere at sea level, 1.217 kg/m3.[8] Radon is one of the densest gases at room temperature and is the densest of the noble gases. Although colorless at standard temperature and pressure, when cooled below its freezing point of 202 K (−71 °C; −96 °F), radon emits a brilliant radioluminescence that turns from yellow to orange-red as the temperature lowers.[9] Upon condensation, radon glows because of the intense radiation it produces.[10] Chemical properties[edit] Being a noble gas, radon is chemically not very reactive. However, the 3.8-day half-life of radon-222 makes it useful in physical sciences as a natural tracer. Radon is a member of the zero-valence elements that are called noble gases. It is inert to most common chemical reactions, such as combustion, because the outer valence shell contains eight electrons. This produces a stable, minimum energy configuration in which the outer electrons are tightly bound.[11] 1037 kJ/mol is required to extract one electron from its shells (also known as the first ionization energy).[12] However, in accordance with periodic trends, radon has a lower electronegativity than the element one period before it, xenon, and is therefore more reactive. Radon is sparingly soluble in water, but more soluble than lighter noble gases. Radon is appreciably more soluble in organic liquids than in water. Early studies concluded that the stability of radon hydrate should be of the same order as that of the hydrates of chlorine (Cl 2) or sulfur dioxide (SO 2), and significantly higher than the stability of the hydrate of hydrogen sulfide (H 2S).[13] Because of its cost and radioactivity, experimental chemical research is seldom performed with radon, and as a result there are very few reported compounds of radon, all either fluorides or oxides. Radon can be oxidized by a few powerful oxidizing agents such as fluorine, thus forming radon difluoride.[14][15] It decomposes back to elements at a temperature of above 250 °C. It has a low volatility and was thought to be RnF 2. But because of the short half-life of radon and the radioactivity of its compounds, it has not been possible to study the compound in any detail. Theoretical studies on this molecule predict that it should have a Rn–Fbond distance of 2.08 Ĺ, and that the compound is thermodynamically more stable and less volatile than its lighter counterpartXeF 2.[16] The octahedral molecule RnF 6 was predicted to have an even lower enthalpy of formation than the difluoride.[17] The higher fluorides RnF4 and RnF6 have been claimed to exist,[18] and are calculated to be stable,[19] but it is doubtful whether they have actually been synthesized.[18] The [RnF]+ ion is believed to form by the following reaction:[20] Rn (g) + 2 [O 2]+ [SbF 6]− (s) → [RnF]+ [Sb 2F 11]− (s) + 2 O 2 (g) Radon oxides are among the few other reported compounds of radon;[21] only the trioxide has been confirmed.[18] Radon carbonylRnCO has been predicted to be stable and to have a linear molecular geometry.[22] The molecules Rn 2 and RnXe were found to be significantly stabilized by spin-orbit coupling.[23] Radon caged inside a fullerene has been proposed as a drug for tumors.[24]Despite the existence of Xe(VIII), no Rn(VIII) compounds have been claimed to exist; RnF8 should be highly unstable chemically (XeF8 is thermodynamically unstable). It is predicted that the most stable Rn(VIII) compound would be barium perradate (Ba2RnO6), analogous to barium perxenate.[19] Isotopes[edit] Main article: Isotopes of radon The radium or uranium series. Radon has no stable isotopes. However, 36 radioactive isotopes have been characterized, with their atomic masses ranging from 193 to 228.[25] The most stable isotope is 222Rn, which is adecay product of 226Ra, a decay product of 238U.[26] A very trace amount of the (highly unstable) isotope 218Rn is also among the daughters of 222Rn. There are three other radon isotopes that have a half-life of over an hour: 211Rn, 210Rn and224Rn. The 220Rn isotope is a natural decay product of the most stable thorium isotope (232Th), and is commonly referred to as thoron. It has a half-life of 55.6 seconds and also emits alpha radiation. Similarly, 219Rn is derived from the most stable isotope of actinium (227Ac)—named "actinon"—and is an alpha emitter with a half-life of 3.96 seconds.[25] No radon isotopes occur significantly in the neptunium (237Np) decay series, though a trace amount of the (extremely unstable) isotope 217Rn is produced. Progenies[edit] Main article: Decay chain#Radium series (also known as uranium series) 222Rn belongs to the radium and uranium-238 decay chain, and has a half-life of 3.8235 days. Its four first products (excluding marginal decay schemes) are very short-lived, meaning that the corresponding disintegrations are indicative of the initial radon distribution. Its decay goes through the following sequence:[25] 222Rn, 3.8 days, alpha decaying to... 218Po, 3.10 minutes, alpha decaying to... 214Pb, 26.8 minutes, beta decaying to... 214Bi, 19.9 minutes, beta decaying to... 214Po, 0.1643 ms, alpha decaying to... 210Pb, which has a much longer half-life of 22.3 years, beta decaying to... 210Bi, 5.013 days, beta decaying to... 210Po, 138.376 days, alpha decaying to... 206Pb, stable. The radon equilibrium factor[27] is the ratio between the activity of all short-period radon progenies (which are responsible for most of radon's biological effects), and the activity that would be at equilibrium with the radon parent. If a closed volume is constantly supplied with radon, the concentration of short-lived isotopes will increase until an equilibrium is reached where the rate of decay of each decay product will equal that of the radon itself. The equilibrium factor is 1 when both activities are equal, meaning that the decay products have stayed close to the radon parent long enough for the equilibrium to be reached, within a couple of hours. Under these conditions each additional pCi/L of radon will increase exposure, by 0.01 WL (see explanation of WL below). These conditions are not always met; in many homes, the equilibrium fraction is typically 40%; that is, there will be 0.004 WL of progeny for each pCi/L of radon in air.[28] 210Pb takes much longer (decades) to come in equilibrium with radon, but, if the environment permits accumulation of dust over extended periods of time, 210Pb and its decay products may contribute to overall radiation levels as well. Because of their electrostatic charge, radon progenies adhere to surfaces or dust particles, whereas gaseous radon does not. Attachment removes them from the air, usually causing the equilibrium factor in the atmosphere to be less than one. The equilibrium factor is also lowered by air circulation or air filtration devices, and is increased by airborne dust particles, including cigarette smoke. In high concentrations, airborne radon isotopes contribute significantly to human health risk. The equilibrium factor found in epidemiological studies is 0.4.[29] History and etymology[edit] Apparatus used by Ramsay and Whytlaw-Gray to isolate radon. M is a capillary tube where approximately 0.1 mm3 were isolated. Rn mixed with H 2 entered the evacuated system through siphon A; mercury is shown in black. Radon was the fifth radioactive element to be discovered, in 1900 by Friedrich Ernst Dorn,[30]after uranium, thorium, radium and polonium.[31][32][33][34][35] In 1900 Dorn reported some experiments in which he noticed that radium compounds emanate a radioactive gas he namedRadium Emanation (Ra Em).[36] Before that, in 1899, Pierre and Marie Curie observed that the "gas" emitted by radium remained radioactive for a month.[37] Later that year, Robert B. Owensand Ernest Rutherford, at McGill University in Montreal, noticed variations when trying to measure radiation from thorium oxide.[38] Rutherford noticed that the compounds of thorium continuously emit a radioactive gas that retains the radioactive powers for several minutes, and called this gas emanation (from Latin "emanare"—to elapse and "emanatio"—expiration),[39]and later Thorium Emanation (Th Em). In 1901, he demonstrated that the emanations are radioactive, but credited the Curies for the discovery of the element.[40] In 1903, similar emanations were observed from actinium by André-Louis Debierne[41][42] and were calledActinium Emanation (Ac Em). Several names were suggested for these three gases: exradio, exthorio, and exactinio in 1904;[43] radon, thoron, and akton in 1918;[44] radeon, thoreon, and actineon in 1919,[45] and eventually radon, thoron, and actinon in 1920.[46] The likeness of the spectra of these three gases with those of argon, krypton, and xenon, and their observed chemical inertia led SirWilliam Ramsay to suggest in 1904 that the "emanations" might contain a new element of the noble gas family.[43] In 1910, Sir William Ramsay and Robert Whytlaw-Gray isolated radon, determined its density, and determined that it was the heaviest known gas.[47] They wrote that "L'expression de l'émanation du radium est fort incommodé", (the expression of radium emanation is very awkward) and suggested the new name niton (Nt) (from the Latin "nitens" meaning "shining") to emphasize the radioluminescence property,[47] and in 1912 it was accepted by the International Commission for Atomic Weights. In 1923, the International Committee for Chemical Elements and International Union of Pure and Applied Chemistry (IUPAC) chose among the names radon (Rn), thoron (Tn), and actinon (An). Later, when isotopes were numbered instead of named, the element took the name of the most stable isotope, radon, while Tn was renamed 220Rn and An was renamed 219Rn. As late as the 1960s, the element was also referred to simply asemanation.[48] The first synthesized compound of radon, radon fluoride, was obtained in 1962.[ 49] The danger of high exposure to radon in mines, where exposures reaching 1,000,000 Bq/m3 can be found, has long been known. In 1530, Paracelsus described a wasting disease of miners, the mala metallorum, and Georg Agricola recommended ventilation in mines to avoid this mountain sickness (Bergsucht).[50][51] In 1879, this condition was identified as lung cancer by Herting and Hesse in their investigation of miners from Schneeberg, Germany. The first major studies with radon and health occurred in the context of uranium mining in the Joachimsthal region of Bohemia.[52] In the US, studies and mitigation only followed decades of health effects on uranium miners of the Southwestern United States employed during the early Cold War; standards were not implemented until 1971.[53] The presence of radon in indoor air was documented as early as 1950. Beginning in the 1970s research was initiated to address sources of indoor radon, determinants of concentration, health effects, and approaches to mitigation. In the United States, the problem of indoor radon received widespread publicity and intensified investigation after a widely publicized incident in 1984. During routine monitoring at a Pennsylvania nuclear power plant, a worker was found to be contaminated with radioactivity. A high contamination of radon in his home was subsequently identified as responsible for the contamination.[54] Occurrence[edit] See also: Radium and radon in the environment Concentration units[edit] 210Pb is formed from the decay of 222Rn. Here is a typical deposition rate of 210Pb as observed in Japan as a function of time, due to variations in radon concentration.[55] All discussions of radon concentrations in the environment refer to222Rn. While the average rate of production of 220Rn (from the thorium decay series) is about the same as 222Rn, the amount of 220Rn in the environment is much less than that of 222Rn because of the short half-life of 220Rn (55 seconds, versus 3.8 days respectively).[3] Radon concentration in the atmosphere is usually measured in becquerelper cubic meter (Bq/m3), the SI derived unit. Another unit of measurement common in the USA is picocuries per liter (pCi/L); 1 pCi/L=37 Bq/m3.[28] Typical domestic exposures average about 48 Bq/m3 indoors, though this varies widely, and 15 Bq/m3 outdoors.[56] In the mining industry, the exposition is traditionally measured in working level (WL), and the cumulative exposition in working level month (WLM); 1 WL equals any combination of short-lived 222Rn progeny (218Po,214Pb, 214Bi, and 214Po) in 1 liter of air that releases 1.3 × 105 MeV of potential alpha energy;[28] one WL is equivalent to 2.08 × 10−5 joules per cubic meter of air (J/m3).[3] The SI unit of cumulative exposure is expressed in joule-hours per cubic meter (J·h/m3). One WLM is equivalent to 3.6 × 10−3 J·h/m3. An exposure to 1 WL for 1 working month (170 hours) equals 1 WLM cumulative exposure. A cumulative exposure of 1 WLM is roughly equivalent to living one year in an atmosphere with a radon concentration of 230 Bq/m3.[57] Radon (222Rn), when released into the air, decays to 210Pb and other radioisotopes, the levels of 210Pb can be measured. The rate of deposition of this radioisotope is weather dependent. Radon concentrations found in natural environments are much too low to be detected by chemical means. A 1000 Bq/m3(relatively high) concentration corresponds to 0.17 picogram per cubic meter. The average concentration of radon in the atmosphere is about 6×10−20 atoms of radon for each molecule in the air, or about 150 atoms in each ml of air.[58] The radon activity of the entire Earth's atmosphere originates from only a few tens of grams of radon, consistently replaced by decay of larger amounts of radium and uranium.[59] Natural[edit] Radon concentration next to a uranium mine. Radon is produced by the radioactive decay of radium-226, which is found in uranium ores; phosphate rock; shales; igneous and metamorphic rocks such as granite, gneiss, and schist; and, to a lesser degree, in common rocks such as limestone.[60] Every square mile of surface soil, to a depth of 6 inches (2.6 km2 to a depth of 15 cm), contains approximately 1 gram of radium, which releases radon in small amounts to the atmosphere[3] On a global scale, it is estimated that 2,400 million curies (90 TBq) of radon are released from soil annually.[61] Radon concentration varies widely from place to place. In the open air, it ranges from 1 to 100 Bq/m3, even less (0.1 Bq/m3) above the ocean. In caves or aerated mines, or ill-aerated houses, its concentration climbs to 20–2,000 Bq/m3.[62] Radon concentration can be much higher in mining contexts. Ventilation regulations instruct to maintain radon concentration in uranium mines under the "working level", with 95th percentile levels ranging up to nearly 3 WL (546 pCi 222Rn per liter of air; 20.2 kBq/m3, measured from 1976 to 1985).[3] The concentration in the air at the (unventilated) Gastein Healing Gallery averages 43 kBq/m3 (1.2 nCi/L) with maximal value of 160 kBq/m3 (4.3 nCi/L).[63] Radon mostly appears with the decay chain of the radium and uranium series (222Rn), and marginally with the thorium series (220Rn). The element emanates naturally from the ground, and some building materials, all over the world, wherever traces of uranium or thorium can be found, and particularly in regions with soils containing granite or shale, which have a higher concentration of uranium. However, not all granitic regions are prone to high emissions of radon. Being a rare gas, it usually migrates freely through faults and fragmented soils, and may accumulate in caves or water. Owing to its very short half-life (four days for 222Rn), radon concentration decreases very quickly when the distance from the production area increases. Radon concentration varies greatly with season and atmospheric conditions. For instance, it has been shown to accumulate in the air if there is a meteorological inversion and little wind.[64] High concentrations of radon can be found in some spring waters and hot springs.[65] The towns of Boulder, Montana; Misasa;Bad Kreuznach, Germany; and the country of Japan have radium-rich springs that emit radon. To be classified as a radon mineral water, radon concentration must be above a minimum of 2 nCi/L (74 kBq/m3).[66] The activity of radon mineral water reaches 2,000 kBq/m3 in Merano and 4,000 kBq/m3 in Lurisia (Italy).[63] Natural radon concentrations in the Earth's atmosphere are so low that radon-rich water in contact with the atmosphere will continually lose radon by volatilization. Hence, ground water has a higher concentration of 222Rn than surface water, because radon is continuously produced by radioactive decay of 226Ra present in rocks. Likewise, the saturated zone of a soil frequently has a higher radon content than the unsaturated zone because of diffusional losses to the atmosphere.[67][68] In 1971, Apollo 15 passed 110 km (68 mi) above the Aristarchus plateau on the Moon, and detected a significant rise in alpha particles thought to be caused by the decay of 222Rn. The presence of 222Rn has been inferred later from data obtained from theLunar Prospector alpha particle spectrometer.[69] Radon is found in some petroleum. Because radon has a similar pressure and temperature curve to propane, and oil refineriesseparate petrochemicals based on their boiling points, the piping carrying freshly separated propane in oil refineries can become radioactive because of decaying radon and its products.[70] Residues from the petroleum and natural gas industry often contain radium and its daughters. The sulfate scale from an oil wellcan be radium rich, while the water, oil, and gas from a well often contains radon. Radon decays to form solid radioisotopes that form coatings on the inside of pipework.[70] Accumulation in houses[edit] Typical log-normal radon distribution in dwellings. High concentrations of radon in homes were discovered by chance in 1985 after the stringent radiation testing conducted at a nuclear power plant entrance revealed that Stanley Watras, an engineer entering the plant, was contaminated by radioactive substances.[71] Typical domestic exposures are of approximately 100 Bq/m3 indoors. Some level of radon will be found in most homes. Radon enters a home through the lowest level in the home that is in contact with open ground. Typical entry points of radon into homes are cracks in solid foundations, construction joints, cracks in walls, gaps in suspended floors, gaps around service pipes, cavities inside walls, and the water supply.[2] Radon concentrations in the same location may differ by a factor of two over a period of 1 hour. Also, the concentration in one room of a building may be significantly different than the concentration in an adjoining room.[3] The distribution of radon concentrations will generally change from room to room, and the readings are averaged according to regulatory protocols. Indoor radon concentration is usually assumed to follow a lognormal distribution on a given territory.[72] Thus, the geometric mean is generally used for estimating the "average" radon concentration in an area.[73] The mean concentration ranges from less than 10 Bq/m3 to over 100 Bq/m3 in some European countries.[74] Typical geometric standard deviations found in studies range between 2 and 3, meaning (given the 68-95-99.7 rule) that the radon concentration is expected to be more than a hundred times the mean concentration for 2 to 3% of the cases. The highest average radon concentrations in the United States are found in Iowa and in the Appalachian Mountain areas in southeastern Pennsylvania.[75] Some of the highest readings ever have been recorded in the Irish town of Mallow, County Cork, prompting local fears regarding lung cancer. Iowa has the highest average radon concentrations in the United States due to significant glaciation that ground the granitic rocks from the Canadian Shield and deposited it as soils making up the rich Iowa farmland.[76] Many cities within the state, such as Iowa City, have passed requirements for radon-resistant construction in new homes. In a few locations, uranium tailings have been used for landfills and were subsequently built on, resulting in possible increased exposure to radon.[3] Industrial production[edit] Radon is obtained as a by-product of uraniferous ores processing after transferring into 1% solutions of hydrochloric orhydrobromic acids. The gas mixture extracted from the solutions contains H 2, O 2, He, Rn, CO 2, H 2O and hydrocarbons. The mixture is purified by passing it over copper at 720 °C to remove the H 2 and the O 2, and then KOH and P 2O 5 are used to remove the acids and moisture by sorption. Radon is condensed by liquid nitrogen and purified from residue gases by sublimation.[77] Radon commercialization is regulated, but it is available in small quantities for the calibration of 222Rn measurement systems, at a price of almost $6,000 per milliliter of radium solution (which only contains about 15 picograms of actual radon at a given moment).[78] Radon is produced by a solution of radium-226 (half-life of 1600 years). Radium-226 decays by alpha-particle emission, producing radon that collects over samples of radium-226 at a rate of about 1 mm3/day per gram of radium; equilibrium is quickly achieved and radon is produced in a steady flow, with an activity equal to that of the radium (50 Bq). Gaseous 222Rn (half-life of about four days) escapes from the capsule through diffusion.[79] Concentration scale[edit] Bq/m3 pCi/L Occurrence example 1 ~0.03 Radon concentration at the shores of large oceans is typically 1 Bq/m3. Radon trace concentration above oceans or in Antarctica can be lower than 0.1 Bq/m3. 10 0.27 Mean continental concentration in the open air: 10 to 30 Bq/m3. Based on a series of surveys, the global mean indoor radon concentration is estimated to be 39 Bq/m3. 100 2.7 Typical indoor domestic exposure. Most countries have adopted a radon concentration of 200–400 Bq/m3 for indoor air as an Action or Reference Level. If testing shows levels less than 4 picocuries radon per liter of air (150 Bq/m3), then no action is necessary. A cumulated exposure of 230 Bq/m3 of radon gas concentration during a period of 1 year corresponds to 1 WLM. 1,000 27 Very high radon concentrations (>1000 Bq/m3) have been found in houses built on soils with a high uranium content and/or high permeability of the ground. If levels are 20 picocuries radon per liter of air (800 Bq/m3) or higher, the home owner should consider some type of procedure to decrease indoor radon levels. 10,000 270 The "Working Level" in uranium mines corresponds to a 7000 Bq/m3 concentration. The concentration in the air at the (unventilated) Gastein Healing Gallery averages 43 kBq/m3 (about 1.2 nCi/L) with maximal value of 160 kBq/m3 (about 4.3 nCi/L).[63] 100,000 ~2700 About 100,000 Bq/m3 (2.7 nCi/L) was measured in Stanley Watras's basement.[80][81] 1,000,000 27000 Concentrations reaching 1,000,000 Bq/m3 can be found in unventilated uranium mines. Applications[edit] Medical[edit] Main article: Radioactive quackery An early-20th-century form of quackery was the treatment of maladies in a radiotorium.[82] It was a small, sealed room for patients to be exposed to radon for its "medicinal effects". The carcinogenic nature of radon due to its ionizing radiation became apparent later on. Radon's molecule-damaging radioactivity has been used to kill cancerous cells.[83] It does not, however, increase the health of healthy cells. In fact, the ionizing radiation causes the formation of free radicals, which results in genetic and other cell damage, resulting in increased rates of illness, including cancer. An apparatus for (allegedly) dissolving radon into drinking water, in a restaurant in Japan Exposure to radon, a process known as radiation hormesis, has been suggested to mitigate auto-immune diseases such as arthritis.[84][85] As a result, in the late 20th century and early 21st century, "health mines" established in Basin, Montanaattracted people seeking relief from health problems such as arthritis through limited exposure to radioactive mine water and radon. However, the practice is discouraged because of the well-documented ill effects of high-doses of radiation on the body.[86] Radioactive water baths have been applied since 1906 in Jáchymov, Czech Republic, but even before radon discovery they were used in Bad Gastein, Austria. Radium-rich springs are also used in traditional Japanese onsen in Misasa, Tottori Prefecture. Drinking therapy is applied in Bad Brambach, Germany. Inhalation therapy is carried out in Gasteiner-Heilstollen, Austria, in Świeradów-Zdrój, Czerniawa-Zdrój, Kowary,Lądek Zdrój, Poland, in Harghita Băi, Romania, and in Boulder, United States. In the United States and Europe there are several "radon spas," where people sit for minutes or hours in a high-radon atmosphere in the belief that low doses of radiation will invigorate or energize them.[85][87] Radon has been produced commercially for use in radiation therapy, but for the most part has been replaced by radionuclides made in accelerators and nuclear reactors. Radon has been used in implantable seeds, made of gold or glass, primarily used to treat cancers. The gold seeds were produced by filling a long tube with radon pumped from a radium source, the tube being then divided into short sections by crimping and cutting. The gold layer keeps the radon within, and filters out the alpha and beta radiations, while allowing the gamma rays to escape (which kill the diseased tissue). The activities might range from 0.05 to 5 millicuries per seed (2 to 200 MBq).[83] The gamma rays are produced by radon and the first short-lived elements of its decay chain (218Po, 214Pb, 214Bi, 214Po). Radon and its first decay products being very short-lived, the seed is left in place. After 12 half-lives (43 days), radon radioactivity is at 1/2000 of its original level. At this stage, the predominant residual activity originates from the radon decay product 210Pb, whose half-life (22.3 years) is 2000 times that of radon (and whose activity is thus 1/2000 of radon's), and its descendants 210Bi and 210Po. In the early part of the 20th century in the USA, gold contaminated with 210Pb entered the jewelry industry. This was from gold seeds that had held 222Rn that had been melted down after the radon had decayed.[88][89] Scientific[edit] Radon emanation from the soil varies with soil type and with surface uranium content, so outdoor radon concentrations can be used to track air masses to a limited degree. This fact has been put to use by some atmospheric scientists. Because of radon's rapid loss to air and comparatively rapid decay, radon is used in hydrologic research that studies the interaction between ground water and streams. Any significant concentration of radon in a stream is a good indicator that there are local inputs of ground water. Radon soil-concentration has been used in an experimental way to map buried close-subsurface geological faults because concentrations are generally higher over the faults.[90] Similarly, it has found some limited use in prospecting for geothermal gradients.[91] Some researchers have investigated changes in groundwater radon concentrations for earthquake prediction.[92][93][94] Radon has a half-life of approximately 3.8 days, which means that it can be found only shortly after it has been produced in the radioactive decay chain. For this reason, it has been hypothesized that increases in radon concentration is due to the generation of new cracks underground, which would allow increased ground water circulation, flushing out radon. The generation of new cracks might not unreasonably be assumed to precede major earthquakes. In the 1970s and 1980s, scientific measurements of radon emissions near faults found that earthquakes often occurred with no radon signal, and radon was often detected with no earthquake to follow. It was then dismissed by many as an unreliable indicator.[95] However, as of 2009, it is under investigation as a possible precursor by NASA.[96] Radon is a known pollutant emitted from geothermal power stations because it is present in the material pumped from deep underground. However, it disperses rapidly, and no radiological hazard has been demonstrated in various investigations. In addition, typical systems re-inject the material deep underground rather that releasing it at the surface, so its environmental impact is minimal.[97] In the 1940s and 50s, radon was used for industrial radiography,[98][99] Other X-ray sources, which became available after World War II, quickly replaced radon for this application, as they were lower in cost and had less hazard of alpha radiation. Health risks[edit] Main article: Health effects of radon In mines[edit] Relative risk of lung cancer mortality by cumulative exposure to radon decay products (in WLM) from the combined data from 11 cohorts of underground hard rock miners. Though high exposures (>50 WLM) cause statistically significant excess cancers, the case of small exposures (10 WLM) is inconclusive and appears slightly beneficial in this study. Radon-222 (actually radon progeny) has been classified by International Agency for Research on Cancer as being carcinogenic to humans,[100] and as a gas that can be inhaled, lung cancer is a particular concern for people exposed to high levels of radon for sustained periods of time. During the 1940s and 50s, when safety standards requiring expensive ventilation in mines were not widely implemented,[101] radon exposure was linked to lung cancer among non-smoking miners of uranium and other hard rock materials in what is now the Czech Republic, and later among miners from the Southwestern United States.[102][103][104] Since that time, ventilation and other measures have been used to reduce radon levels in most affected mines that continue to operate. In recent years, the average annual exposure of uranium miners has fallen to levels similar to the concentrations inhaled in some homes. This has reduced the risk of occupationally induced cancer from radon, although health issues may persist for those who are currently employed in affected mines and for those who have been employed in them in the past.[105] As the relative risk for miners has decreased, so has the ability to detect excess risks among that population.[106] In addition to lung cancer, researchers have theorized a possible increased risk ofleukemia due to radon exposure. Empirical support from studies of the general population is inconsistent. However, a study of uranium miners found a noticeable correlation between radon exposure and chronic lymphocytic leukemia.[107] Domestic-level exposure[edit] Radon exposure (actually radon progeny) has been linked to lung cancer in numerous case-control studies performed in the United States, Europe and China. There are approximately 21,000 deaths per year in the USA due to radon-induced lung cancers.[6] One of the most comprehensive radon studies performed in the United States by Dr. R. William Field and colleagues found a 50% increased lung cancer risk even at the protracted exposures at the EPA's action level of 4 pCi/L. North American and European Pooled analyses further support these findings.[108] A controversial epidemiological study showing decreased cancer risk vs. radon domestic exposure (5 pCi/L ≈ 200 Bq/m3).[109] This study lacks individual level controls for smoking and radon exposure, and therefore lacks statistical power to draw definitive conclusions. Because of this the error bars (which simply reflect the raw data variability) are probably too small.[110] Among other expert panels, the WHO's International Agency for Research on Cancer concluded that these analyses "can be rejected."[111] Most models of residential radon exposure are based on studies of miners, and direct estimates of the risks posed to homeowners would be more desirable.[105]Nonetheless, because of the difficulties of measuring the risk of radon relative to other contributors—namely smoking—models of their effect have often made use of them. Radon has been considered the second leading cause of lung cancer and leading environmental cause of cancer mortality by the United States Environmental Protection Agency.[112] Others have reached similar conclusions for the United Kingdom[105] and France.[113] Radon exposure in homes and offices may arise from certain subsurface rock formations, and also from certain building materials (e.g., some granites). The greatest risk of radon exposure arises in buildings that are airtight, insufficiently ventilated, and have foundation leaks that allow air from the soil into basements and dwelling rooms. Action and reference level[edit] WHO presented in 2009 a recommended reference level (the national reference level), 100 Bq/m3, for radon in dwellings. The recommendation also says that where this is not possible, 300 Bq/m3 should be selected as the highest level. A national reference level should not be a limit, but should represent the maximum acceptable annual average radon concentration in a dwelling.[114] The actionable concentration of radon in a home varies depending on the organization doing the recommendation, for example, the United States Environmental Protection Agency encourages that action be taken at concentrations as low as 74 Bq/m3(2 pCi/L),[56] and the European Union recommends action be taken when concentrations reach 400 Bq/m3 (11 pCi/L) for old houses and 200 Bq/m3 (5 pCi/L) for new ones.[115] On 8 July 2010 the UK's Health Protection Agency issued new advice setting a "Target Level" of 100 Bq/m3 whilst retaining an "Action Level" of 200 Bq/m3.[116] The same levels (as UK) applies to Norway from 2010, all new housings should be radon shielded. Relationship to smoking[edit] Results from epidemiological studies indicate that the risk of lung cancer increases with exposure to residential radon. However, there are always major uncertainties in these studies. A classical and well-known example of source of error is smoking. In addition, smoking is the most important risk factor for lung cancer. In the West, tobacco smoke is estimated to cause about 90% of all lung cancers. There is a tendency for other hypothetical lung cancer risks to drown in the risk of smoking. Results from epidemiological studies must always be interpreted with caution. According to the EPA, the risk of lung cancer for smokers is significant due to synergistic effects of radon and smoking. For this population about 62 people in a total of 1,000 will die of lung cancer compared to 7 people in a total of 1,000 for people who have never smoked.[6] It can, however, not be excluded that the risk of non-smokers should be primarily explained by a combination effect of radon and passive smoking (see below). Radon, like other known or suspected external risk factors for lung cancer, is a threat for smokers and former smokers. This was clearly demonstrated by the European pooling study.[117] A commentary[118] to the pooling study stated: "it is not appropriate to talk simply of a risk from radon in homes. The risk is from smoking, compounded by a synergistic effect of radon for smokers. Without smoking, the effect seems to be so small as to be insignificant." A study[119] of radiation from postmastectomy radiotherapy shows that the simple models previously used to assess the combined and separate risks from radiation and smoking need to be developed. This is also supported by new discussion about the calculation method, LNT, which routinely has been used.[120] Relationship to passive smoking[edit] An important question is if also passive smoking can cause a similar synergy effect with residential radon. This has been insufficiently studied. The basic data for the European pooling study makes it impossible to exclude that such synergy effect is an explanation for the (very limited) increase in the risk from radon that was stated for non-smokers. A study[121] from 2001, which included 436 cases (never smokers who had lung cancer), and a control group (1649 never smokers) showed that exposure to radon increased the risk of lung cancer in never smokers. But the group that had been exposed to passive smoking at home appeared to bear the entire risk increase, while those who were not exposed to passive smoking did not show any increased risk with increasing radon level. In drinking water[edit] The effects of radon if ingested are similarly unknown, although studies have found that its biological half-life ranges from 30–70 minutes, with 90 percent removal at 100 minutes. In 1999 National Research Council investigated the issue of radon in drinking water. The risks associated with ingestion was considered almost negligible.[122] Water from underground sources may contain significant amounts of radon depending on the surrounding rock and soil conditions, whereas surface sources generally do not.[123] As well as being ingested through drinking water, radon is also released from water when temperature is increased, pressure is decreased and when water is aerated. Optimum conditions for radon release and exposure occur during showering. Water with a radon concentration of 104 pCi/L can increase the indoor airborne radon concentration by 1 pCi/L under normal conditions of water use.[124] Testing and mitigation[edit] Main article: Radon mitigation A radon test kit. There are relatively simple tests for radon gas. In some countries these tests are methodically done in areas of known systematic hazards. Radon detection devices are commercially available. The short-term radon test devices used for screening purposes are inexpensive, in some cases free. There are very important protocols for taking short-term radon tests and it is imperative that they be strictly followed. The kit includes a collector that the user hangs in the lowest livable floor of the house for 2 to 7 days. The user then sends the collector to a laboratory for analysis. Long term kits, taking collections for up to one year, are also available. An open-land test kit can test radon emissions from the land before construction begins.[6] Radon levels fluctuate naturally, due to factors like transient weather conditions, so an initial test might not be an accurate assessment of a home's average radon level. Radon levels are at a maximum during the coolest part of the day when pressure differentials are greatest.[60] Therefore, a high result (over 4 pCi/L) justifies repeating the test before undertaking more expensive abatement projects. Measurements between 4 and 10 pCi/L warrant a long term radon test. Measurements over 10 pCi/L warrant only another short term test so that abatement measures are not unduly delayed. Purchasers of real estate are advised to delay or decline a purchase if the seller has not successfully abated radon to 4 pCi/L or less.[6] Because the half-life of radon is only 3.8 days, removing or isolating the source will greatly reduce the hazard within a few weeks. Another method of reducing radon levels is to modify the building's ventilation. Generally, the indoor radon concentrations increase as ventilation rates decrease.[3] In a well ventilated place, the radon concentration tends to align with outdoor values (typically 10 Bq/m3, ranging from 1 to 100 Bq/m3).[6] Radon levels in indoor air can be lowered in a number of ways, from sub-slab depressurization to increasing the ventilation rate of the building. The four principal ways of reducing the amount of radon accumulating in a house are[6][125] Sub-slab depressurization (soil suction) by increasing under-floor ventilation; Improving the ventilation of the house and avoiding the transport of radon from the basement into living rooms; Installing a radon sump system in the basement; Installing a positive pressurization or positive supply ventilation system. According to the EPA[6] the method to reduce radon "...primarily used is a vent pipe system and fan, which pulls radon from beneath the house and vents it to the outside," which is also called sub-slab depressurization, active soil depressurization, or soil suction. Generally indoor radon can be mitigated by sub-slab depressurization and exhausting such radon-laden air to the outdoors, away from windows and other building openings. "EPA generally recommends methods which prevent the entry of radon. Soil suction, for example, prevents radon from entering your home by drawing the radon from below the home and venting it through a pipe, or pipes, to the air above the home where it is quickly diluted" and "EPA does not recommend the use of sealing alone to reduce radon because, by itself, sealing has not been shown to lower radon levels significantly or consistently".[126] Positive-pressure ventilation systems can be combined with a heat exchanger to recover energy in the process of exchanging air with the outside, and simply exhausting basement air to the outside is not necessarily a viable solution as this can actually draw radon gas into a dwelling. Homes built on a crawl space may benefit from a radon collector installed under a "radon barrier" (a sheet of plastic that covers the crawl space).[6][127] For crawlspaces, the EPA states "An effective method to reduce radon levels in crawlspace homes involves covering the earth floor with a high-density plastic sheet. A vent pipe and fan are used to draw the radon from under the sheet and vent it to the outdoors. This form of soil suction is called submembrane suction, and when properly applied is the most effective way to reduce radon levels in crawlspace homes."[126] See also[edit] Chemistry portal International Radon Project Lucas cell Radiation Exposure Compensation Act Radiohalo Books View or order collections of articles Radon Period 6 elements Noble gases Chemical elements (sorted alphabetically) Chemical elements (sorted by number) References[edit] Jump up^ Haynes, William M., ed. (2011). CRC Handbook of Chemistry and Physics (92nd ed.). CRC Press. p. 4.122.ISBN 1439855110. ^ Jump up to:a b "A Citizen's Guide to Radon | Radon | US EPA". Epa.gov. 2010-08-05. Retrieved 2012-04-28. ^ Jump up to:a b c d e f g h Toxicological profile for radon, Agency for Toxic Substances and Disease Registry, U.S. Public Health Service, In collaboration with U.S. Environmental Protection Agency, December 1990. 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"Some physical and chemical properties of element 118 (Eka-Em) and element 86 (Em)".Journal of Inorganic and Nuclear Chemistry (Elsevier Science Ltd.) 27 (3): 509. doi:10.1016/0022-1902(65)80255-X. Jump up^ Fields, Paul R.; Stein, Lawrence; Zirin, Moshe H. (1962). "Radon Fluoride". J. Amer. Chem. Soc. 84 (21): 4164.doi:10.1021/ja00880a048. Jump up^ Le radon, aspects historiques et perception du risque, Roland Masse. Jump up^ Radon Toxicity: Who is at Risk?, Agency for Toxic Substances and Disease Registry, 2000. Jump up^ Proctor, Robert N. The Nazi War on Cancer. Princeton University Press, 2000 p. 99 ISBN 0691070512. Jump up^ Edelstein, Michael R., William J. Makofske. Radon's deadly daughters: science, environmental policy, and the politics of risk. Rowman & Littlefield, 1998, pp. 36–39 ISBN 0847683346. Jump up^ Samet JM (1992). "Indoor radon and lung cancer. Estimating the risks". The Western journal of medicine156 (1): 25–9. PMC 1003141. PMID 1734594. 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(2005)."Radon in homes and risk of lung cancer: collaborative analysis of individual data from 13 European case-control studies". BMJ 330 (7485): 223.doi:10.1136/bmj.38308.477650.63. PMC 546066.PMID 15613366. Jump up^ Replies to Radon in homes and risk of lung cancer: collaborative analysis of individual data from 13 European case-control studies. Bmj.com. Retrieved on 2012-04-14. Jump up^ Kaufman, EL; Jacobson, JS; Hershman, DL; Desai, M; Neugut, AI (2008). "Effect of breast cancer radiotherapy and cigarette smoking on risk of second primary lung cancer".Journal of clinical oncology : official journal of the American Society of Clinical Oncology 26 (3): 392–8.doi:10.1200/JCO.2007.13.3033. PMID 18202415. Jump up^ Dauer, L. T.; Brooks, A. L.; Hoel, D. G.; Morgan, W. F.; Stram, D.; Tran, P. (2010). "Review and evaluation of updated research on the health effects associated with low-dose ionising radiation". Radiation Protection Dosimetry 140 (2): 103–36. doi:10.1093/rpd/ncq141. PMID 20413418. Jump up^ Lagarde, F; Axelsson, G; Damber, L; Mellander, H; Nyberg, F; Pershagen, G (2001). "Residential radon and lung cancer among never-smokers in Sweden". Epidemiology (Cambridge, Mass.) 12 (4): 396–404. doi:10.1097/00001648-200107000-00009. JSTOR 3703373.PMID 11416777. Jump up^ Risk Assessment of Radon in Drinking Water. Nap.edu (2003-06-01). Retrieved on 2011-08-20. Jump up^ "Basic Information about Radon in Drinking Water". Retrieved 2013-07-24. Jump up^ Godish, Thad (2001). Indoor Environmental Quality. CRC Press. ISBN 1-56670-402-2. Jump up^ World Health Organization. "Radon and cancer, fact sheet 291". ^ Jump up to:a b "Consumer's Guide to Radon Reduction: How to fix your home". EPA. Retrieved 2010-04-03. Jump up^ Building radon out a stepbystep guide on how to build radonresistant homes. DIANE Publishing. p. 46. ISBN 1-4289-0070-5. External links[edit] Wikimedia Commons has media related to Radon. Look up radon in Wiktionary, the free dictionary. Wikiversity has learning materials about Radon atom Radon and radon publications at the United States Environmental Protection Agency National Radon Program Services hosted by Kansas State University Radon Information from the UK Health Protection Agency Frequently Asked Questions About Radon at National Safety Council Radon at The Periodic Table of Videos (University of Nottingham) Radon and Lung Health from the American Lung Association Radon's impact on your health – Lung Association The Geology of Radon, James K. Otton, Linda C.S. Gundersen, and R. Randall Schumann Map referring to radon concentrations in England and Wales Home Buyer's and Seller's Guide to Radon An article by the International Association of Certified Home Inspectors (InterNACHI) EPA Federal Radon Mitigation Action Plan Toxicological Profile for Radon, Draft for Public Comment, Agency for Toxic Substances and Disease Registry, September 2008 Health Effects of Exposure to Radon: BEIR VI. Committee on Health Risks of Exposure to Radon (BEIR VI), National Research Council available on-line UNSCEAR 2000 Report to the General Assembly, with scientific annexes: Annex B: Exposures from natural radiation sources. Should you measure the radon concentration in your home?, Phillip N. Price, Andrew Gelman, in Statistics: A Guide to the Unknown, January 2004. 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Merci de votre patience. ) >How-To-Repeat: >Fix: >Release-Note: >Audit-Trail: >Unformatted: From owner-freebsd-i386@FreeBSD.ORG Mon Jan 27 07:41:36 2014 Return-Path: Delivered-To: freebsd-i386@smarthost.ysv.freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [IPv6:2001:1900:2254:206a::19:1]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id 263045E7; Mon, 27 Jan 2014 07:41:36 +0000 (UTC) Received: from freefall.freebsd.org (freefall.freebsd.org [IPv6:2001:1900:2254:206c::16:87]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id EEE701A22; Mon, 27 Jan 2014 07:41:35 +0000 (UTC) Received: from freefall.freebsd.org (localhost [127.0.0.1]) by freefall.freebsd.org (8.14.7/8.14.7) with ESMTP id s0R7fZvj064416; Mon, 27 Jan 2014 07:41:35 GMT (envelope-from remko@freefall.freebsd.org) Received: (from remko@localhost) by freefall.freebsd.org (8.14.7/8.14.7/Submit) id s0R7fZZX064415; Mon, 27 Jan 2014 07:41:35 GMT (envelope-from remko) Date: Mon, 27 Jan 2014 07:41:35 GMT Message-Id: <201401270741.s0R7fZZX064415@freefall.freebsd.org> To: kj987654321@hotmail.ca, remko@FreeBSD.org, freebsd-i386@FreeBSD.org, gnatsadm@FreeBSD.org From: remko@FreeBSD.org Subject: Re: junk/186153: I386 LINKING 86 RADIOACTIVE NUMBER AND 386 READING RADIOACTIVE WASTE X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 Precedence: list List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Mon, 27 Jan 2014 07:41:36 -0000 Synopsis: I386 LINKING 86 RADIOACTIVE NUMBER AND 386 READING RADIOACTIVE WASTE State-Changed-From-To: open->closed State-Changed-By: remko State-Changed-When: Mon Jan 27 06:17:08 UTC 2014 State-Changed-Why: Ticket is spam. Responsible-Changed-From-To: freebsd-i386->gnatsadm Responsible-Changed-By: remko Responsible-Changed-When: Mon Jan 27 06:17:08 UTC 2014 Responsible-Changed-Why: Ticket is spam. http://www.freebsd.org/cgi/query-pr.cgi?pr=186153 From owner-freebsd-i386@FreeBSD.ORG Mon Jan 27 07:44:03 2014 Return-Path: Delivered-To: freebsd-i386@smarthost.ysv.freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [8.8.178.115]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id ECFE76AB; Mon, 27 Jan 2014 07:44:03 +0000 (UTC) Received: from freefall.freebsd.org (freefall.freebsd.org [IPv6:2001:1900:2254:206c::16:87]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id BF5001A40; Mon, 27 Jan 2014 07:44:03 +0000 (UTC) Received: from freefall.freebsd.org (localhost [127.0.0.1]) by freefall.freebsd.org (8.14.7/8.14.7) with ESMTP id s0R7i3vQ064495; Mon, 27 Jan 2014 07:44:03 GMT (envelope-from remko@freefall.freebsd.org) Received: (from remko@localhost) by freefall.freebsd.org (8.14.7/8.14.7/Submit) id s0R7i2a3064494; Mon, 27 Jan 2014 07:44:02 GMT (envelope-from remko) Date: Mon, 27 Jan 2014 07:44:02 GMT Message-Id: <201401270744.s0R7i2a3064494@freefall.freebsd.org> To: barzog@telecom.by, remko@FreeBSD.org, freebsd-i386@FreeBSD.org From: remko@FreeBSD.org Subject: Re: i386/145079: [boot] BTX halted on P3 server X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 Precedence: list List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Mon, 27 Jan 2014 07:44:04 -0000 Synopsis: [boot] BTX halted on P3 server State-Changed-From-To: open->feedback State-Changed-By: remko State-Changed-When: Mon Jan 27 07:43:52 UTC 2014 State-Changed-Why: Hi, Did this ever get resolved? http://www.freebsd.org/cgi/query-pr.cgi?pr=145079 From owner-freebsd-i386@FreeBSD.ORG Mon Jan 27 07:51:22 2014 Return-Path: Delivered-To: freebsd-i386@smarthost.ysv.freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [8.8.178.115]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id A6A137A0; Mon, 27 Jan 2014 07:51:22 +0000 (UTC) Received: from freefall.freebsd.org (freefall.freebsd.org [IPv6:2001:1900:2254:206c::16:87]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id 7AE221ACB; Mon, 27 Jan 2014 07:51:22 +0000 (UTC) Received: from freefall.freebsd.org (localhost [127.0.0.1]) by freefall.freebsd.org (8.14.7/8.14.7) with ESMTP id s0R7pMU2064802; Mon, 27 Jan 2014 07:51:22 GMT (envelope-from remko@freefall.freebsd.org) Received: (from remko@localhost) by freefall.freebsd.org (8.14.7/8.14.7/Submit) id s0R7pLav064801; Mon, 27 Jan 2014 07:51:21 GMT (envelope-from remko) Date: Mon, 27 Jan 2014 07:51:21 GMT Message-Id: <201401270751.s0R7pLav064801@freefall.freebsd.org> To: ben@wordmatter.co.uk, remko@FreeBSD.org, freebsd-i386@FreeBSD.org From: remko@FreeBSD.org Subject: Re: i386/123990: [boot] BTX halted on Thinkpad x60s X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 Precedence: list List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Mon, 27 Jan 2014 07:51:22 -0000 Synopsis: [boot] BTX halted on Thinkpad x60s State-Changed-From-To: open->feedback State-Changed-By: remko State-Changed-When: Mon Jan 27 07:50:57 UTC 2014 State-Changed-Why: Hello, Is this problem still seen on today's releases? Our apologies for not picking this up sooner! http://www.freebsd.org/cgi/query-pr.cgi?pr=123990 From owner-freebsd-i386@FreeBSD.ORG Mon Jan 27 08:00:01 2014 Return-Path: Delivered-To: freebsd-i386@smarthost.ysv.freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [IPv6:2001:1900:2254:206a::19:1]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id 3A82D9C4 for ; Mon, 27 Jan 2014 08:00:01 +0000 (UTC) Received: from freefall.freebsd.org (freefall.freebsd.org [IPv6:2001:1900:2254:206c::16:87]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id 26C0D1AF8 for ; Mon, 27 Jan 2014 08:00:01 +0000 (UTC) Received: from freefall.freebsd.org (localhost [127.0.0.1]) by freefall.freebsd.org (8.14.7/8.14.7) with ESMTP id s0R801um067462 for ; Mon, 27 Jan 2014 08:00:01 GMT (envelope-from gnats@freefall.freebsd.org) Received: (from gnats@localhost) by freefall.freebsd.org (8.14.7/8.14.7/Submit) id s0R800Fn067461; Mon, 27 Jan 2014 08:00:00 GMT (envelope-from gnats) Date: Mon, 27 Jan 2014 08:00:00 GMT Message-Id: <201401270800.s0R800Fn067461@freefall.freebsd.org> To: freebsd-i386@FreeBSD.org Cc: From: Remko Lodder Subject: Re: i386/144956: [boot] Early minute-plus delay in boot on Intel Nehalem system X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 Precedence: list Reply-To: Remko Lodder List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Mon, 27 Jan 2014 08:00:01 -0000 The following reply was made to PR i386/144956; it has been noted by GNATS. From: Remko Lodder To: bug-followup@FreeBSD.org, cowens@greatbaysoftware.com Cc: Subject: Re: i386/144956: [boot] Early minute-plus delay in boot on Intel Nehalem system Date: Mon, 27 Jan 2014 08:49:19 +0100 --Apple-Mail=_E9864512-3D63-4410-A8F8-354AD417BD87 Content-Transfer-Encoding: quoted-printable Content-Type: text/plain; charset=windows-1252 Hello, Is this problem still seen with today=92s releases? Our apologies for not keeping up enough with this ticket. Thanks Remko --=20 /"\ Best regards, | remko@FreeBSD.org \ / Remko Lodder | remko@EFnet X http://www.evilcoder.org/ | / \ ASCII Ribbon Campaign | Against HTML Mail and News --Apple-Mail=_E9864512-3D63-4410-A8F8-354AD417BD87 Content-Transfer-Encoding: 7bit Content-Disposition: attachment; filename=signature.asc Content-Type: application/pgp-signature; name=signature.asc Content-Description: Message signed with OpenPGP using GPGMail -----BEGIN PGP SIGNATURE----- Comment: GPGTools - http://gpgtools.org iQIcBAEBAgAGBQJS5g+AAAoJEKjD27JZ84ywmAsP/3SHDYFspp6lUQcTfJEzZFxW r1t+w4eeqinhW0XZ2mju4c4xGRSELGHux2qVsn+bIOZ7yPzhnXBMLpmPoG50aZYz xYg8kFPdTbK8Weun5hqE4SQykIsWCMklXIIGRx3xB8BrqNha9815t3MQCVchZjFX oDZ2sFRMj7wn4moBSeZa7C4ognCPLsyYeTF1cW8bPCYviJcC+VlGoNWc/7yLc7+0 uNzHRmZgg37AYwyf/hXfR4tuZbRxHF1z0x5LQQaGAA+VgoAlRZEel/ISdLo2CRH+ FFH27f9yEt+VlxGGMa62lce/s7PNx9kuapz54OE3eb7/KKPmB7bI/wuL2TxbyY7T aukN0g7wjOl7Dszpn/KhSjf6TB2KjNlEXlEl5432yVFlksmB7Dxg3jk1ZiRc64zC P7wPFP3ksRfQLkIxsSAc2+MXTD/vF3svZQs82UnJPQjczNed4cyR+R4SMURL1Zfe GrxrdJmQpK24FO3WdyIBO8j42rnGyRssRD8xp7lAe63o3dOPdd+xIVN1CYoCWj9X RYSDd3P11teObwOdkX+ObMyq7oisOVLQTCs2wZOZmu4+yF9/3qpUkKxI9kEiumKG 06yGlW90zDc/Vm9DpQUuNd6nYYS3gWaOyUcDjy+IB4OV4p3RRbuL1BeaIQPNTKPL 5LNkkwwGS2sYu6FzPo7l =dNmz -----END PGP SIGNATURE----- --Apple-Mail=_E9864512-3D63-4410-A8F8-354AD417BD87-- From owner-freebsd-i386@FreeBSD.ORG Mon Jan 27 11:06:47 2014 Return-Path: Delivered-To: freebsd-i386@FreeBSD.org Received: from mx1.freebsd.org (mx1.freebsd.org [8.8.178.115]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id C91CFC4A for ; Mon, 27 Jan 2014 11:06:47 +0000 (UTC) Received: from freefall.freebsd.org (freefall.freebsd.org [IPv6:2001:1900:2254:206c::16:87]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id A550B1A85 for ; Mon, 27 Jan 2014 11:06:47 +0000 (UTC) Received: from freefall.freebsd.org (localhost [127.0.0.1]) by freefall.freebsd.org (8.14.7/8.14.7) with ESMTP id s0RB6lJp013014 for ; Mon, 27 Jan 2014 11:06:47 GMT (envelope-from owner-bugmaster@FreeBSD.org) Received: (from gnats@localhost) by freefall.freebsd.org (8.14.7/8.14.7/Submit) id s0RB6lPU013011 for freebsd-i386@FreeBSD.org; Mon, 27 Jan 2014 11:06:47 GMT (envelope-from owner-bugmaster@FreeBSD.org) Date: Mon, 27 Jan 2014 11:06:47 GMT Message-Id: <201401271106.s0RB6lPU013011@freefall.freebsd.org> X-Authentication-Warning: freefall.freebsd.org: gnats set sender to owner-bugmaster@FreeBSD.org using -f From: FreeBSD bugmaster To: freebsd-i386@FreeBSD.org Subject: Current problem reports assigned to freebsd-i386@FreeBSD.org X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 Precedence: list List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Mon, 27 Jan 2014 11:06:47 -0000 Note: to view an individual PR, use: http://www.freebsd.org/cgi/query-pr.cgi?pr=(number). The following is a listing of current problems submitted by FreeBSD users. These represent problem reports covering all versions including experimental development code and obsolete releases. S Tracker Resp. Description -------------------------------------------------------------------------------- o i386/183651 i386 Failed to compile erlang R15B03-1 with DTrace o i386/182658 i386 intel GMA 3150 doesn't work with kms(i915kms and xf86- o i386/182173 i386 Installation of FreeBSD fails: error extracting base.t o i386/180980 i386 [boot] When booting from the LiveCD 10-year-old server o i386/180599 i386 PCIe chipset test is not valid on recent Intel platfor o i386/179239 i386 FreeBSD 9.x branch breaks atkb device for IBM XSeries o i386/179115 i386 [uart] Writing to uart1 causes host to hang o i386/178565 i386 panic: pmap_promote_pde: page table page is out of ran o i386/176987 i386 [install] Unable to install FreeBSD 9.1-RELEASE on Sam o i386/176593 i386 huge memory use 2 application, XORG ,FIREFOX... o i386/175094 i386 I cant install packages from FreeBSD 9.1 image DVD ! o i386/174879 i386 cam(4) - installation - cam/scsi cd errors o i386/172333 i386 [boot] Kernel panic in multi processor mode o i386/171379 i386 Prototype/Body Mismatch for i386 legacy_pcib_read_conf o i386/170705 i386 [patch] AT realtime clock support routines fail on som o i386/169888 i386 [install] 9.0 i386 will not install on a Dell Dimensio o i386/169455 i386 [boot] BTX loader panics on Opteron3280 o i386/167670 i386 [boot] Laptop won't boot from FreeBSD iso, but will fr o i386/165906 i386 [panic] cannot install FreeBSD 9.0 on Dell PowerEdge 1 o i386/165561 i386 [hang] K8N890M-M Boot Hang o i386/165452 i386 [boot] FreeBSD's system installer stops when setting u o i386/165434 i386 [boot] Install fail Error 19 o i386/158653 i386 installing PC-BSD 9 Current with legacy USB Keyboard d o i386/158200 i386 wifi doesn't work on Acer AO751h, maybe WMI needs to b o i386/156229 i386 [hang] Server IBM x3400 is hangs with option SMP in Ke o i386/155695 i386 AMD Vision ultimate notebook HP Pavilion DV6 3109ER ov o i386/151122 i386 [boot] BTX 1.02 crashes on boot o i386/150766 i386 Dell Vostro 3700 siffle sous FreeBSD / Dell Vostro 370 o i386/149647 i386 [panic] Dell Inspiron 530 (FX09) panic at boot with 8. o i386/148848 i386 [hang] Load freezing at boot on HP Mini 311 o i386/148624 i386 PERC H200 Controller on Dell R610 Not recognized o i386/148509 i386 [boot] [patch] Improvements to i386/boot2's comments o i386/147458 i386 [boot] FreeBSD 8 can't boot from dvd, unless dvd is ex o i386/146446 i386 [install] FreeBSD 8.0 installation hangs at an early s o i386/146221 i386 [boot] incompatibility of the BTX with toshiba tecra R o i386/145718 i386 [est] [patch] fix freq calculation from MSR for CPUs w f i386/145079 i386 [boot] BTX halted on P3 server f i386/144956 i386 [boot] Early minute-plus delay in boot on Intel Nehale o i386/143587 i386 [boot] [hang] BTX 1.02 freezes upon assigning Bios C d o i386/142946 i386 [boot] Can't boot installation DVD. BTX halted o i386/142421 i386 [ata] optical drives not found o i386/142190 i386 [boot] BTX Loader issue on Gigabyte Motherboard o i386/142108 i386 [panic] vm_fault: fault on nofault entry, addr: c32a40 o i386/141675 i386 [boot] memory and BTX halted on Sunfire X4170 o i386/141470 i386 [boot] BTX halted immediatly on selecting any of the b o i386/141468 i386 [boot] FreeBSD 8.0 boot manager can cause disk not pro o i386/140655 i386 [panic] Lenovo X300: fatal trap 12 after /sbin/halt -p o i386/140645 i386 [irq] High INTERRUPT rate on CPU 0 o i386/140448 i386 [boot] BTX loader hangs after displaying BIOS drives o i386/140268 i386 [install] 8.0-RC* does not install on MSI MS-7255 [reg o i386/139999 i386 [panic] random freeze and crash o i386/139115 i386 [cpufreq] low cpu frequency reported [regression] o i386/138948 i386 [twa] [regression] da0: Fi o i386/138126 i386 [panic] Kernel panic trap 12 on bigger load o i386/133727 i386 chars [[[[[[[[[[[[[ occur during install process (sett o i386/132230 i386 [boot] [reboot] 7.1-RELEASE /boot/loader non-functiona o i386/130110 i386 [boot] BTX-Halted - booting with SAS/SATA Controller o i386/129550 i386 [pae] [kqueue] crash with PAE kernel o i386/127374 i386 Suspend/Resume with Keystroke only once on Thinkpad T4 o i386/127343 i386 [hang] System locks -- simular to PR 123729 o i386/127337 i386 [boot] FreeBSD 7.1/i386 BTX boot problem on Pavilion d o i386/126666 i386 [boot] [hang] boot failure for nForce 630i / GeForce 7 o i386/125592 i386 [hang] FreeBSD 7 server in hang o i386/124633 i386 [boot] [panic] 7.0 does not boot from CD o i386/124124 i386 [boot] [panic] Page fault while booting livefs iso of f i386/123990 i386 [boot] BTX halted on Thinkpad x60s o i386/79091 i386 [i386] [patch] Small optimization for i386/support.s 67 problems total. From owner-freebsd-i386@FreeBSD.ORG Thu Jan 30 03:59:54 2014 Return-Path: Delivered-To: i386@freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [8.8.178.115]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id 06C49BC8; Thu, 30 Jan 2014 03:59:54 +0000 (UTC) Received: from worker01.tb.des.no (worker01.tb.des.no [41.154.2.147]) (using TLSv1 with cipher DHE-RSA-AES256-SHA (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id 4C9C01DB0; Thu, 30 Jan 2014 03:59:52 +0000 (UTC) Received: from worker01.tb.des.no (localhost [127.0.0.1]) by worker01.tb.des.no (8.14.5/8.14.5) with ESMTP id s0U3xgkI015081; Thu, 30 Jan 2014 05:59:42 +0200 (SAST) (envelope-from tinderbox@freebsd.org) Received: (from tinderbox@localhost) by worker01.tb.des.no (8.14.5/8.14.5/Submit) id s0U3xg6U014906; Thu, 30 Jan 2014 03:59:42 GMT (envelope-from tinderbox@freebsd.org) Date: Thu, 30 Jan 2014 03:59:42 GMT Message-Id: <201401300359.s0U3xg6U014906@worker01.tb.des.no> X-Authentication-Warning: worker01.tb.des.no: tinderbox set sender to FreeBSD Tinderbox using -f Sender: FreeBSD Tinderbox From: FreeBSD Tinderbox To: FreeBSD Tinderbox , , Subject: [releng_10 tinderbox] failure on i386/i386 Precedence: bulk X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Thu, 30 Jan 2014 03:59:54 -0000 TB --- 2014-01-30 00:00:43 - tinderbox 2.20 running on worker01.tb.des.no TB --- 2014-01-30 00:00:43 - FreeBSD worker01.tb.des.no 9.1-RELEASE-p4 FreeBSD 9.1-RELEASE-p4 #0: Mon Jun 17 11:42:37 UTC 2013 root@amd64-builder.daemonology.net:/usr/obj/usr/src/sys/GENERIC amd64 TB --- 2014-01-30 00:00:43 - starting RELENG_10 tinderbox run for i386/i386 TB --- 2014-01-30 00:00:43 - cleaning the object tree TB --- 2014-01-30 00:00:43 - /usr/local/bin/svn stat --no-ignore /src TB --- 2014-01-30 00:01:36 - At svn revision 261278 TB --- 2014-01-30 00:01:37 - building world TB --- 2014-01-30 00:01:37 - CROSS_BUILD_TESTING=YES TB --- 2014-01-30 00:01:37 - MAKEOBJDIRPREFIX=/obj TB --- 2014-01-30 00:01:37 - PATH=/usr/bin:/usr/sbin:/bin:/sbin TB --- 2014-01-30 00:01:37 - SRCCONF=/dev/null TB --- 2014-01-30 00:01:37 - TARGET=i386 TB --- 2014-01-30 00:01:37 - TARGET_ARCH=i386 TB --- 2014-01-30 00:01:37 - TZ=UTC TB --- 2014-01-30 00:01:37 - __MAKE_CONF=/dev/null TB --- 2014-01-30 00:01:37 - cd /src TB --- 2014-01-30 00:01:37 - /usr/bin/make -B buildworld >>> Building an up-to-date make(1) >>> World build started on Thu Jan 30 00:01:48 UTC 2014 >>> Rebuilding the temporary build tree >>> stage 1.1: legacy release compatibility shims >>> stage 1.2: bootstrap tools >>> stage 2.1: cleaning up the object tree >>> stage 2.2: rebuilding the object tree >>> stage 2.3: build tools >>> stage 3: cross tools >>> stage 4.1: building includes >>> stage 4.2: building libraries >>> stage 4.3: make dependencies >>> stage 4.4: building everything >>> World build completed on Thu Jan 30 03:35:43 UTC 2014 TB --- 2014-01-30 03:35:43 - generating LINT kernel config TB --- 2014-01-30 03:35:43 - cd /src/sys/i386/conf TB --- 2014-01-30 03:35:43 - /usr/bin/make -B LINT TB --- 2014-01-30 03:35:43 - cd /src/sys/i386/conf TB --- 2014-01-30 03:35:43 - /usr/sbin/config -m LINT TB --- 2014-01-30 03:35:43 - building LINT kernel TB --- 2014-01-30 03:35:43 - CROSS_BUILD_TESTING=YES TB --- 2014-01-30 03:35:43 - MAKEOBJDIRPREFIX=/obj TB --- 2014-01-30 03:35:43 - PATH=/usr/bin:/usr/sbin:/bin:/sbin TB --- 2014-01-30 03:35:43 - SRCCONF=/dev/null TB --- 2014-01-30 03:35:43 - TARGET=i386 TB --- 2014-01-30 03:35:43 - TARGET_ARCH=i386 TB --- 2014-01-30 03:35:43 - TZ=UTC TB --- 2014-01-30 03:35:43 - __MAKE_CONF=/dev/null TB --- 2014-01-30 03:35:43 - cd /src TB --- 2014-01-30 03:35:43 - /usr/bin/make -B buildkernel KERNCONF=LINT >>> Kernel build for LINT started on Thu Jan 30 03:35:43 UTC 2014 >>> stage 1: configuring the kernel >>> stage 2.1: cleaning up the object tree >>> stage 2.2: rebuilding the object tree >>> stage 2.3: build tools >>> stage 3.1: making dependencies >>> stage 3.2: building everything [...] In file included from /src/sys/contrib/dev/acpica/include/platform/acfreebsd.h:73: /src/sys/sys/systm.h:306:20: error: redefinition of 'cpu_ticks' as different kind of symbol extern cpu_tick_f *cpu_ticks; ^ ./machine/cpu.h:86:10: note: previous definition is here return (cpu_ticks()); ^ 2 errors generated. *** Error code 1 Stop. bmake[1]: stopped in /obj/i386.i386/src/sys/LINT *** Error code 1 Stop. bmake: stopped in /src *** [buildkernel] Error code 1 Stop in /src. TB --- 2014-01-30 03:59:41 - WARNING: /usr/bin/make returned exit code 1 TB --- 2014-01-30 03:59:41 - ERROR: failed to build LINT kernel TB --- 2014-01-30 03:59:41 - 10817.62 user 3456.04 system 14337.83 real http://tinderbox.des.no/tinderbox-freebsd10-build-RELENG_10-i386-i386.full From owner-freebsd-i386@FreeBSD.ORG Thu Jan 30 11:30:03 2014 Return-Path: Delivered-To: i386@freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [8.8.178.115]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id 86DC012C; Thu, 30 Jan 2014 11:30:03 +0000 (UTC) Received: from worker01.tb.des.no (worker01.tb.des.no [41.154.2.147]) (using TLSv1 with cipher DHE-RSA-AES256-SHA (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id CE009118B; Thu, 30 Jan 2014 11:30:02 +0000 (UTC) Received: from worker01.tb.des.no (localhost [127.0.0.1]) by worker01.tb.des.no (8.14.5/8.14.5) with ESMTP id s0UBTw0q090262; Thu, 30 Jan 2014 13:29:58 +0200 (SAST) (envelope-from tinderbox@freebsd.org) Received: (from tinderbox@localhost) by worker01.tb.des.no (8.14.5/8.14.5/Submit) id s0UBTwLT090114; Thu, 30 Jan 2014 11:29:58 GMT (envelope-from tinderbox@freebsd.org) Date: Thu, 30 Jan 2014 11:29:58 GMT Message-Id: <201401301129.s0UBTwLT090114@worker01.tb.des.no> X-Authentication-Warning: worker01.tb.des.no: tinderbox set sender to FreeBSD Tinderbox using -f Sender: FreeBSD Tinderbox From: FreeBSD Tinderbox To: FreeBSD Tinderbox , , Subject: [releng_10 tinderbox] failure on i386/i386 Precedence: bulk X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Thu, 30 Jan 2014 11:30:03 -0000 TB --- 2014-01-30 07:30:43 - tinderbox 2.20 running on worker01.tb.des.no TB --- 2014-01-30 07:30:43 - FreeBSD worker01.tb.des.no 9.1-RELEASE-p4 FreeBSD 9.1-RELEASE-p4 #0: Mon Jun 17 11:42:37 UTC 2013 root@amd64-builder.daemonology.net:/usr/obj/usr/src/sys/GENERIC amd64 TB --- 2014-01-30 07:30:43 - starting RELENG_10 tinderbox run for i386/i386 TB --- 2014-01-30 07:30:43 - cleaning the object tree TB --- 2014-01-30 07:31:39 - /usr/local/bin/svn stat --no-ignore /src TB --- 2014-01-30 07:31:45 - At svn revision 261282 TB --- 2014-01-30 07:31:46 - building world TB --- 2014-01-30 07:31:46 - CROSS_BUILD_TESTING=YES TB --- 2014-01-30 07:31:46 - MAKEOBJDIRPREFIX=/obj TB --- 2014-01-30 07:31:46 - PATH=/usr/bin:/usr/sbin:/bin:/sbin TB --- 2014-01-30 07:31:46 - SRCCONF=/dev/null TB --- 2014-01-30 07:31:46 - TARGET=i386 TB --- 2014-01-30 07:31:46 - TARGET_ARCH=i386 TB --- 2014-01-30 07:31:46 - TZ=UTC TB --- 2014-01-30 07:31:46 - __MAKE_CONF=/dev/null TB --- 2014-01-30 07:31:46 - cd /src TB --- 2014-01-30 07:31:46 - /usr/bin/make -B buildworld >>> Building an up-to-date make(1) >>> World build started on Thu Jan 30 07:31:57 UTC 2014 >>> Rebuilding the temporary build tree >>> stage 1.1: legacy release compatibility shims >>> stage 1.2: bootstrap tools >>> stage 2.1: cleaning up the object tree >>> stage 2.2: rebuilding the object tree >>> stage 2.3: build tools >>> stage 3: cross tools >>> stage 4.1: building includes >>> stage 4.2: building libraries >>> stage 4.3: make dependencies >>> stage 4.4: building everything >>> World build completed on Thu Jan 30 11:06:02 UTC 2014 TB --- 2014-01-30 11:06:02 - generating LINT kernel config TB --- 2014-01-30 11:06:02 - cd /src/sys/i386/conf TB --- 2014-01-30 11:06:02 - /usr/bin/make -B LINT TB --- 2014-01-30 11:06:02 - cd /src/sys/i386/conf TB --- 2014-01-30 11:06:02 - /usr/sbin/config -m LINT TB --- 2014-01-30 11:06:02 - building LINT kernel TB --- 2014-01-30 11:06:02 - CROSS_BUILD_TESTING=YES TB --- 2014-01-30 11:06:02 - MAKEOBJDIRPREFIX=/obj TB --- 2014-01-30 11:06:02 - PATH=/usr/bin:/usr/sbin:/bin:/sbin TB --- 2014-01-30 11:06:02 - SRCCONF=/dev/null TB --- 2014-01-30 11:06:02 - TARGET=i386 TB --- 2014-01-30 11:06:02 - TARGET_ARCH=i386 TB --- 2014-01-30 11:06:02 - TZ=UTC TB --- 2014-01-30 11:06:02 - __MAKE_CONF=/dev/null TB --- 2014-01-30 11:06:02 - cd /src TB --- 2014-01-30 11:06:02 - /usr/bin/make -B buildkernel KERNCONF=LINT >>> Kernel build for LINT started on Thu Jan 30 11:06:03 UTC 2014 >>> stage 1: configuring the kernel >>> stage 2.1: cleaning up the object tree >>> stage 2.2: rebuilding the object tree >>> stage 2.3: build tools >>> stage 3.1: making dependencies >>> stage 3.2: building everything [...] In file included from /src/sys/contrib/dev/acpica/include/platform/acfreebsd.h:73: /src/sys/sys/systm.h:306:20: error: redefinition of 'cpu_ticks' as different kind of symbol extern cpu_tick_f *cpu_ticks; ^ ./machine/cpu.h:86:10: note: previous definition is here return (cpu_ticks()); ^ 2 errors generated. *** Error code 1 Stop. bmake[1]: stopped in /obj/i386.i386/src/sys/LINT *** Error code 1 Stop. bmake: stopped in /src *** [buildkernel] Error code 1 Stop in /src. TB --- 2014-01-30 11:29:57 - WARNING: /usr/bin/make returned exit code 1 TB --- 2014-01-30 11:29:57 - ERROR: failed to build LINT kernel TB --- 2014-01-30 11:29:57 - 10828.25 user 3453.30 system 14353.85 real http://tinderbox.des.no/tinderbox-freebsd10-build-RELENG_10-i386-i386.full From owner-freebsd-i386@FreeBSD.ORG Thu Jan 30 18:59:45 2014 Return-Path: Delivered-To: i386@freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [IPv6:2001:1900:2254:206a::19:1]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id 6F916390; Thu, 30 Jan 2014 18:59:45 +0000 (UTC) Received: from worker01.tb.des.no (worker01.tb.des.no [41.154.2.147]) (using TLSv1 with cipher DHE-RSA-AES256-SHA (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id B52D21A26; Thu, 30 Jan 2014 18:59:44 +0000 (UTC) Received: from worker01.tb.des.no (localhost [127.0.0.1]) by worker01.tb.des.no (8.14.5/8.14.5) with ESMTP id s0UIxebS069698; Thu, 30 Jan 2014 20:59:40 +0200 (SAST) (envelope-from tinderbox@freebsd.org) Received: (from tinderbox@localhost) by worker01.tb.des.no (8.14.5/8.14.5/Submit) id s0UIxd71069586; Thu, 30 Jan 2014 18:59:39 GMT (envelope-from tinderbox@freebsd.org) Date: Thu, 30 Jan 2014 18:59:39 GMT Message-Id: <201401301859.s0UIxd71069586@worker01.tb.des.no> X-Authentication-Warning: worker01.tb.des.no: tinderbox set sender to FreeBSD Tinderbox using -f Sender: FreeBSD Tinderbox From: FreeBSD Tinderbox To: FreeBSD Tinderbox , , Subject: [releng_10 tinderbox] failure on i386/i386 Precedence: bulk X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Thu, 30 Jan 2014 18:59:45 -0000 TB --- 2014-01-30 15:00:42 - tinderbox 2.20 running on worker01.tb.des.no TB --- 2014-01-30 15:00:42 - FreeBSD worker01.tb.des.no 9.1-RELEASE-p4 FreeBSD 9.1-RELEASE-p4 #0: Mon Jun 17 11:42:37 UTC 2013 root@amd64-builder.daemonology.net:/usr/obj/usr/src/sys/GENERIC amd64 TB --- 2014-01-30 15:00:42 - starting RELENG_10 tinderbox run for i386/i386 TB --- 2014-01-30 15:00:42 - cleaning the object tree TB --- 2014-01-30 15:01:39 - /usr/local/bin/svn stat --no-ignore /src TB --- 2014-01-30 15:01:45 - At svn revision 261289 TB --- 2014-01-30 15:01:46 - building world TB --- 2014-01-30 15:01:46 - CROSS_BUILD_TESTING=YES TB --- 2014-01-30 15:01:46 - MAKEOBJDIRPREFIX=/obj TB --- 2014-01-30 15:01:46 - PATH=/usr/bin:/usr/sbin:/bin:/sbin TB --- 2014-01-30 15:01:46 - SRCCONF=/dev/null TB --- 2014-01-30 15:01:46 - TARGET=i386 TB --- 2014-01-30 15:01:46 - TARGET_ARCH=i386 TB --- 2014-01-30 15:01:46 - TZ=UTC TB --- 2014-01-30 15:01:46 - __MAKE_CONF=/dev/null TB --- 2014-01-30 15:01:46 - cd /src TB --- 2014-01-30 15:01:46 - /usr/bin/make -B buildworld >>> Building an up-to-date make(1) >>> World build started on Thu Jan 30 15:01:57 UTC 2014 >>> Rebuilding the temporary build tree >>> stage 1.1: legacy release compatibility shims >>> stage 1.2: bootstrap tools >>> stage 2.1: cleaning up the object tree >>> stage 2.2: rebuilding the object tree >>> stage 2.3: build tools >>> stage 3: cross tools >>> stage 4.1: building includes >>> stage 4.2: building libraries >>> stage 4.3: make dependencies >>> stage 4.4: building everything >>> World build completed on Thu Jan 30 18:35:38 UTC 2014 TB --- 2014-01-30 18:35:38 - generating LINT kernel config TB --- 2014-01-30 18:35:38 - cd /src/sys/i386/conf TB --- 2014-01-30 18:35:38 - /usr/bin/make -B LINT TB --- 2014-01-30 18:35:38 - cd /src/sys/i386/conf TB --- 2014-01-30 18:35:38 - /usr/sbin/config -m LINT TB --- 2014-01-30 18:35:38 - building LINT kernel TB --- 2014-01-30 18:35:38 - CROSS_BUILD_TESTING=YES TB --- 2014-01-30 18:35:38 - MAKEOBJDIRPREFIX=/obj TB --- 2014-01-30 18:35:38 - PATH=/usr/bin:/usr/sbin:/bin:/sbin TB --- 2014-01-30 18:35:38 - SRCCONF=/dev/null TB --- 2014-01-30 18:35:38 - TARGET=i386 TB --- 2014-01-30 18:35:38 - TARGET_ARCH=i386 TB --- 2014-01-30 18:35:38 - TZ=UTC TB --- 2014-01-30 18:35:38 - __MAKE_CONF=/dev/null TB --- 2014-01-30 18:35:38 - cd /src TB --- 2014-01-30 18:35:38 - /usr/bin/make -B buildkernel KERNCONF=LINT >>> Kernel build for LINT started on Thu Jan 30 18:35:38 UTC 2014 >>> stage 1: configuring the kernel >>> stage 2.1: cleaning up the object tree >>> stage 2.2: rebuilding the object tree >>> stage 2.3: build tools >>> stage 3.1: making dependencies >>> stage 3.2: building everything [...] In file included from /src/sys/contrib/dev/acpica/include/platform/acfreebsd.h:73: /src/sys/sys/systm.h:306:20: error: redefinition of 'cpu_ticks' as different kind of symbol extern cpu_tick_f *cpu_ticks; ^ ./machine/cpu.h:86:10: note: previous definition is here return (cpu_ticks()); ^ 2 errors generated. *** Error code 1 Stop. bmake[1]: stopped in /obj/i386.i386/src/sys/LINT *** Error code 1 Stop. bmake: stopped in /src *** [buildkernel] Error code 1 Stop in /src. TB --- 2014-01-30 18:59:38 - WARNING: /usr/bin/make returned exit code 1 TB --- 2014-01-30 18:59:38 - ERROR: failed to build LINT kernel TB --- 2014-01-30 18:59:38 - 10816.16 user 3442.55 system 14336.69 real http://tinderbox.des.no/tinderbox-freebsd10-build-RELENG_10-i386-i386.full From owner-freebsd-i386@FreeBSD.ORG Thu Jan 30 20:47:52 2014 Return-Path: Delivered-To: i386@freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [IPv6:2001:1900:2254:206a::19:1]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id 914692B6; Thu, 30 Jan 2014 20:47:52 +0000 (UTC) Received: from smtp-out-02.shaw.ca (smtp-out-03.shaw.ca [64.59.136.139]) by mx1.freebsd.org (Postfix) with ESMTP id 55BD01398; Thu, 30 Jan 2014 20:47:51 +0000 (UTC) X-Cloudmark-SP-Filtered: true X-Cloudmark-SP-Result: v=1.1 cv=ryrf5q5p6c4dCQYR2lAej91p2ozDt6sfPnRAuS/Q8hc= c=1 sm=1 a=UVcHzDrGFPwA:10 a=QrugwKR0C_UA:10 a=wAGQQ9Az6v0A:10 a=BLceEmwcHowA:10 a=ICAaq7hcmGcA:10 a=kj9zAlcOel0A:10 a=IbtKDeXwb2+SRU442/pi3A==:17 a=2ZXkF38bAAAA:8 a=BWvPGDcYAAAA:8 a=6I5d2MoRAAAA:8 a=VpqCP0fW7iNGqdgOsJoA:9 a=CjuIK1q_8ugA:10 a=XB88bQRR1OQA:10 a=V7tsTZBp22UA:10 a=SV7veod9ZcQA:10 a=HpAAvcLHHh0Zw7uRqdWCyQ==:117 Received: from unknown (HELO spqr.komquats.com) ([96.50.7.119]) by smtp-out-02.shaw.ca with ESMTP; 30 Jan 2014 13:47:44 -0700 Received: from slippy.cwsent.com (slippy8 [10.2.2.6]) by spqr.komquats.com (Postfix) with ESMTP id 222AF9BCD; Thu, 30 Jan 2014 12:47:43 -0800 (PST) Received: from slippy (localhost [127.0.0.1]) by slippy.cwsent.com (8.14.7/8.14.7) with ESMTP id s0UKliXK005726; Thu, 30 Jan 2014 12:47:44 -0800 (PST) (envelope-from Cy.Schubert@komquats.com) Message-Id: <201401302047.s0UKliXK005726@slippy.cwsent.com> X-Mailer: exmh version 2.8.0 04/21/2012 with nmh-1.5 From: Cy Schubert X-os: FreeBSD X-Sender: cy@cwsent.com X-URL: http://www.komquats.com/ To: stable@freebsd.org, i386@freebsd.org Subject: Re: [releng_10 tinderbox] failure on i386/i386 In-Reply-To: Message from FreeBSD Tinderbox of "Thu, 30 Jan 2014 18:59:39 +0000." <201401301859.s0UIxd71069586@worker01.tb.des.no> Mime-Version: 1.0 Content-Type: text/plain; charset=us-ascii Date: Thu, 30 Jan 2014 12:47:44 -0800 X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 Precedence: list Reply-To: Cy Schubert List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Thu, 30 Jan 2014 20:47:52 -0000 In message <201401301859.s0UIxd71069586@worker01.tb.des.no>, FreeBSD Tinderbox writes: > TB --- 2014-01-30 15:00:42 - tinderbox 2.20 running on worker01.tb.des.no > TB --- 2014-01-30 15:00:42 - FreeBSD worker01.tb.des.no 9.1-RELEASE-p4 FreeBS > D 9.1-RELEASE-p4 #0: Mon Jun 17 11:42:37 UTC 2013 root@amd64-builder.daem > onology.net:/usr/obj/usr/src/sys/GENERIC amd64 > TB --- 2014-01-30 15:00:42 - starting RELENG_10 tinderbox run for i386/i386 > TB --- 2014-01-30 15:00:42 - cleaning the object tree > TB --- 2014-01-30 15:01:39 - /usr/local/bin/svn stat --no-ignore /src > TB --- 2014-01-30 15:01:45 - At svn revision 261289 > TB --- 2014-01-30 15:01:46 - building world > TB --- 2014-01-30 15:01:46 - CROSS_BUILD_TESTING=YES > TB --- 2014-01-30 15:01:46 - MAKEOBJDIRPREFIX=/obj > TB --- 2014-01-30 15:01:46 - PATH=/usr/bin:/usr/sbin:/bin:/sbin > TB --- 2014-01-30 15:01:46 - SRCCONF=/dev/null > TB --- 2014-01-30 15:01:46 - TARGET=i386 > TB --- 2014-01-30 15:01:46 - TARGET_ARCH=i386 > TB --- 2014-01-30 15:01:46 - TZ=UTC > TB --- 2014-01-30 15:01:46 - __MAKE_CONF=/dev/null > TB --- 2014-01-30 15:01:46 - cd /src > TB --- 2014-01-30 15:01:46 - /usr/bin/make -B buildworld > >>> Building an up-to-date make(1) > >>> World build started on Thu Jan 30 15:01:57 UTC 2014 > >>> Rebuilding the temporary build tree > >>> stage 1.1: legacy release compatibility shims > >>> stage 1.2: bootstrap tools > >>> stage 2.1: cleaning up the object tree > >>> stage 2.2: rebuilding the object tree > >>> stage 2.3: build tools > >>> stage 3: cross tools > >>> stage 4.1: building includes > >>> stage 4.2: building libraries > >>> stage 4.3: make dependencies > >>> stage 4.4: building everything > >>> World build completed on Thu Jan 30 18:35:38 UTC 2014 > TB --- 2014-01-30 18:35:38 - generating LINT kernel config > TB --- 2014-01-30 18:35:38 - cd /src/sys/i386/conf > TB --- 2014-01-30 18:35:38 - /usr/bin/make -B LINT > TB --- 2014-01-30 18:35:38 - cd /src/sys/i386/conf > TB --- 2014-01-30 18:35:38 - /usr/sbin/config -m LINT > TB --- 2014-01-30 18:35:38 - building LINT kernel > TB --- 2014-01-30 18:35:38 - CROSS_BUILD_TESTING=YES > TB --- 2014-01-30 18:35:38 - MAKEOBJDIRPREFIX=/obj > TB --- 2014-01-30 18:35:38 - PATH=/usr/bin:/usr/sbin:/bin:/sbin > TB --- 2014-01-30 18:35:38 - SRCCONF=/dev/null > TB --- 2014-01-30 18:35:38 - TARGET=i386 > TB --- 2014-01-30 18:35:38 - TARGET_ARCH=i386 > TB --- 2014-01-30 18:35:38 - TZ=UTC > TB --- 2014-01-30 18:35:38 - __MAKE_CONF=/dev/null > TB --- 2014-01-30 18:35:38 - cd /src > TB --- 2014-01-30 18:35:38 - /usr/bin/make -B buildkernel KERNCONF=LINT > >>> Kernel build for LINT started on Thu Jan 30 18:35:38 UTC 2014 > >>> stage 1: configuring the kernel > >>> stage 2.1: cleaning up the object tree > >>> stage 2.2: rebuilding the object tree > >>> stage 2.3: build tools > >>> stage 3.1: making dependencies > >>> stage 3.2: building everything > [...] > In file included from /src/sys/contrib/dev/acpica/include/platform/acfreebsd. > h:73: > /src/sys/sys/systm.h:306:20: error: redefinition of 'cpu_ticks' as different > kind of symbol > extern cpu_tick_f *cpu_ticks; > ^ > ./machine/cpu.h:86:10: note: previous definition is here > return (cpu_ticks()); > ^ > 2 errors generated. > *** Error code 1 > > Stop. > bmake[1]: stopped in /obj/i386.i386/src/sys/LINT > *** Error code 1 > > Stop. > bmake: stopped in /src > *** [buildkernel] Error code 1 > > Stop in /src. > TB --- 2014-01-30 18:59:38 - WARNING: /usr/bin/make returned exit code 1 > TB --- 2014-01-30 18:59:38 - ERROR: failed to build LINT kernel > TB --- 2014-01-30 18:59:38 - 10816.16 user 3442.55 system 14336.69 real Haven't tested this yet but this should fix 10-STABLE and -CURRENT. Index: acpi_wakeup.c =================================================================== --- acpi_wakeup.c (revision 261221) +++ acpi_wakeup.c (working copy) @@ -43,7 +43,9 @@ #include #include +#ifdef __amd64__ #include +#endif #include #include #include -- Cheers, Cy Schubert FreeBSD UNIX: Web: http://www.FreeBSD.org The need of the many outweighs the greed of the few. From owner-freebsd-i386@FreeBSD.ORG Fri Jan 31 02:29:47 2014 Return-Path: Delivered-To: i386@freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [IPv6:2001:1900:2254:206a::19:1]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id EDF88AD7; Fri, 31 Jan 2014 02:29:46 +0000 (UTC) Received: from worker01.tb.des.no (worker01.tb.des.no [41.154.2.147]) (using TLSv1 with cipher DHE-RSA-AES256-SHA (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id 3ECB41F4C; Fri, 31 Jan 2014 02:29:45 +0000 (UTC) Received: from worker01.tb.des.no (localhost [127.0.0.1]) by worker01.tb.des.no (8.14.5/8.14.5) with ESMTP id s0V2Tfep048346; Fri, 31 Jan 2014 04:29:41 +0200 (SAST) (envelope-from tinderbox@freebsd.org) Received: (from tinderbox@localhost) by worker01.tb.des.no (8.14.5/8.14.5/Submit) id s0V2Tfi2048284; Fri, 31 Jan 2014 02:29:41 GMT (envelope-from tinderbox@freebsd.org) Date: Fri, 31 Jan 2014 02:29:41 GMT Message-Id: <201401310229.s0V2Tfi2048284@worker01.tb.des.no> X-Authentication-Warning: worker01.tb.des.no: tinderbox set sender to FreeBSD Tinderbox using -f Sender: FreeBSD Tinderbox From: FreeBSD Tinderbox To: FreeBSD Tinderbox , , Subject: [releng_10 tinderbox] failure on i386/i386 Precedence: bulk X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Fri, 31 Jan 2014 02:29:47 -0000 TB --- 2014-01-30 22:30:42 - tinderbox 2.20 running on worker01.tb.des.no TB --- 2014-01-30 22:30:42 - FreeBSD worker01.tb.des.no 9.1-RELEASE-p4 FreeBSD 9.1-RELEASE-p4 #0: Mon Jun 17 11:42:37 UTC 2013 root@amd64-builder.daemonology.net:/usr/obj/usr/src/sys/GENERIC amd64 TB --- 2014-01-30 22:30:42 - starting RELENG_10 tinderbox run for i386/i386 TB --- 2014-01-30 22:30:42 - cleaning the object tree TB --- 2014-01-30 22:31:40 - /usr/local/bin/svn stat --no-ignore /src TB --- 2014-01-30 22:31:47 - At svn revision 261303 TB --- 2014-01-30 22:31:48 - building world TB --- 2014-01-30 22:31:48 - CROSS_BUILD_TESTING=YES TB --- 2014-01-30 22:31:48 - MAKEOBJDIRPREFIX=/obj TB --- 2014-01-30 22:31:48 - PATH=/usr/bin:/usr/sbin:/bin:/sbin TB --- 2014-01-30 22:31:48 - SRCCONF=/dev/null TB --- 2014-01-30 22:31:48 - TARGET=i386 TB --- 2014-01-30 22:31:48 - TARGET_ARCH=i386 TB --- 2014-01-30 22:31:48 - TZ=UTC TB --- 2014-01-30 22:31:48 - __MAKE_CONF=/dev/null TB --- 2014-01-30 22:31:48 - cd /src TB --- 2014-01-30 22:31:48 - /usr/bin/make -B buildworld >>> Building an up-to-date make(1) >>> World build started on Thu Jan 30 22:31:58 UTC 2014 >>> Rebuilding the temporary build tree >>> stage 1.1: legacy release compatibility shims >>> stage 1.2: bootstrap tools >>> stage 2.1: cleaning up the object tree >>> stage 2.2: rebuilding the object tree >>> stage 2.3: build tools >>> stage 3: cross tools >>> stage 4.1: building includes >>> stage 4.2: building libraries >>> stage 4.3: make dependencies >>> stage 4.4: building everything >>> World build completed on Fri Jan 31 02:05:44 UTC 2014 TB --- 2014-01-31 02:05:44 - generating LINT kernel config TB --- 2014-01-31 02:05:44 - cd /src/sys/i386/conf TB --- 2014-01-31 02:05:44 - /usr/bin/make -B LINT TB --- 2014-01-31 02:05:44 - cd /src/sys/i386/conf TB --- 2014-01-31 02:05:44 - /usr/sbin/config -m LINT TB --- 2014-01-31 02:05:44 - building LINT kernel TB --- 2014-01-31 02:05:44 - CROSS_BUILD_TESTING=YES TB --- 2014-01-31 02:05:44 - MAKEOBJDIRPREFIX=/obj TB --- 2014-01-31 02:05:44 - PATH=/usr/bin:/usr/sbin:/bin:/sbin TB --- 2014-01-31 02:05:44 - SRCCONF=/dev/null TB --- 2014-01-31 02:05:44 - TARGET=i386 TB --- 2014-01-31 02:05:44 - TARGET_ARCH=i386 TB --- 2014-01-31 02:05:44 - TZ=UTC TB --- 2014-01-31 02:05:44 - __MAKE_CONF=/dev/null TB --- 2014-01-31 02:05:44 - cd /src TB --- 2014-01-31 02:05:44 - /usr/bin/make -B buildkernel KERNCONF=LINT >>> Kernel build for LINT started on Fri Jan 31 02:05:45 UTC 2014 >>> stage 1: configuring the kernel >>> stage 2.1: cleaning up the object tree >>> stage 2.2: rebuilding the object tree >>> stage 2.3: build tools >>> stage 3.1: making dependencies >>> stage 3.2: building everything [...] In file included from /src/sys/contrib/dev/acpica/include/platform/acfreebsd.h:73: /src/sys/sys/systm.h:306:20: error: redefinition of 'cpu_ticks' as different kind of symbol extern cpu_tick_f *cpu_ticks; ^ ./machine/cpu.h:86:10: note: previous definition is here return (cpu_ticks()); ^ 2 errors generated. *** Error code 1 Stop. bmake[1]: stopped in /obj/i386.i386/src/sys/LINT *** Error code 1 Stop. bmake: stopped in /src *** [buildkernel] Error code 1 Stop in /src. TB --- 2014-01-31 02:29:40 - WARNING: /usr/bin/make returned exit code 1 TB --- 2014-01-31 02:29:40 - ERROR: failed to build LINT kernel TB --- 2014-01-31 02:29:40 - 10833.03 user 3457.57 system 14338.07 real http://tinderbox.des.no/tinderbox-freebsd10-build-RELENG_10-i386-i386.full From owner-freebsd-i386@FreeBSD.ORG Fri Jan 31 10:00:06 2014 Return-Path: Delivered-To: i386@freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [IPv6:2001:1900:2254:206a::19:1]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id 3FCD12BF; Fri, 31 Jan 2014 10:00:06 +0000 (UTC) Received: from worker01.tb.des.no (worker01.tb.des.no [41.154.2.147]) (using TLSv1 with cipher DHE-RSA-AES256-SHA (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id 852191EF0; Fri, 31 Jan 2014 10:00:05 +0000 (UTC) Received: from worker01.tb.des.no (localhost [127.0.0.1]) by worker01.tb.des.no (8.14.5/8.14.5) with ESMTP id s0V9xsmJ025334; Fri, 31 Jan 2014 11:59:54 +0200 (SAST) (envelope-from tinderbox@freebsd.org) Received: (from tinderbox@localhost) by worker01.tb.des.no (8.14.5/8.14.5/Submit) id s0V9xsRe025206; Fri, 31 Jan 2014 09:59:54 GMT (envelope-from tinderbox@freebsd.org) Date: Fri, 31 Jan 2014 09:59:54 GMT Message-Id: <201401310959.s0V9xsRe025206@worker01.tb.des.no> X-Authentication-Warning: worker01.tb.des.no: tinderbox set sender to FreeBSD Tinderbox using -f Sender: FreeBSD Tinderbox From: FreeBSD Tinderbox To: FreeBSD Tinderbox , , Subject: [releng_10 tinderbox] failure on i386/i386 Precedence: bulk X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Fri, 31 Jan 2014 10:00:06 -0000 TB --- 2014-01-31 06:00:43 - tinderbox 2.20 running on worker01.tb.des.no TB --- 2014-01-31 06:00:43 - FreeBSD worker01.tb.des.no 9.1-RELEASE-p4 FreeBSD 9.1-RELEASE-p4 #0: Mon Jun 17 11:42:37 UTC 2013 root@amd64-builder.daemonology.net:/usr/obj/usr/src/sys/GENERIC amd64 TB --- 2014-01-31 06:00:43 - starting RELENG_10 tinderbox run for i386/i386 TB --- 2014-01-31 06:00:43 - cleaning the object tree TB --- 2014-01-31 06:01:41 - /usr/local/bin/svn stat --no-ignore /src TB --- 2014-01-31 06:01:47 - At svn revision 261314 TB --- 2014-01-31 06:01:48 - building world TB --- 2014-01-31 06:01:48 - CROSS_BUILD_TESTING=YES TB --- 2014-01-31 06:01:48 - MAKEOBJDIRPREFIX=/obj TB --- 2014-01-31 06:01:48 - PATH=/usr/bin:/usr/sbin:/bin:/sbin TB --- 2014-01-31 06:01:48 - SRCCONF=/dev/null TB --- 2014-01-31 06:01:48 - TARGET=i386 TB --- 2014-01-31 06:01:48 - TARGET_ARCH=i386 TB --- 2014-01-31 06:01:48 - TZ=UTC TB --- 2014-01-31 06:01:48 - __MAKE_CONF=/dev/null TB --- 2014-01-31 06:01:48 - cd /src TB --- 2014-01-31 06:01:48 - /usr/bin/make -B buildworld >>> Building an up-to-date make(1) >>> World build started on Fri Jan 31 06:01:59 UTC 2014 >>> Rebuilding the temporary build tree >>> stage 1.1: legacy release compatibility shims >>> stage 1.2: bootstrap tools >>> stage 2.1: cleaning up the object tree >>> stage 2.2: rebuilding the object tree >>> stage 2.3: build tools >>> stage 3: cross tools >>> stage 4.1: building includes >>> stage 4.2: building libraries >>> stage 4.3: make dependencies >>> stage 4.4: building everything >>> World build completed on Fri Jan 31 09:35:56 UTC 2014 TB --- 2014-01-31 09:35:56 - generating LINT kernel config TB --- 2014-01-31 09:35:56 - cd /src/sys/i386/conf TB --- 2014-01-31 09:35:56 - /usr/bin/make -B LINT TB --- 2014-01-31 09:35:56 - cd /src/sys/i386/conf TB --- 2014-01-31 09:35:56 - /usr/sbin/config -m LINT TB --- 2014-01-31 09:35:56 - building LINT kernel TB --- 2014-01-31 09:35:56 - CROSS_BUILD_TESTING=YES TB --- 2014-01-31 09:35:56 - MAKEOBJDIRPREFIX=/obj TB --- 2014-01-31 09:35:56 - PATH=/usr/bin:/usr/sbin:/bin:/sbin TB --- 2014-01-31 09:35:56 - SRCCONF=/dev/null TB --- 2014-01-31 09:35:56 - TARGET=i386 TB --- 2014-01-31 09:35:56 - TARGET_ARCH=i386 TB --- 2014-01-31 09:35:56 - TZ=UTC TB --- 2014-01-31 09:35:56 - __MAKE_CONF=/dev/null TB --- 2014-01-31 09:35:56 - cd /src TB --- 2014-01-31 09:35:56 - /usr/bin/make -B buildkernel KERNCONF=LINT >>> Kernel build for LINT started on Fri Jan 31 09:35:56 UTC 2014 >>> stage 1: configuring the kernel >>> stage 2.1: cleaning up the object tree >>> stage 2.2: rebuilding the object tree >>> stage 2.3: build tools >>> stage 3.1: making dependencies >>> stage 3.2: building everything [...] In file included from /src/sys/contrib/dev/acpica/include/platform/acfreebsd.h:73: /src/sys/sys/systm.h:306:20: error: redefinition of 'cpu_ticks' as different kind of symbol extern cpu_tick_f *cpu_ticks; ^ ./machine/cpu.h:86:10: note: previous definition is here return (cpu_ticks()); ^ 2 errors generated. *** Error code 1 Stop. bmake[1]: stopped in /obj/i386.i386/src/sys/LINT *** Error code 1 Stop. bmake: stopped in /src *** [buildkernel] Error code 1 Stop in /src. TB --- 2014-01-31 09:59:53 - WARNING: /usr/bin/make returned exit code 1 TB --- 2014-01-31 09:59:53 - ERROR: failed to build LINT kernel TB --- 2014-01-31 09:59:53 - 10826.23 user 3446.59 system 14349.85 real http://tinderbox.des.no/tinderbox-freebsd10-build-RELENG_10-i386-i386.full From owner-freebsd-i386@FreeBSD.ORG Fri Jan 31 13:33:42 2014 Return-Path: Delivered-To: i386@freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [8.8.178.115]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id 326678C8; Fri, 31 Jan 2014 13:33:42 +0000 (UTC) Received: from albert.catwhisker.org (mx.catwhisker.org [198.144.209.73]) (using TLSv1 with cipher DHE-RSA-AES256-SHA (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id F1799114B; Fri, 31 Jan 2014 13:33:41 +0000 (UTC) Received: from albert.catwhisker.org (localhost [127.0.0.1]) by albert.catwhisker.org (8.14.7/8.14.7) with ESMTP id s0VDXewE004776; Fri, 31 Jan 2014 05:33:40 -0800 (PST) (envelope-from david@albert.catwhisker.org) Received: (from david@localhost) by albert.catwhisker.org (8.14.7/8.14.7/Submit) id s0VDXenY004775; Fri, 31 Jan 2014 05:33:40 -0800 (PST) (envelope-from david) Date: Fri, 31 Jan 2014 05:33:40 -0800 From: David Wolfskill To: stable@freebsd.org, i386@freebsd.org Subject: Re: [releng_10 tinderbox] failure on i386/i386 Message-ID: <20140131133340.GH1620@albert.catwhisker.org> References: <201401301859.s0UIxd71069586@worker01.tb.des.no> <201401302047.s0UKliXK005726@slippy.cwsent.com> MIME-Version: 1.0 Content-Type: multipart/signed; micalg=pgp-sha512; protocol="application/pgp-signature"; boundary="LiQwW4YX+w4axhAx" Content-Disposition: inline In-Reply-To: <201401302047.s0UKliXK005726@slippy.cwsent.com> User-Agent: Mutt/1.5.22 (2013-10-16) X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 Precedence: list List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Fri, 31 Jan 2014 13:33:42 -0000 --LiQwW4YX+w4axhAx Content-Type: text/plain; charset=us-ascii Content-Disposition: inline Content-Transfer-Encoding: quoted-printable On Thu, Jan 30, 2014 at 12:47:44PM -0800, Cy Schubert wrote: > In message <201401301859.s0UIxd71069586@worker01.tb.des.no>, FreeBSD=20 > Tinderbox > writes: > > ... > > >>> Kernel build for LINT started on Thu Jan 30 18:35:38 UTC 2014 > > >>> stage 1: configuring the kernel > > >>> stage 2.1: cleaning up the object tree > > >>> stage 2.2: rebuilding the object tree > > >>> stage 2.3: build tools > > >>> stage 3.1: making dependencies > > >>> stage 3.2: building everything > > [...] > > In file included from /src/sys/contrib/dev/acpica/include/platform/acfr= eebsd. > > h:73: > > /src/sys/sys/systm.h:306:20: error: redefinition of 'cpu_ticks' as diff= erent=20 > > kind of symbol > > extern cpu_tick_f *cpu_ticks; > > ^ > > ./machine/cpu.h:86:10: note: previous definition is here > > return (cpu_ticks()); > > ^ > > 2 errors generated. > > *** Error code 1 > >=20 > > Stop. > > bmake[1]: stopped in /obj/i386.i386/src/sys/LINT > > *** Error code 1 > >=20 > > Stop. > > bmake: stopped in /src > > *** [buildkernel] Error code 1 > >=20 > > Stop in /src. > > TB --- 2014-01-30 18:59:38 - WARNING: /usr/bin/make returned exit code = 1=20 > > TB --- 2014-01-30 18:59:38 - ERROR: failed to build LINT kernel > > TB --- 2014-01-30 18:59:38 - 10816.16 user 3442.55 system 14336.69 real >=20 >=20 > Haven't tested this yet but this should fix 10-STABLE and -CURRENT. >=20 > Index: acpi_wakeup.c > =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D > --- acpi_wakeup.c (revision 261221) > +++ acpi_wakeup.c (working copy) > @@ -43,7 +43,9 @@ > #include > =20 > #include > +#ifdef __amd64__ > #include > +#endif > #include > #include > #include > ... I encountered the above in my GENERIC-based laptop kernel ("CANARY"), and Cy's suggested fix does allow me to build, install, and boot a new kernel that seems to work: FreeBSD g1-251.catwhisker.org 10.0-STABLE FreeBSD 10.0-STABLE #1144 r26131= 3M/261318:1000702: Fri Jan 31 05:10:02 PST 2014 root@g1-251.catwhisker.= org:/common/S3/obj/usr/src/sys/CANARY i386 Yesterday, I had updated sources to stable/10 @r261288; today, @r261313 (as depicted above). Peace, david --=20 David H. Wolfskill david@catwhisker.org Taliban: Evil cowards with guns afraid of truth from a 14-year old girl. See http://www.catwhisker.org/~david/publickey.gpg for my public key. --LiQwW4YX+w4axhAx Content-Type: application/pgp-signature -----BEGIN PGP SIGNATURE----- Version: GnuPG v2.0.22 (FreeBSD) iQJ8BAEBCgBmBQJS66YzXxSAAAAAAC4AKGlzc3Vlci1mcHJAbm90YXRpb25zLm9w ZW5wZ3AuZmlmdGhob3JzZW1hbi5uZXQ4RThEMDY4QTIxMjc1MDZFRDIzODYzRTc4 QTY3RjlDOERFRjQxOTNCAAoJEIpn+cje9Bk7OmkP/1vcjeRwxZHFirxjKLYVDHv7 GoaurAnXaFF6k6khXJJCA0yLyU9TJIN8Oq2VdIdRtrj6xeEKEoYiQRjEK4JKaIMQ 4eR+nwxhGTtIMW2CFDIVYnlGkNO1zpjrC4bkSdcfDHLK4NWWPjw93QI1/R+m8eHC QDJAcEVN+ibHZ8+MIFu+r2zWioruzKr2axGqSWzFD+gYOb7HwbAq3o0QssioJDTg P5tqH/c+YbOtnjRrYSOdAyn1vDMLdWYOIEyTrq3VlznTipSfiGBmK/EkwPE7iZLj UkTNgAPc1zUdlkeDa/B9UhWL4K7HeUa5FpbOKc7anVjULUUvpBkwK6dx9y3xkY2T xwMiEjBX47LPiHACL12eh5jV9ZQqQOT87T16pt1n1fZ5m9U7Bl10z/aeiQ+Crgyx oYRiltHaxx7rTD7NLEH7tx8A2OH3Fm077EXtqsp+VSIxDtB3B7G8lrr+v/kFQ/wz H7NYOCwAUTb3lc/mwEvBLr9t7rMEzZ8JHkLoJi3fcMXypQug/y1EVWHTvmVYSiM6 +I7kaxDtjnhbP/RYd/qx0ahc5kuTkgsJPL5SqsyRcaLUAdCM8kX9qIVoPIlJyycU 5bSN5vmGfr6kcIfJ826NNBy7qfMm+BEL6B+1lOh/P/lv2w1jscIYSFwuCcRXQn9T vDwdS7uEErYsW8crDGjl =Awiz -----END PGP SIGNATURE----- --LiQwW4YX+w4axhAx-- From owner-freebsd-i386@FreeBSD.ORG Fri Jan 31 17:22:41 2014 Return-Path: Delivered-To: i386@freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [8.8.178.115]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id BA582931; Fri, 31 Jan 2014 17:22:41 +0000 (UTC) Received: from worker01.tb.des.no (worker01.tb.des.no [41.154.2.147]) (using TLSv1 with cipher DHE-RSA-AES256-SHA (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id 0A00215D8; Fri, 31 Jan 2014 17:22:40 +0000 (UTC) Received: from worker01.tb.des.no (localhost [127.0.0.1]) by worker01.tb.des.no (8.14.5/8.14.5) with ESMTP id s0VHMajU035287; Fri, 31 Jan 2014 19:22:36 +0200 (SAST) (envelope-from tinderbox@freebsd.org) Received: (from tinderbox@localhost) by worker01.tb.des.no (8.14.5/8.14.5/Submit) id s0VHMawM035123; Fri, 31 Jan 2014 17:22:36 GMT (envelope-from tinderbox@freebsd.org) Date: Fri, 31 Jan 2014 17:22:36 GMT Message-Id: <201401311722.s0VHMawM035123@worker01.tb.des.no> X-Authentication-Warning: worker01.tb.des.no: tinderbox set sender to FreeBSD Tinderbox using -f Sender: FreeBSD Tinderbox From: FreeBSD Tinderbox To: FreeBSD Tinderbox , , Subject: [releng_10 tinderbox] failure on i386/i386 Precedence: bulk X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Fri, 31 Jan 2014 17:22:41 -0000 TB --- 2014-01-31 13:30:42 - tinderbox 2.20 running on worker01.tb.des.no TB --- 2014-01-31 13:30:42 - FreeBSD worker01.tb.des.no 9.1-RELEASE-p4 FreeBSD 9.1-RELEASE-p4 #0: Mon Jun 17 11:42:37 UTC 2013 root@amd64-builder.daemonology.net:/usr/obj/usr/src/sys/GENERIC amd64 TB --- 2014-01-31 13:30:42 - starting RELENG_10 tinderbox run for i386/i386 TB --- 2014-01-31 13:30:42 - cleaning the object tree TB --- 2014-01-31 13:31:37 - /usr/local/bin/svn stat --no-ignore /src TB --- 2014-01-31 13:31:43 - At svn revision 261320 TB --- 2014-01-31 13:31:44 - building world TB --- 2014-01-31 13:31:44 - CROSS_BUILD_TESTING=YES TB --- 2014-01-31 13:31:44 - MAKEOBJDIRPREFIX=/obj TB --- 2014-01-31 13:31:44 - PATH=/usr/bin:/usr/sbin:/bin:/sbin TB --- 2014-01-31 13:31:44 - SRCCONF=/dev/null TB --- 2014-01-31 13:31:44 - TARGET=i386 TB --- 2014-01-31 13:31:44 - TARGET_ARCH=i386 TB --- 2014-01-31 13:31:44 - TZ=UTC TB --- 2014-01-31 13:31:44 - __MAKE_CONF=/dev/null TB --- 2014-01-31 13:31:44 - cd /src TB --- 2014-01-31 13:31:44 - /usr/bin/make -B buildworld >>> Building an up-to-date make(1) >>> World build started on Fri Jan 31 13:31:55 UTC 2014 >>> Rebuilding the temporary build tree >>> stage 1.1: legacy release compatibility shims >>> stage 1.2: bootstrap tools >>> stage 2.1: cleaning up the object tree >>> stage 2.2: rebuilding the object tree >>> stage 2.3: build tools >>> stage 3: cross tools >>> stage 4.1: building includes >>> stage 4.2: building libraries >>> stage 4.3: make dependencies >>> stage 4.4: building everything >>> World build completed on Fri Jan 31 16:59:15 UTC 2014 TB --- 2014-01-31 16:59:15 - generating LINT kernel config TB --- 2014-01-31 16:59:15 - cd /src/sys/i386/conf TB --- 2014-01-31 16:59:15 - /usr/bin/make -B LINT TB --- 2014-01-31 16:59:15 - cd /src/sys/i386/conf TB --- 2014-01-31 16:59:15 - /usr/sbin/config -m LINT TB --- 2014-01-31 16:59:15 - building LINT kernel TB --- 2014-01-31 16:59:15 - CROSS_BUILD_TESTING=YES TB --- 2014-01-31 16:59:15 - MAKEOBJDIRPREFIX=/obj TB --- 2014-01-31 16:59:15 - PATH=/usr/bin:/usr/sbin:/bin:/sbin TB --- 2014-01-31 16:59:15 - SRCCONF=/dev/null TB --- 2014-01-31 16:59:15 - TARGET=i386 TB --- 2014-01-31 16:59:15 - TARGET_ARCH=i386 TB --- 2014-01-31 16:59:15 - TZ=UTC TB --- 2014-01-31 16:59:15 - __MAKE_CONF=/dev/null TB --- 2014-01-31 16:59:15 - cd /src TB --- 2014-01-31 16:59:15 - /usr/bin/make -B buildkernel KERNCONF=LINT >>> Kernel build for LINT started on Fri Jan 31 16:59:15 UTC 2014 >>> stage 1: configuring the kernel >>> stage 2.1: cleaning up the object tree >>> stage 2.2: rebuilding the object tree >>> stage 2.3: build tools >>> stage 3.1: making dependencies >>> stage 3.2: building everything [...] In file included from /src/sys/contrib/dev/acpica/include/platform/acfreebsd.h:73: /src/sys/sys/systm.h:306:20: error: redefinition of 'cpu_ticks' as different kind of symbol extern cpu_tick_f *cpu_ticks; ^ ./machine/cpu.h:86:10: note: previous definition is here return (cpu_ticks()); ^ 2 errors generated. *** Error code 1 Stop. bmake[1]: stopped in /obj/i386.i386/src/sys/LINT *** Error code 1 Stop. bmake: stopped in /src *** [buildkernel] Error code 1 Stop in /src. TB --- 2014-01-31 17:22:35 - WARNING: /usr/bin/make returned exit code 1 TB --- 2014-01-31 17:22:35 - ERROR: failed to build LINT kernel TB --- 2014-01-31 17:22:35 - 10728.14 user 3152.49 system 13913.16 real http://tinderbox.des.no/tinderbox-freebsd10-build-RELENG_10-i386-i386.full From owner-freebsd-i386@FreeBSD.ORG Fri Jan 31 17:26:09 2014 Return-Path: Delivered-To: i386@freebsd.org Received: from mx1.freebsd.org (mx1.freebsd.org [IPv6:2001:1900:2254:206a::19:1]) (using TLSv1 with cipher ADH-AES256-SHA (256/256 bits)) (No client certificate requested) by hub.freebsd.org (Postfix) with ESMTPS id 1C15EBE3; Fri, 31 Jan 2014 17:26:09 +0000 (UTC) Received: from bigwig.baldwin.cx (bigwig.baldwin.cx [IPv6:2001:470:1f11:75::1]) (using TLSv1 with cipher ADH-CAMELLIA256-SHA (256/256 bits)) (No client certificate requested) by mx1.freebsd.org (Postfix) with ESMTPS id E244E1616; Fri, 31 Jan 2014 17:26:08 +0000 (UTC) Received: from jhbbsd.localnet (unknown [209.249.190.124]) by bigwig.baldwin.cx (Postfix) with ESMTPSA id DB9CEB958; Fri, 31 Jan 2014 12:26:07 -0500 (EST) From: John Baldwin To: freebsd-stable@freebsd.org, i386@freebsd.org Subject: Re: [releng_10 tinderbox] failure on i386/i386 Date: Fri, 31 Jan 2014 12:22:35 -0500 User-Agent: KMail/1.13.5 (FreeBSD/8.4-CBSD-20130906; KDE/4.5.5; amd64; ; ) References: <201401300359.s0U3xg6U014906@worker01.tb.des.no> In-Reply-To: <201401300359.s0U3xg6U014906@worker01.tb.des.no> MIME-Version: 1.0 Content-Type: Text/Plain; charset="iso-8859-1" Content-Transfer-Encoding: 7bit Message-Id: <201401311222.36037.jhb@freebsd.org> X-Greylist: Sender succeeded SMTP AUTH, not delayed by milter-greylist-4.2.7 (bigwig.baldwin.cx); Fri, 31 Jan 2014 12:26:08 -0500 (EST) Cc: FreeBSD Tinderbox X-BeenThere: freebsd-i386@freebsd.org X-Mailman-Version: 2.1.17 Precedence: list List-Id: I386-specific issues for FreeBSD List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Fri, 31 Jan 2014 17:26:09 -0000 On Wednesday, January 29, 2014 10:59:42 pm FreeBSD Tinderbox wrote: > TB --- 2014-01-30 00:00:43 - tinderbox 2.20 running on worker01.tb.des.no > TB --- 2014-01-30 00:00:43 - FreeBSD worker01.tb.des.no 9.1-RELEASE-p4 FreeBSD 9.1-RELEASE-p4 #0: Mon Jun 17 11:42:37 UTC 2013 root@amd64- builder.daemonology.net:/usr/obj/usr/src/sys/GENERIC amd64 > TB --- 2014-01-30 00:00:43 - starting RELENG_10 tinderbox run for i386/i386 > TB --- 2014-01-30 00:00:43 - cleaning the object tree > TB --- 2014-01-30 00:00:43 - /usr/local/bin/svn stat --no-ignore /src > TB --- 2014-01-30 00:01:36 - At svn revision 261278 > TB --- 2014-01-30 00:01:37 - building world > TB --- 2014-01-30 00:01:37 - CROSS_BUILD_TESTING=YES > TB --- 2014-01-30 00:01:37 - MAKEOBJDIRPREFIX=/obj > TB --- 2014-01-30 00:01:37 - PATH=/usr/bin:/usr/sbin:/bin:/sbin > TB --- 2014-01-30 00:01:37 - SRCCONF=/dev/null > TB --- 2014-01-30 00:01:37 - TARGET=i386 > TB --- 2014-01-30 00:01:37 - TARGET_ARCH=i386 > TB --- 2014-01-30 00:01:37 - TZ=UTC > TB --- 2014-01-30 00:01:37 - __MAKE_CONF=/dev/null > TB --- 2014-01-30 00:01:37 - cd /src > TB --- 2014-01-30 00:01:37 - /usr/bin/make -B buildworld > >>> Building an up-to-date make(1) > >>> World build started on Thu Jan 30 00:01:48 UTC 2014 > >>> Rebuilding the temporary build tree > >>> stage 1.1: legacy release compatibility shims > >>> stage 1.2: bootstrap tools > >>> stage 2.1: cleaning up the object tree > >>> stage 2.2: rebuilding the object tree > >>> stage 2.3: build tools > >>> stage 3: cross tools > >>> stage 4.1: building includes > >>> stage 4.2: building libraries > >>> stage 4.3: make dependencies > >>> stage 4.4: building everything > >>> World build completed on Thu Jan 30 03:35:43 UTC 2014 > TB --- 2014-01-30 03:35:43 - generating LINT kernel config > TB --- 2014-01-30 03:35:43 - cd /src/sys/i386/conf > TB --- 2014-01-30 03:35:43 - /usr/bin/make -B LINT > TB --- 2014-01-30 03:35:43 - cd /src/sys/i386/conf > TB --- 2014-01-30 03:35:43 - /usr/sbin/config -m LINT > TB --- 2014-01-30 03:35:43 - building LINT kernel > TB --- 2014-01-30 03:35:43 - CROSS_BUILD_TESTING=YES > TB --- 2014-01-30 03:35:43 - MAKEOBJDIRPREFIX=/obj > TB --- 2014-01-30 03:35:43 - PATH=/usr/bin:/usr/sbin:/bin:/sbin > TB --- 2014-01-30 03:35:43 - SRCCONF=/dev/null > TB --- 2014-01-30 03:35:43 - TARGET=i386 > TB --- 2014-01-30 03:35:43 - TARGET_ARCH=i386 > TB --- 2014-01-30 03:35:43 - TZ=UTC > TB --- 2014-01-30 03:35:43 - __MAKE_CONF=/dev/null > TB --- 2014-01-30 03:35:43 - cd /src > TB --- 2014-01-30 03:35:43 - /usr/bin/make -B buildkernel KERNCONF=LINT > >>> Kernel build for LINT started on Thu Jan 30 03:35:43 UTC 2014 > >>> stage 1: configuring the kernel > >>> stage 2.1: cleaning up the object tree > >>> stage 2.2: rebuilding the object tree > >>> stage 2.3: build tools > >>> stage 3.1: making dependencies > >>> stage 3.2: building everything > [...] > In file included from /src/sys/contrib/dev/acpica/include/platform/acfreebsd.h:73: > /src/sys/sys/systm.h:306:20: error: redefinition of 'cpu_ticks' as different kind of symbol > extern cpu_tick_f *cpu_ticks; > ^ > ./machine/cpu.h:86:10: note: previous definition is here > return (cpu_ticks()); > ^ My fault, will fix in a bit. -- John Baldwin